The present disclosure relates generally to protective coverings. More particularly, the present disclosure relates to protective coverings used as a glove for a hand. Specifically, the present disclosure provides a protective device to cover the webbing region located between a thumb and index finger (i.e., the thumb-crotch) on a liquid proof heat resistant glove or mitten.
Humans have enjoyed roasting chickens on a rotisserie since at least the middle ages. Modern rotisserie devices are provided in the form of ovens, often at supermarkets or grocery stores. The chickens cook on a rotisserie spit that rotates in the oven. The spit is extremely sharp as it has to pierce the chicken so the chicken may be affixed to the spit while it rotates in the oven. The rotisserie oven heats up to high temperatures, often in excess of 500 degrees, and cooks the chicken.
Liquid proof heat resistant gloves are often used in commercial settings, such as delicatessens, that cook their own rotisserie chickens. These gloves are designed to protect a worker's hands from the high heat and hot liquids (e.g., grease) that are associated with the rotisserie roasting of chicken. A deli worker dons these gloves prior to removing the chickens from the spit. To remove a chicken from a spit, a worker wearing the liquid proof heat resistant gloves removes the spit from the rotating oven. The worker then grasps the spit at one end. Ordinarily, a right handed person grasps the right end of the spit with his right hand and grasps adjacent the right end of the spit with his left hand in the glove. The user then pulls the spit using his right hand in a motion similar to drawing a sword, all while continuing to grasp the spit with his left hand. As the spit travels through the user's grasped hand, the chickens are released from the spit and fall into a desired container. A problem often arises when the worker removes the chickens because drawing the spit through the grasped glove has a tendency to cut the glove surface. The liquid proof heat resistant gloves often cost around one hundred dollars a pair and currently some delicatessens are replacing cut or damaged gloves every three days.
A search for prior art revealed a protector for a ski glove. One exemplary ski glove protector is manufactured by Kombi, Ltd. of Essex Junction, Vt., USA and sold commercially under the name of “Glove Protector” available at www.skis.com. This Kombi glove protector is constructed of natural leather and is for use with ski gloves to protect a cold weather ski glove from being torn by ski tow ropes while a wearer grasps the tow rope. This Kombi glove protector is for cold weather outdoor gear and would not function in a protective manner at the high temperatures required for protecting a liquid proof heat resistant glove donned by a deli worker. The leather constructed Kombi glove would melt at the high temperature ranges in which the present disclosure operates.
Additionally, other protective devices used on gloves have been shown in the prior art. For example, U.S. Pat. No. 7,089,600 (the ′600 patent) discloses a work glove including a fiber-made base glove with two reinforcement coats. A first reinforcement coat of compound rubber latex (essentially neoprene) extends over the crotch between the thumb and forefinger. A second reinforcement coat of compound rubber latex covers the fiber-made base glove except a back thereof includes the first reinforcement coat. Essentially, the first reinforcement coat is not covered by the second reinforcement coat on the back portion (i.e., dorsal portion or volar portion) of the glove. The first reinforcement coat and the second reinforcement coat extend along the length of the forefinger and cover the distal tip thereof. Thumb implementations of compound rubber latex may increase the stiffness of the base glove thereby reducing finger flexion or increasing finger strain and muscle strength to effectuate a similar flexion of a base glove free of the first and second reinforcement layers. Thus, while the crotch region may be covered with the first and second reinforcement layers, other drawbacks may continue to exist.
An additional attempt at protecting a portion of the hand is detailed in U.S. Pat. No. 4,873,998 (the ′998 patent). The ′998 patent provides a hardened plastic band formed from a thermo-plastic material that allows enough flexibility to move the hand, but also has a substantial density to protect the same. One drawback associated with the protective device of the ′998 patent is that it likely could not be used in high-heat environments inasmuch as portions of the hand are exposed through the protective band.
An additional attempt at protecting the thumb-crotch region of the hand is detailed in U.S. P.G. Publication 2003/0140396 (the ′396 publication). The ′396 publication details a unilayer flexible textile performance fabric comprising a base fabric having at least one dissimilar high performance fiber interwoven into said base fabric. The ′396 publication details that the weaving of the two distinct fibers together creates a single layer of material. The high performance fiber may be cut-resistant.
The liquid proof heat resistant gloves that are used by delicatessens (i.e., delis) that cook rotisserie chickens may sometimes be cut inadvertently when an operator is removing a cooked rotisserie chicken from a spit. This can lead to a dangerous situation inasmuch as the hot grease can penetrate the glove through the cut or tear even though the glove itself is made from a liquid proof material. The hot grease has the potential to injure the person wearing or who has donned the glove.
Furthermore, in many industries (but especially the food preparation/service industry), workers may have to handle articles that potentially can injure them. In the food services industry, for example, workers are frequently exposed to heated surfaces and hot liquids and gases that may cause severe burns. It has therefore become commonplace for workers in such environments to wear protective clothing, including temperature and fluid resistant gloves. The gloves in question need to prevent radiant heat from reaching the skin and they need to be fluid impermeable to prevent liquids and gases from penetrating into the interior of the glove, causing a contact-type injury. Similar requirements are necessary in industries where the workers are exposed to extremely cold substances, such as liquid nitrogen, or to caustic substances such as acids and bases that can severely damage flesh if they come into contact with the skin. While gloves currently known in these industries function quite well, one of the problem areas that persists is the tendency for liquids and gases to be able to penetrate the gloves when there is a failure (i.e., rip, tear, rupture, etc.). Liquids and gases tend to penetrate into the interior of the glove through these small gaps created by the failure and thereby cause injury to the wearer.
Thus, while the liquid proof heat resistant gloves exist for protecting the deli worker from the hot spit and hot liquids, a need exists to protect the expensive glove from the slicing motion of the spit as it pulled through the grasped hand of the deli worker. Additionally, a need continues to exist for a liquid proof heat resistant glove to deli workers and other food service industries that can visually identify damaged glove to the wearer thereof. The present disclosure addresses these and other issues.
In one aspect, an embodiment of the present disclosure may provide a protective device for use in a high temperature and liquid environment provides a glove integrally formed with a protective member in the thumb webbing region. The protective member is not readily detectable when viewing the outside of the glove. The protective member is cut resistant and constructed to protect a worker's hand as a sharp and hot object passes over the protective member contacting the outer surface of the glove.
In another aspect, an embodiment of the present disclosure may provide a protective member for a thumb-crotch region of the glove that, prior to installing on a glove, is laid flat and the protective member comprises: a generally rounded trapezoidal-shaped edge bounding a first surface opposite a second surface; a major axis associated with the generally rounded trapezoidal-shaped edge; a minor axis associated with the generally rounded trapezoidal-shaped edge; at least two opposing slits interrupting the generally rounded trapezoidal −shaped edge, wherein the at least two slits extend parallel to the minor axis and each terminates prior to the major axis, wherein the two slits are enable the protective member to bend around a thumb region of the glove and a forefinger region of the glove such that the major axis extends over thumb-crotch region of the glove.
In another aspect, an embodiment of the present disclosure may provide a liquid proof and heat resistant protective device worn on a hand comprising: an inner liner shaped as a glove, wherein the inner liner is formed from a first material; an outer skin connected to the inner liner defining an outer surface of the glove, wherein the outer skin is formed from a second material different than the first material, and the second material is liquid proof and withstands thermal deformation and ignition at temperatures of 700 degrees Fahrenheit; a finger receiving first sleeve defined by the inner liner and outer skin connected together; a thumb receiving second sleeve defined by the inner liner and outer skin connected together; a thumb webbing region defined between the first and second sleeve; and an impermeable integral protective member intermediate and sandwiched between the inner liner and outer skin positioned in the thumb webbing region formed of a third material different than the first material of the inner liner and the second material of the outer skin, wherein the protective member is positioned entirely beneath the outer skin such that the protective member is not viewable when looking at the outer skin of the glove, wherein the impermeability of the protective member prevents the outer skin from striking therethrough when forming the outer skin by dipping the inner liner and protective member therein.
In another aspect, an embodiment of the present disclosure may provide a protective member for a thumb-crotch region of the glove that, prior to installing on a glove, is laid flat and the protective member comprises: a generally rounded trapezoidal-shaped edge bounding a first surface opposite a second surface; a major axis associated with the generally rounded trapezoidal-shaped edge; a minor axis associated with the generally rounded trapezoidal-shaped edge; at least two opposing slits interrupting the generally rounded trapezoidal-shaped edge, wherein the at least two slits extend parallel to the minor axis and each terminates prior to the major axis, wherein the two slits are enable the protective member to bend around a thumb region of the glove and a forefinger region of the glove such that the major axis extends over thumb-crotch region of the glove.
In another aspect, an embodiment of the present disclosure may provide a system for protecting an operator from a sharp object moving above a thumb-crotch region comprising: a hand from an operator including at least the following bones: a first metacarpal bone, a second carpal bone, and a third metacarpal bone; a glove donned by the hand; a protective member attached to the glove spanning the thumb-crotch region; and a first edge of the protective member crossing over the second metacarpal bone at an angle in a range from 15° to 75°. This system may further comprise a second edge of the protective member crossing over the second metacarpal bone at an angle generally orthogonal to the first edge of the protective member. The system may further comprise a third edge of the protective member generally parallel with the second edge such that the protective member is generally shaped like a trapezoid when laid flat. The system may further comprise a terminal corner of the first edge positioned approximately directly above the third metacarpal bone. The system may further provide that the protective member defines two slits to enable the protective member to bend around a thumb region of the glove and around a forefinger region of the glove such that the major axis extends over the thumb-crotch region defined between the thumb region and the forefinger region.
In accordance with one aspect of the present disclosure, an embodiment may provide a glove comprising: an index finger sleeve including a base and a closed tip and a first longitudinal axis extending through the base and closed tip; a thumb sleeve including a base end closed tip and a second longitudinal axis extending through the base and closed tip of the thumb sleeve; a vertex defined at an intersection of the first longitudinal axis and the second longitudinal axis; an outer skin defining a continuous outer surface of the glove extending from a palmar side to an opposite dorsal side of the glove; an inner liner defining a continuous inner surface extending from the palmar side of the glove to the dorsal side of the glove, wherein the continuous inner surface defines interior cavity adapted to receive a hand of the wearer therein; a thumb-crotch region of the glove defined between the base of the index finger sleeve and the base of the thumb sleeve, and defined between the first longitudinal axis and the second longitudinal axis on both sides (the palmar side and the dorsal side) of the glove, wherein the thumb-crotch region further is defined as extending over and around from the palmar side of the glove to the dorsal side of the glove between the index finger sleeve and the thumb sleeve; a protective member disposed in the thumb-crotch region, and in one embodiment not outside the thumb-crotch region, that is sandwiched, or layer, or positioned between the outer skin and the inner liner; wherein the outer skin is a first color, the protective member is a second color, and the inner liner is a third color. In one particular embodiment, at least one of the first, second, and third colors is different from the other remaining colors. In another particular embodiment, all three of the first, second, and third colors are different.
In accordance with one aspect, an embodiment of the present disclosure may provide a liquid proof and heat resistant glove comprising: an outer skin defining an outer surface, wherein the outer skin is formed from a material that withstands thermal deformation at a temperature of at least 700° F.; an inner liner defining an inner surface defining a hand shaped cavity adapted to receive a hand of a user; a protective member disposed between the outer skin and the inner liner, wherein the protective member is formed from a material that is more impenetrable and different than the outer skin and the inner liner, and the protective member is a different lighter color than the outer skin which is adapted to visually alert the user in the event of a rupture in the outer skin.
In accordance with one aspect, an embodiment of the present disclosure may provide a method comprising: donning a liquid proof heat resistant glove having a protective member located in a thumb-crotch region between an outer skin and an inner liner; drawing an elongated member over the thumb-crotch region; determining whether the outer skin is damaged; and disposing the glove if the outer skin is damaged.
In yet another aspect, an embodiment of the present disclosure may provide a method comprising: providing a liquid proof and heat resistant glove including a protective member positioned between an outer skin and an inner liner, wherein the protective member is a different color than the outer skin; effecting the protective member to be visually identified in the event of rupturing the outer skin; and effecting the disposal of the glove based on the rupturing of the outer skin identified by the different color of the protective member.
In yet another aspect, an embodiment of the present disclosure may provide a glove comprising: an outer layer defining an outer surface shaped in the form of one of a glove and a mitten; an inner liner defining an inner liner adapted to receive a hand therein; wherein the outer skin is connected to the inner liner; a thumb sleeve including a base and a closed tip, and a first longitudinal axis extending through the base and closed tip of the thumb sleeve; an index finger sleeve including a base and a closed tip, and a second longitudinal axis extending through the base and closed tip of the index finger sleeve; a vertex located at the intersection of the first longitudinal axis and the second longitudinal axis; a palmar side of the glove opposite a dorsal side of the glove; a thumb-crotch region defined between the first longitudinal axis and the second longitudinal axis and the thumb-crotch region extending around from the palmar side to the dorsal side between the index finger sleeve and the thumb sleeve; a protective member in the thumb-crotch region disposed between the outer skin and the inner liner, the protection member having a different color than the outer skin, the different color adapted to visually alert a rupture of the outer skin in the thumb-crotch region.
In yet another aspect, an embodiment of the present disclosure may provide a glove comprising: an outer skin defining an outer surface; an inner liner defining an inner liner adapted to receive a hand therein; wherein the outer skin is connected to the inner liner; a thumb sleeve including a base and a closed tip, and a first longitudinal axis extending through the base and closed tip of the thumb sleeve; an index finger sleeve including a base and a closed tip, and a second longitudinal axis extending through the base and closed tip of the index finger sleeve; a vertex located at the intersection of the first longitudinal axis and the second longitudinal axis; a palmar side of the glove opposite a dorsal side of the glove; a thumb-crotch region defined between the first longitudinal axis and the second longitudinal axis and the thumb-crotch region extending around from the palmar side to the dorsal side between the index finger sleeve and the thumb sleeve; and a protective member located in the thumb-crotch region disposed between the outer skin and the inner liner, wherein the protective member is a different color than the outer skin, and the different color adapted to visually alert a glove failure occurrence in the outer skin in the thumb-crotch region. This embodiment or another embodiment may further provide wherein the outer surface is a first color; wherein the protective member is a lighter and brighter second color adapted to visually identify a glove failure against a darker backdrop created by the first color. This embodiment or another embodiment may further provide wherein the outer skin is formed from a material that absorbs more light than the protective member; and wherein the protective member is formed from a material that reflects more light than the outer surface so as to visually identify the glove failure against a darker backdrop created by the first color. This embodiment or another embodiment may further provide a color splash effect that is established when the glove fails adapted to visually identify the glove failure against a darker backdrop created by the outer surface.
In yet another aspect, an embodiment of the present disclosure may provide a liquid proof and heat resistant glove comprising: an outer layer defining an outer surface shaped in the form of one of a glove and a mitten, wherein the outer skin is formed from a material that is liquid impermeable and withstands thermal deformation at a temperature of at least 300° F.; and a protective member disposed below the outer skin, wherein the protective member is formed from a material that is different than the outer skin, and the protective member is a different lighter color than the outer skin which is adapted to visually alert the user in the event of a rupture in the outer skin. This embodiment or another embodiment may further provide an inner liner defining an inner surface defining a hand shaped cavity adapted to receive a hand of a user; and wherein the protective member is disposed above the inner liner so as to be positioned between the outer skin and the inner liner. This embodiment or another embodiment may further provide a thumb-crotch region defined between an index finger sleeve and a thumb sleeve, and the thumb-crotch region extending around the glove from a palmar side to a dorsal side; wherein the protective member is located in the thumb-crotch region. This embodiment or another embodiment may further provide a major surface area of the protective member, wherein the major surface occupies a majority of the thumb-crotch region. This embodiment or another embodiment may further provide wherein the major surface entirely occupies the thumb-crotch region and extends beyond the thumb-crotch region. This embodiment or another embodiment may further provide wherein the material forming the protective member is more rigid than the outer skin and more resistant to failure than the outer skin when a sharpened edge is contacted and moved along the protective member.
In yet another aspect, an embodiment of the present disclosure may provide a method comprising: providing a liquid proof and heat resistant glove including a protective member positioned beneath an outer skin, wherein the protective member is a different color than the outer skin; effecting the protective member to be visually identified in response to rupturing the outer skin; and effecting the disposal of the glove based on the rupturing of the outer skin identified by the different color of the protective member. This embodiment or another embodiment may further provide wherein effecting the protective member to be visually identified in response to rupturing the outer skin is accomplished by establishing a color splash effect against a darker backdrop created by the outer skin. This embodiment or another embodiment may further provide wherein effecting the protective member to be visually identified in response to rupturing the outer skin is accomplished by establishing the different color of the protective member is lighter and brighter than the outer skin. This embodiment or another embodiment may further provide wherein rupturing the outer skin occurs in response to drawing a spit over the outer skin in a thumb-crotch region. This embodiment or another embodiment may further provide wherein effecting the protective member to be visually identified in response to rupturing of the outer layer is accomplished by establishing a first color of the outer layer is the darkest color of any portion of the liquid proof and heat resistant glove. This embodiment or another embodiment may further provide wherein effecting the protective member to be visually identified in response to rupturing of the outer layer is accomplished by establishing different color parameters between the first color and the second color. This embodiment or another embodiment may further provide wherein effecting the protective member to be visually identified in response to rupturing of the outer layer is accomplished by establishing a lightness of the protective member is more than a lightness of the outer layer. This embodiment or another embodiment may further provide wherein effecting the protective member to be visually identified in response to rupturing of the outer layer is accomplished by establishing a chrominance of the second color is farther away from dark chrominance than the first color. This embodiment or another embodiment may further provide wherein effecting the protective member to be visually identified in response to rupturing of the outer layer is accomplished by establishing a hue associated with the protective member that is darker than a hue associated with the outer layer. This embodiment or another embodiment may further provide wherein effecting the protective member to be visually identified in response to rupturing of the outer layer is accomplished by establishing reflective properties of the protective member.
In another aspect, an embodiment of the present disclosure may provide a method comprising: donning a liquid proof heat resistant glove having a protective member located in a thumb-crotch region beneath an outer skin; drawing an elongated member over the thumb-crotch region; determining whether the outer skin is damaged; and disposing the glove in response to determining that the outer skin is damaged. This embodiment or another embodiment may further provide wherein determining whether the outer skin is damaged is accomplished by viewing the protective member through a break or rupture in the outer skin. This embodiment or another embodiment may further provide wherein the protective member is a different color than the outer skin. This embodiment or another embodiment may further provide wherein the protective member is lighter in color than the outer skin so as to allow the protective member to be readily identifiable in the event of rupture. This embodiment or another embodiment may further provide wherein the protective member is brighter in color than the outer skin so as to allow the protective member to be readily identifiable in the event of rupture. This embodiment or another embodiment may further provide wherein the protective member is unable to be viewed when the outer skin of the glove is whole and uncut or unadulterated or intact. This embodiment or another embodiment may further provide submerging the thumb-crotch region of the glove into a hot liquid contained by a cooking device in response to the determination that the glove is not damaged. This embodiment or another embodiment may further provide submerging the thumb-crotch region of the glove into heated frying oil contained by a deep fryer. This embodiment or another embodiment may further provide wherein drawing the elongated member over the thumb-crotch region is accomplished by a rotisserie spit moving over the outer layer of the glove. This embodiment or another embodiment may further provide removing poultry from the rotisserie spit while grasping the rotisserie spit with one hand and pulling the rotisserie spit with another hand. This embodiment or another embodiment may further provide wherein the step of removing poultry from the rotisserie spit while grasping the rotisserie spit with one hand and pulling the rotisserie spit with another hand occurs prior to the step of submerging the thumb-crotch region of the glove into heated frying oil contained by a deep fryer.
In yet another aspect, an embodiment of the present disclosure may provide a glove comprising: an outer layer defining an outer surface; an inner liner defining an inner liner adapted to receive a hand therein; wherein the outer layer is connected to the inner liner; a thumb sleeve including a base and a closed tip, and a first longitudinal axis extending through the base and closed tip of the thumb sleeve; an index finger sleeve including a base and a closed tip, and a second longitudinal axis extending through the base and closed tip of the index finger sleeve; a vertex located at the intersection of the first longitudinal axis and the second longitudinal axis; a palmar side of the glove opposite a dorsal side of the glove; a thumb-crotch region defined between the first longitudinal axis and the second longitudinal axis and the thumb-crotch region extending around from the palmar side to the dorsal side between the index finger sleeve and the thumb sleeve; and a protective member located in the thumb-crotch region disposed between the outer skin and the inner liner, wherein the protective member is a different color than the outer skin, and the different color adapted to visually alert a glove failure occurrence in the outer skin in the thumb-crotch region.
In yet another aspect, an embodiment of the present disclosure may provide a color splash effect that is established by a darker backdrop color of an outer surface of a liquid proof and heat resistant glove in the event that a portion of the glove ruptures or fails. The color splash effect is accomplished by a lighter and brighter color being visible through the rupture in the glove. The lighter and brighter color may be formed on or as part of a protective member positioned beneath the outer layer. The protective member also protects the wearer against sharp objects contacting the outer layer of the glove and moving over the protective member. Some embodiments provide that the protective member is in a thumb-crotch region of the glove.
In yet another aspect, an embodiment of the present disclosure may provide a glove comprising: an outer layer defining an outer surface; an inner liner defining an inner liner adapted to receive a hand therein; wherein the outer layer is connected to the inner liner; a thumb sleeve including a base and a closed tip, and a first longitudinal axis extending through the base and closed tip of the thumb sleeve; an index finger sleeve including a base and a closed tip, and a second longitudinal axis extending through the base and closed tip of the index finger sleeve; a vertex located at the intersection of the first longitudinal axis and the second longitudinal axis; a palmar side of the glove opposite a dorsal side of the glove; a thumb-crotch region defined between the first longitudinal axis and the second longitudinal axis and the thumb-crotch region extending around from the palmar side to the dorsal side between the index finger sleeve and the thumb sleeve; and a protective member located in the thumb-crotch region disposed between the outer skin and the inner liner. This embodiment or another may further provide wherein the protective member is a different color than the outer skin, and the different color adapted to visually alert a glove failure occurrence in the outer skin in the thumb-crotch region. This embodiment or another may further provide wherein the outer surface is a first color; wherein the protective member is a lighter and brighter second color adapted to visually identify a glove failure against a darker backdrop created by the first color. This embodiment or another may further provide wherein the outer layer is formed from a material that absorbs more light than the protective member; and wherein the protective member is formed from a material that reflects more light than the outer surface so as to visually identify a glove failure against a darker backdrop created by the outer layer. This embodiment or another may further provide a color splash effect that is established when the glove fails to visually identify the glove failure against a darker backdrop created by the outer surface.
In yet another aspect, an embodiment of the present disclosure may provide a liquid proof and heat resistant glove comprising: an outer layer defining an outer surface shaped in the form of one of a glove and a mitten, wherein the outer layer is formed from a material that is liquid impermeable and withstands thermal deformation at a temperature of at least 300° F.; and a colored layer positioned beneath the outer layer that establishes a visually identifiable color splash effect in the event the outer layer ruptures to effectuate an alert that the liquid proof and heat resistant glove is damaged and should be disposed. This embodiment or another embodiment may further provide a first color associated with the outer layer and a second color associated with colored layer beneath the outer layer that is only visual through a rupture in the outer layer. This embodiment or another embodiment may further provide wherein the first color is the darkest color of any portion of the liquid proof and heat resistant glove. This embodiment or another embodiment may further provide different color parameters between the first color and the second color. This embodiment or another embodiment may further provide a lightness of the second color is more than a lightness of the first color. This embodiment or another embodiment may further provide a chrominance of the second color is farther away from dark chrominance than the first color. This embodiment or another embodiment may further provide a hue of the first color is darker than a hue of the second color. This embodiment or another embodiment may further provide wherein the second color is less saturated when viewed from the outside through a rupture so as to exhibit a higher brightness and colorfulness than the first color. This embodiment or another embodiment may further provide wherein the second color is reflective.
In yet another aspect, an embodiment of the present disclosure may provide a dual purpose glove that is liquid poof and temperature resistant, the dual purpose glove comprising: a liquid proof and heat resistant outer layer; an inner liner; a colored layer disposed intermediate the outer layer and the inner liner that establishes a visually identifiable color splash effect in the event the outer layer ruptures to effectuate an alert that the dual purpose glove is damaged and should neither be donned during removal of poultry from a rotisserie spit nor donned during submersion into hot liquid. This embodiment or another embodiment may further provide, in combination with a rotisserie spit and a cooking device containing hot fluid, the combination further comprising: a first mode of the glove for removal of poultry from the rotisserie spit; and a second mode of the glove for submersion into the hot fluid; wherein are the first mode and the second mode are terminated in the event that the glove is damaged as alerted by the colored layer through the rupture. This combination embodiment or another embodiment may further provide a first color associated with the outer layer and a second color associated with color layer beneath the outer layer that is only visual through a rupture in the outer layer. This combination embodiment or another embodiment may further provide wherein the dual purpose glove further includes wherein the first color is the darkest color of any portion of the dual purpose glove. This combination embodiment or another embodiment may further provide wherein the dual purpose glove further includes different color parameters between the first color and the second color. This combination embodiment or another embodiment may further provide wherein a lightness of the second color is more than a lightness of the first color. This combination embodiment or another embodiment may further provide wherein a chrominance of the second color is farther away from dark chrominance than the first color. This combination embodiment or another embodiment may further provide wherein a hue associated with the first color is darker than a hue associated with the second color. This combination embodiment or another embodiment may further provide wherein the second color is less saturated when viewed from the outside through the rupture so as to exhibit a higher brightness and colorfulness in the light than the first color. This combination embodiment or another embodiment may further provide wherein the second color is reflective.
In yet another aspect, an embodiment of the present disclosure may provide a system comprising: a dual purpose glove that is liquid proof and temperature resistant including a colored layer disposed intermediate an outer layer and an inner liner that establishes a visually identifiable color splash effect in the event the outer layer ruptures to effectuate an alert that the dual purpose glove is damaged; a cooking device containing a hot liquid, wherein the dual purpose glove is sized and formed for safe submersion into the hot liquid; and a rotisserie spit, wherein the dual purpose glove is shaped and formed for safe movement of the rotisserie spit above the outer layer. This system embodiment or another system embodiment may further provide wherein the dual purpose glove includes: a first color associated with the outer layer and a second color associated with a portion of the glove beneath the outer layer that is only visual through a rupture in the outer layer. This system embodiment or another system embodiment may further provide wherein the dual purpose glove further includes wherein the first color is the darkest color of any portion of the dual purpose glove. This system embodiment or another system embodiment may further provide wherein the dual purpose glove further includes different color parameters between the first color and the second color. This system embodiment or another system embodiment may further provide wherein a lightness of the second color is more than a lightness of the first color. This system embodiment or another system embodiment may further provide wherein a chrominance of the second color is farther away from dark chrominance than the first color. This system embodiment or another system embodiment may further provide wherein a hue associated with the first color is darker than a hue associated with the second color. This system embodiment or another system embodiment may further provide wherein the second color is less saturated when viewed from the outside through the rupture so as to exhibit a higher brightness and colorfulness in the light than the first color. This system embodiment or another system embodiment may further provide wherein the second color is reflective.
In yet another aspect, an embodiment of the present disclosure may provide a temperature resistant and fluid impermeable protective glove having front and back panels joined together. The panels may be joined together, in one embodiment, by at least one seam. Or, the panels may be integrally formed together during fabrication. During fabrication/manufacture, the glove is dipped into a first thin liquid to coat the exterior surface of the glove. The first liquid penetrates through gaps in seams and other locations, such as on a drilled cotton liner, and seals gaps as it solidifies. The first liquid coated glove is then dipped into a second thicker liquid to coat the entire exterior surface including a protective member in the thumb-crotch region. A third coating may be applied to the interior surface of the glove prior to joining the front and back panels together. Preferably, the third coating is a blade-coating that improves the gloves cut and penetration strength and thermal resistance.
In accordance with yet another aspect, an embodiment of the present disclosure may provide a dual purpose glove that is liquid poof and temperature resistant, the dual purpose glove comprising: a liquid proof and heat resistant outer layer; an inner liner; one of a colored layer and a colored member disposed intermediate the outer layer and the inner liner that establishes a visually identifiable color splash effect in the event the outer layer ruptures to effectuate an alert that the dual purpose glove is damaged and should neither be donned during removal of poultry from a rotisserie spit nor donned during submersion into hot liquid. This embodiment or another embodiment may further provide in combination with a rotisserie spit and a cooking device containing hot fluid, the combination further comprising: a first mode of the glove for removal of poultry from the rotisserie spit; and a second mode of the glove for submersion into the hot fluid; wherein the first mode and the second mode are terminated in the event that the glove is damaged as alerted by the colored layer through a rupture in the outer layer. This embodiment or another embodiment may further provide a first color associated with the outer layer and a second color associated with the one of a colored layer and a colored member beneath the outer layer that is only visual through the rupture in the outer layer. This embodiment or another embodiment may further provide wherein the first color is the darkest color of any portion of the dual purpose glove. This embodiment or another embodiment may further provide wherein the dual purpose glove further includes different color parameters between the first color and the second color. This embodiment or another embodiment may further provide wherein a lightness of the second color is more than a lightness of the first color. This embodiment or another embodiment may further provide wherein a chrominance of the second color is farther away from dark chrominance than the first color. This embodiment or another embodiment may further provide wherein a hue associated with the first color is darker than a hue associated with the second color. This embodiment or another embodiment may further provide wherein the second color is less saturated when viewed from the outside through the rupture so as to exhibit a higher brightness and colorfulness in the light than the first color. This embodiment or another embodiment may further provide wherein the second color is reflective.
In yet another aspect of the present disclosure, an embodiment may provide a system comprising: a dual purpose glove that is liquid proof and temperature resistant including one of a colored layer and a colored member disposed beneath an outer layer that establishes a visually identifiable color splash effect in the event the outer layer ruptures to effectuate an alert that the dual purpose glove is damaged; a cooking device containing a hot liquid, wherein the dual purpose glove is sized and formed for safe submersion into the hot liquid; and a rotisserie spit, wherein the dual purpose glove is shaped and formed for safe movement of the rotisserie spit above the outer layer. This embodiment or another embodiment may further provide a first color associated with the outer layer and a second color associated with a portion of the one of a colored layer and a colored member beneath the outer layer that is only visual through a rupture in the outer layer. In this embodiment, or another, a cooking device is a deep fryer and the hot liquid is frying oil heated to a temperature of at least 325° F.
In yet another aspect of the present disclosure, an embodiment may provide a dual purpose glove that is liquid poof and temperature resistant, the dual purpose glove comprising: a liquid proof and heat resistant outer layer; one of a colored layer and a colored member disposed below the outer layer that establishes a visually identifiable color splash effect in the event the outer layer ruptures to effectuate an alert that the dual purpose glove is damaged and should neither be donned during removal of poultry from a rotisserie spit nor donned during submersion into hot liquid.
In yet another aspect, an embodiment of the present disclosure may provide a method comprising: donning a liquid proof and temperature resistant glove; performing a first operation, wherein the first operation is one of drawing an elongated member over an outer layer of the glove and submerging the glove into hot liquid; and performing a second operation, wherein the second operation is the other of drawing the elongated member over the outer layer of the glove and submerging the glove into hot liquid. This embodiment or another embodiment may further include determining whether the outer layer is damaged; and disposing the glove in response to determining that the outer layer is damaged. This embodiment or another embodiment may further include wherein determining whether the outer layer is damaged is accomplished by viewing the protective member through a break or rupture in the outer layer. This embodiment or another embodiment may further include wherein a portion of the glove below the break or rupture is a different color than the outer layer so as to effectuate a color splash effect against the outer layer of the glove. This embodiment or another embodiment may further include identifying, visually, one of a colored layer and a colored member in response to rupturing of the outer layer; and disposing the glove based on the rupturing of the outer layer identified by the one of a colored layer and a colored member.
In yet another aspect, an embodiment of the present disclosure may provide a dual purpose glove that is liquid poof and temperature resistant, the dual purpose glove comprising: a liquid proof and temperature resistant outer layer, wherein the outer layer is formed from a material that is liquid impermeable and withstands thermal deformation at a temperature of at least 300° F. and is protectively insulative to a temperature of at least at least 300° F. for a period of at least one second adapted to protect a wearer when the dual purpose glove is donned and submerged into hot liquid and to protect the wearer when the dual purpose glove is donned and grasps a sharpened elongated member.
In yet another aspect, an embodiment of the present disclosure may provide a method comprising: donning a liquid proof and heat resistant glove having a protective member located in a thumb-crotch region beneath an outer layer; drawing an elongated member over the thumb-crotch region; determining whether the outer layer is damaged; determining whether a protective member positioned beneath the outer layer is damaged; and disposing the glove in response to determining that the protective member is damaged. This method or another exemplary method may further include wherein determining whether the protective member is damaged is accomplished by viewing a colored layer through a break or rupture in the protective member. This method or another exemplary method may further include wherein a portion of the colored layer is a different color than the protective member. This method or another exemplary method may further include wherein the colored layer is lighter and brighter in color than the protective member so as to allow the colored layer to be readily identifiable in the event of rupture. This method or another exemplary method may further include wherein the colored layer is unable to be viewed when the protective member of the glove is whole, uncut, unadulterated, and intact. This method or another exemplary method may further include submerging the thumb-crotch region of the glove into a hot liquid contained by a cooking device in response to the determination that the protective member is not damaged regardless of whether the outer layer is damaged. This method or another exemplary method may further include submerging the thumb-crotch region of the glove into heated liquid frying oil contained by a deep fryer. This method or another exemplary method may further include wherein drawing the elongated member over the thumb-crotch region is accomplished by a rotisserie spit moving over the outer layer of the glove. This method or another exemplary method may further include removing poultry from the rotisserie spit while grasping the rotisserie spit with one hand and pulling the rotisserie spit with another hand. This method or another exemplary method may further include wherein the step of removing poultry from the rotisserie spit while grasping the rotisserie spit with one hand and pulling the rotisserie spit with another hand occurs prior to submerging the thumb-crotch region of the glove into heated frying oil contained by a deep fryer.
In another aspect, an exemplary embodiment of the present disclosure may provide a method comprising: donning a liquid proof and temperature resistant glove; performing a first operation, wherein the first operation is one of drawing an elongated member over an outer layer of the glove or submerging the glove into hot liquid; and performing a second operation, wherein the second operation is the other of drawing the elongated member over the outer layer of the glove or submerging the glove into hot liquid. This method or another exemplary method may further include determining whether there is a rupture in a portion of the liquid proof and temperature resistant glove; and disposing the glove in response to determining that the rupture. This method or another exemplary method may further include wherein determining whether there is a rupture is accomplished by viewing one of a colored layer or a colored member through the rupture. This method or another exemplary method may further include wherein a portion of the glove below the rupture is a different color than the outer layer so as to effectuate a color splash effect against the outer layer of the glove. This method or another exemplary method may further include wherein the rupture is in a protective member positioned below the outer layer and the colored layer or colored member is positioned below the protective member. This method or another exemplary method may further include identifying, visually, one of a colored layer and a colored member in response to a rupture; and disposing the glove based on the rupture identified by the one of a colored layer and a colored member.
In yet another aspect, an embodiment of the present disclosure may provide a dual purpose glove that is liquid poof and temperature resistant, the dual purpose glove comprising: a liquid proof and temperature resistant outer layer, wherein the outer layer is formed from a material that is liquid impermeable and withstands thermal deformation at a temperature of at least 700° F. and is protectively insulative to a temperature of at least at least 700° F. for a period of at least one second adapted to protect a wearer when the dual purpose glove is donned and submerged into hot liquid and to protect the wearer when the dual purpose glove is donned and grasps a sharpened elongated member. This embodiment or another embodiment may further include one of a colored layer and a colored member disposed below the outer layer that establishes a visually identifiable color splash effect in the event the outer layer ruptures to effectuate an alert that the dual purpose glove is damaged and should neither be donned during removal of poultry from a rotisserie spit nor donned during submersion into hot liquid. This embodiment or another embodiment may further include a rotisserie spit and a cooking device containing hot fluid, the combination further comprising: a first mode of the glove for removal of poultry from the rotisserie spit; and a second mode of the glove for submersion into the hot fluid; wherein the first mode and the second mode are terminated in the event that the glove is damaged as alerted by the colored layer visible through a rupture. This embodiment or another embodiment may further include a first color associated with the outer layer and a second color associated with the one of a colored layer and a colored member beneath the outer layer that is only visual through the rupture. This embodiment or another embodiment may further include wherein the dual purpose glove further includes wherein the first color is the darkest color of any portion of the dual purpose glove. This embodiment or another embodiment may further include wherein the dual purpose glove further includes different color parameters between the first color and the second color. This embodiment or another embodiment may further include wherein a lightness of the second color is more than a lightness of the first color and is farther away from dark chrominance than the first color. This embodiment or another embodiment may further include wherein a hue associated with the first color is darker than a hue associated with the second color. This embodiment or another embodiment may further include wherein the second color is less saturated when viewed from the outside through the rupture so as to exhibit a higher brightness and colorfulness in the light than the first color. This embodiment or another embodiment may further include wherein the second color is reflective.
In yet another aspect, an exemplary embodiment of the present disclosure may provide a method comprising: attaching a glove liner to a glove mold, the glove liner comprising a first finger sleeve and a thumb sleeve, and the glove liner defining a thumb-crotch region that extends from a palmar side to a dorsal side between the first finger sleeve and the thumb sleeve of the glove liner; applying a colored layer to the glove liner in the thumb-crotch region; connecting a protective member to the glove liner positioned above the colored layer in the thumb-crotch region; heating and stirring an aqueous polymeric emulsion; foaming the aqueous polymeric emulsion; dipping the glove liner, the colored layer, and the protective member into a tank containing the aqueous polymeric emulsion that has been heated, stirred, and foamed, wherein the protective member is fully submerged into the aqueous polymeric emulsion within the tank while dipping the glove liner and protective member; removing the glove mold that carries the glove liner, the colored layer, and the protective member from the tank; and curing the aqueous polymeric emulsion on the glove mold above the glove liner, the colored layer, and the protective member in the thumb-crotch region to result in a glove having a textured outer layer defining a grip surface in the thumb-crotch region above the protective member that is adapted to assist with grip ability for a boundary layer of oil or grease on the grip surface. This embodiment or another embodiment may further include painting the colored layer onto the glove liner within the thumb-crotch region prior to connecting the protective member to the glove liner. This embodiment or another embodiment may further include curing the colored layer after having been painted within the thumb-crotch region, wherein the colored layer is liquid impermeable after curing. This embodiment or another embodiment may further include connecting the protective member after the colored layer has fully cured. This embodiment or another embodiment may further include wherein curing the aqueous polymeric emulsion on the glove liner above the protective member within the thumb-crotch region to result in the glove having the textured outer surface defining the grip surface above the protective member further comprises: forming a shape in the textured outer surface having a configuration that opens outward and is located above the protective member and above the colored layer. This embodiment or another embodiment may further include wherein forming a shape in the textured outer surface having a configuration that opens outward and is located above the protective member further comprises: forming an edge that defines a lateral ridge in the textured outer surface above the protective member, wherein the lateral ridge is aligned in direction that extends around a circumference of the first finger sleeve or the thumb sleeve on the glove. This embodiment or another embodiment may further include forming a valley in the textured outer surface between the lateral ridge and an adjacent lateral ridge, and above the protective member and the colored layer in the thumb-crotch region. This embodiment or another embodiment may further include forming a striation that extends across the valley between adjacent lateral ridges, and above the protective member and the colored layer in the in thumb-crotch region, wherein the striation extends in a generally longitudinal direction associated with the first finger sleeve or the thumb sleeve. This embodiment or another embodiment may further include The method of claim 6, wherein curing the aqueous polymeric emulsion on the glove liner is accomplished by washing and heating to vulcanization temperature the aqueous polymeric emulsion while connected to the glove liner. This embodiment or another embodiment may further include wherein heating and stirring an aqueous polymeric emulsion further comprising: heating the aqueous polymeric emulsion to a temperature in a range from 18° C. to 20° C. This embodiment or another embodiment may further include wherein the aqueous polymeric emulsion comprises latex, further comprising: circulating latex along a bottom of the tank past one or more heat exchangers; enabling the latex to rise past a whipping stirrer adapted to maintain the foam quality, and then across the surface of the latex in the tank at a speed similar to the speed of travel of the glove liner with the protective member as the glove liner and protective member are passed through the tank. This embodiment or another embodiment may further include wherein foaming the aqueous polymeric emulsion comprises: maintaining air content of the foam a range from 5% to 50% on a volume basis; and adding a surfactant to stabilize the foam. This embodiment or another embodiment may further include wherein the surfactant comprises a hydrophobic dodecanoic tail. This embodiment or another embodiment may further include adjusting the viscosity of the foam. This embodiment or another embodiment may further include wherein adjusting the viscosity of the foam comprises: driving an impeller at a first desired speed; and refining a size of an air bubble in the foam by driving the impeller at a second desired sped that is reduced from the first desired speed. This embodiment or another embodiment may further include reducing a modulus of elasticity of the cured aqueous polymeric emulsion that is adapted to increase flexibility of the glove. This embodiment or another embodiment may further include maintaining air content in a range from 5 to 15 volumetric percentile of foams that have closed air bubbles. This embodiment or another embodiment may further include wherein the textured outer surface is formed by steps comprising: providing air bubbles adjacent to the outers surface that open outward when cured thereby providing increased roughness. This embodiment or another embodiment may further include wherein dipping the glove liner and protective member into the tank further comprises: controlling a speed of a dip line assembly, wherein the speed of the dip line assembly moves the glove mold in a range from 1 ft/min to 20 ft/min. This embodiment or another embodiment may further include wherein curing the aqueous polymeric emulsion on the glove liner further comprises: controlling an oven having a temperature in a range from 95° C. to 155° C.; and moving the glove mold carrying the liner, protective member, and aqueous polymeric emulsion through the oven.
A sample embodiment of the disclosure is set forth in the following description, is shown in the drawings and is particularly and distinctly pointed out and set forth in the appended claims. The accompanying drawings, which are fully incorporated herein and constitute a part of the specification, illustrate various examples, methods, and other example embodiments of various aspects of the disclosure. It will be appreciated that the illustrated element boundaries (e.g., boxes, groups of boxes, or other shapes) in the figures represent one example of the boundaries. One of ordinary skill in the art will appreciate that in some examples one element may be designed as multiple elements or that multiple elements may be designed as one element. In some examples, an element shown as an internal component of another element may be implemented as an external component and vice versa. Furthermore, elements may not be drawn to scale.
Similar numbers refer to similar parts throughout the drawings.
Initially, it is noted that the present disclosure is a continuation-in-part application of U.S. patent application Ser. No. 15/384,499, (the ′499 Disclosure) filed on Dec. 20, 2016, the entirety of which is incorporated herein as if fully rewritten. Additionally, it is noted that the present disclosure is also a continuation-in-part application of U.S. Ser. No. 15/185,097 (the ′097 Disclosure), filed Jun. 17, 2016, the entirety of which is incorporated herein as if fully rewritten. The present disclosure touches upon additional subject matter to the aforementioned ′499 Disclosure and the ′097 Disclosure, namely, liquid proof heat resistant gloves that include integrally formed protective members in, on, along, or extending over the thumb-crotch or thumb webbing region or other locations of the glove that are constructed to easily identify glove failure through differing colors. Since this is a continuation-in-part application of the ′499 Disclosure and the ′097 Disclosure, some similar structural nomenclature is used herein when referencing some portions of the glove. However, there may be some instances where structural nomenclature differs between similar elements and there may be other instances where nomenclature is similar between distinct elements relative to this application and the ′499 Disclosure and the ′097 Disclosure.
A protective member for protecting the thumb-crotch region of a liquid proof and heat resistant glove is shown generally throughout
The first portion 12 defines an arcuate cutout region 44 by an arcuately concave edge 46 interrupting first edge 18. In one particular embodiment, the arcuately extending concave edge 46 intersects the imaginary longitudinal axis 38. However, in other embodiments, edge 46 may be located at other portions of first edge 18 to define a cutout region 44. Moreover, in another embodiment, the base, or lowermost portion of concave edge 46, which is closest to transverse axis 40, may intersect longitudinal axis 38.
First portion 12 may further define a first slit 48 and a second slit 50. The first slit 48 extends towards the longitudinal axis 38 from the third edge 22. The first slit 48 interrupts third edge 22 and is arranged generally parallel with transverse axis 40 when the first portion 12 is laid flat. In one embodiment, first slit 48 may be offset from transverse axis 40. In yet another embodiment, the first slit 48 is offset towards the first edge 18 relative to transverse axis 40. The second slit 50 extends towards the longitudinal axis 38 from the fourth edge 24 and interrupts the same. The second slit 50 is offset generally parallel to the transverse axis 40 and in one embodiment, the first slit 48 and the second slit 50 are coplanar and offset towards the first edge 18 from the transverse axis 40. In some implementations, the first portion 12 may be entirely continuous and uninterrupted for all regions of the first portion 12 offset towards the second edge 20 from the transverse axis 40.
The length of the first slit 48 and the second slit 50 is oriented generally parallel with the transverse axis 40. In one implementation, the length of the first slit 48 is equal to the length of the second slit 50. In this case, the length of the first slit 48 and the second slit 50 may be in a range from about 0.5 inches to about three inches. Moreover, in other implementations, the length of the first slit 48 is close to about 1.5 inches.
The first slit 48 is bound by a first slit first edge 52 and a first slit second edge 54. The first slit first and second edges 52, 54 are spaced apart and extend generally parallel to each other and are oriented generally parallel to the transverse axis 40 when protective member 10 is laid fat. First edge 52 meets edge 22 at a corner 56 that is positioned outwardly relative to the inner terminal end of first slit 48. Similarly, second edge 54 meets edge 22 outwardly from the terminal end of first slit 48 relative to the longitudinal axis 38 at a corner 58.
Second slit 50 is bound by a second slit first edge 60 and second slit second edge 62. The second slit first and second edges 60, 62 extend generally parallel and offset from each other and are also parallel to transverse axis 40. First edge 60 extends transversely from a corner 64 towards the inner terminal end of second slit 50. Corner 64 is located where first edge 60 meets fourth edge 24 of the first portion 12. Second edge 62 extends transversely from a corner 67 inwardly towards an inner terminal end of second slit 50. Corner 67 is located where second edge 62 meets edge 24 of the first portion 12.
Reference is now made to the second portion 14 and the third portion 16 inasmuch as they are similarly shaped. Similar reference numerals are utilized for brevity. Each of the second portion 14 and third portion 16 are shaped generally similar to that of an isosceles triangle when laid flat. A first edge 66 is formed generally at a right angle to edge 68 defining a rounded corner 70. An arcuate edge 72 represents a hypotenuse between edge 66 and edge 68 relative to the rounded corner 70. Edge 66 and edge 68 are generally the same length. The arcuate edge 72 meets edge 66 at a corner 74. The arcuate edge 72 meets edge 68 at corner 76. The collective edges of second portion 14 and third portion 16 bound a first surface 78 which faces an opposite second surface 80. First surface 78 of second portion 14 and third portion 16 faces the same direction as top surface 34 of first portion 12. Second surface 80 of second portion 14 and third portion 16 faces the same direction as the bottom surface 36 of first portion 12. Generally, the second portion 14 may be considered as a first quarter-round shaped member having an arcuate edge, and two perpendicular edges meeting at a point, wherein the first quarter-round shaped member is adapted to be disposed within one slit formed by the first portion 12. Similarly, the third portion 16 may be considered a second quarter-round shaped member having an arcuate edge, and two perpendicular edges meeting at a point, wherein the second quarter-round shaped member is adapted to be disposed within an opposing slit on the first portion 12.
The third portion 16 is positioned in a similar manner such that it occupies space between second slit first edge 60 and second slit second edge 62. Rounded corner 70 of third portion 16 is positioned proximate the innermost terminal end of second slit 50. Edge 66 is closely aligned with edge 60 and edge 68 is closely aligned with edge 62. Moreover, corner 64 is aligned with corner 74 of third portion 16, and corner 67 is generally proximate corner 76 of third portion 16. Arcuate edge 72 is flexed upwardly to define apex 82 which is at a height similar to that of apex 82 on second portion 14. Inasmuch as the inner terminal ends of the first slit 48 and the second slit 50 are spaced apart, a region 84 is defined on the first portion 12 between second portion 14 and third portion 16. First portion 12 may be folded such that the region 84 is positioned above edge 18 and edge 20 on first portion 12. As will be described in greater detail below, region 84 will extend over the thumb-crotch region of a person donning the glove such that the region of first portion 12 offset to one side of region 84 extends over the palmar area of a hand and the opposite region of the first portion 12 and opposite region 84 extends over the dorsal side of a hand.
The protective member 10, 10A of the present disclosure can be formed from a variety of materials configured to withstand a sharp object passing over top surface 34 thereof. Protective member 10 or 10A may be formed from a hardened plastic or polymer, however other materials may be utilized. Two alternative materials that may be used to form protective member 10 or 10A are an aramid or a para-aramid synthetic fiber. One exemplary para-aramid material is sold under the name Kevlar® manufactured by the E. I. du Pont de Nemours and Company of Wilmington, Del. A further contemplated alternate material that may be used to form the protective member 10, 10A is chainmail. Protective member 10, 10A is adapted to withstand melting, ignition, and combustion in air at standard reference conditions, at temperatures of at least 500 degrees Fahrenheit, and perhaps able to withstand higher temperatures up to 1000 degrees Fahrenheit.
In accordance with the present disclosure, the protective member 10, 10A is configured to be formed within a glove, as will be described in greater detail below, in order to protect the user who has donned the glove from a hot, sharp, elongated member such as a blade passing over the thumb-crotch region of the glove (see
The liner 90 defines a region to be protected by the protective member 10, 10A and is shown generally by stippling/shading and identified generally at 102. The region to be protected (i.e., protected region 102) includes the thumb-crotch 104. Region to be protected 102 includes a forefinger boundary edge 105 that extends along a portion of the forefinger sleeve 94 and covers the knuckle joint where the forefinger proximal phalange bone meets the metacarpal bone of the forefinger of the wearer's hand. The forefinger boundary edge 105 extends approximately 180° around the longitudinal axis associated with the forefinger. Additionally, the forefinger boundary edge 105 is disposed between the knuckle joint and the forefinger intermediate phalange bone. Stated otherwise, forefinger boundary edge 105 is positioned proximally relative to the distal tip of the forefinger sleeve 94.
The region to be protected 102 further includes a thumb boundary edge 107 that extends along a portion of the thumb sleeve 92 and covers a portion of the knuckle joint where the proximal thumb phalange bone meets the metacarpal bone of the thumb. The thumb boundary edge 107 extends approximately 180° around the longitudinal axis associated with the thumb. Additionally, the thumb boundary edge 107 is disposed between the knuckle joint and the thumb distal phalange bone. Stated otherwise, thumb boundary edge 107 is positioned proximally relative to the distal tip of the thumb sleeve 92.
The region to be protected 102 extends around and over the thumb-crotch 104 such that the region to be protected 102 partially covers a palmar portion and partially covers a dorsal portion of the wearer's hand. With respect to the palmar side, the region 102 to be protected includes a palmar first edge boundary 106, a palmar second edge boundary 108, and a palmar third edge boundary 110.
For the following discussion, some anatomical terms are utilized to identify locations of components of the present disclosure relative to anatomical positions. Components of the present disclosure that are closer to the radius bone of the forearm are referred to herein as “radial” or “radially” relative to other components. Components of the present disclosure that are closer to the ulna bone of the forearm are referred to herein as “ulnar” or “ulnarly” relative to other components.
The palmar first edge boundary 106 extends ulnarly from an angled orientation with the forefinger boundary edge 105. The ulnar-directed extension of the palmar first edge boundary 106 is positioned above the third metacarpal bone (related to the middle finger). The palmar first edge boundary 106 crosses over the third metacarpal bone at an angle between 15° and 75°. In one particular implementation, the palmar first edge boundary 106 crosses over the third metacarpal bone at an angle of about 60° relative to horizontal. The ulnar-directed extension of the palmar first edge boundary 106 terminates proximately above the fourth metacarpal bone (related to the ring finger).
The palmar second edge boundary 108 extends radially from the terminal end of the palmar first edge boundary 106. In one implementation, the palmar second edge boundary 108 meets the palmar first edge boundary 106 at a rounded approximate 90° angle. The radial-directed extension of the palmar second edge boundary 108 is positioned above the third metacarpal bone proximal from the palmar first edge boundary 106. The radial-directed extension of the palmar second edge boundary 108 terminates proximately above the proximal base of the first metacarpal bone (related to the thumb).
The palmar third edge boundary 110 meets the terminal end of the palmar second edge boundary 108 at a rounded approximate 90° angle. The palmar third edge boundary 110 extends distally above the longitudinal axis of the first metacarpal bone. The palmar third edge boundary 110 meets thumb boundary edge 107 above the proximal thumb phalange and proximal relative to the distal thumb phalange.
The aforementioned region to be protected 102 has been described by the respective edge boundaries with respect to the palmar side of the hand, however the region to be protected 102 is to be understood as being similarly shaped on the dorsal side of the hand, and the generally mirrored shape on the dorsal side is not repeated herein for brevity.
As depicted in
In one implementation, the protective member 10 is connected with the liner in any known chemical manner, mechanical manner, or non-chemical and non-mechanical manner. For example, the protective member 10 may be chemically adhered or bonded with the liner 90, or the protective member 10 may be mechanically fastened with the liner 90.
With the protective member 10 attached to the liner 90, the third edge 22 lies directly above the palmar first edge boundary 106 such that the third edge 22 extends ulnarly above the third metacarpal bone at an angle between 15° and 75°. The corner 28 is positioned closely adjacent to directly above the center of the third metacarpal bone. The second edge 20 extends over the second metacarpal bone aligned with palmar second edge boundary 108. The fourth edge 24 is aligned with palmar third edge boundary 110 such that the fourth edge 24 extends distally above the longitudinal axis of the first metacarpal bone. The edge 72 on the third portion 16 is aligned with the thumb boundary edge 107 above the proximal thumb phalange and proximal relative to the distal thumb phalange and extends 180° around the ulnar-facing side of the longitudinal axis of the thumb sleeve 92. On the other side of the protective member 10, the edge 72 of the second portion 14 is aligned with forefinger boundary edge 105 to extend 180° around the radius-facing side of the forefinger. This alignment positions the protecting region 84 directly above and over the thumb-crotch 104 of liner 90.
As depicted in
With respect to the dorsal side, the arcuate edge 46 defining cutout region 44 assists with the flexibility and bending of protective member 10 during its use. As indicated previously in the parent references (from which this is a CIP), the liquid proof and heat resistant glove carrying protective member 10 is preferably used in a delicatessen for removing rotisserie chickens from a rotisserie spit. A deli worker dons these gloves prior to removing the chickens (or any type of poultry) from the spit. To remove a chicken from a spit, a worker wearing the liquid proof heat resistant gloves removes the spit from the rotating oven. The worker then grasps the spit at one end. Ordinarily, a right handed person grasps the right end with his right hand and grasps adjacent the right end of the spit with his left hand in the glove. This spit is then positioned above the thumb-crotch region of the left-hand glove. The user then pulls the spit using his right hand in a motion similar to drawing a sword, all while continuing to grasp the spit with his left hand. As the spit travels over the left-hand thumb-crotch region through the user's grasped hand, the chickens are released from the spit and fall into a desired container. The protective member 10 protects the user's hand during this motion.
With continued reference to
As depicted in
A thumb-crotch region is defined between the first longitudinal axis 146 and the second longitudinal axis 148. Additionally, the thumb-crotch region extends around from the palmar side to the dorsal side of the glove 114 between the index finger sleeve 94 and the thumb sleeve 92. As discussed previously, the protective member 10 is located in the thumb-crotch region disposed between the outer layer 112 and the inner liner 90. The protective member 10, in some embodiments, may be a different color than the outer layer 112. The different color of the protective member 10 is adapted to visually alert operator 123 in the event of a glove failure occurrence in the outer layer 112 in the thumb-crotch region located between the first axis 146 and the second axis 148. Furthermore, the major surface area of surfaces 34, 36 on protective member 10 occupy all or at least most of the thumb-crotch region.
In one exemplary embodiment, the outer layer 112, which may also be referred to herein as outer skin 112, has a color that is the darkest relative to the other colors provided on the inner liner 90 and the protective member 10. Thus, for example, if the outer layer 112 is a first color, the protective member 10 is a second color, and the inner liner 90 is a third color, then the first color is the darkest, such as a dark brown, black, dark green, dark blue (i.e., navy), or dark red, or the like. The second color of the protective member 10 is different from the first color and may have other color appearance parameters. In one example, the second color has a different lightness than the first color of the outer surface of the outer layer 112. In a more specific example, the lightness of the second color is lighter than the first color. In another example, the chrominance of the second color of member 10 is farther away from a dark chrominance of the outer surface of the outer layer 112 (i.e., the first color). Stated otherwise, a chrominance of the second color is farther away from dark chrominance than the first color. The hue of the first color may be darker than the hue of the lighter second color. In another particular example, the protective member 10, which is a second color, may be less saturated when viewed from the outside so as to exhibit a higher brightness and colorfulness in the light than the outer layer 112, which is the first color. In this example, when the colorfulness of the second color effectuates a higher brightness, it may be technically possible for the first color to be the same (color) even though it effectuates and exhibits a lower brightness. This may be accomplished if the second color and the first color are similar, but since the outer layer 112 is made from a different material than the protective member 10, the manner in which the light hits and reflects from the differing materials that form the outer layer 112 and protective member 10, causes the light to exhibit different reflective properties so as to observably change the color, as perceived by the user. Additionally, the protective member 10 may include reflective properties to reflect light against a dark absorptive backdrop of the outer layer 112. Stated otherwise, the outer layer 112 may be formed from a material that absorbs more light than the protective member 10. The protective member 10 may include a material that reflects more light than the outer surface of outer layer 112. Additionally, the third color associated with the inner liner 90 may be different than the first and second colors, or it may be the same color as the second color. Typically, the inner liner is white inasmuch as it is usually made from drilled cotton.
In each scenario, the purpose of the color of the protective member being lighter than the color of the outer layer 112 is to enable the user to readily and easily identify a portion of the glove failure, such as the rip, tear, slice, or other rupture/failure in the outer layer. This may be important because if the outer layer 112 of the glove fails, then the outer layer 112 may no longer be liquid proof. Thus, if the there is a glove failure and a worker submerges their hand into a vat of hot cooking grease at temperature upwards of 700° F., then there is a significant likelihood that serious injury can occur to the wearer's hand (see
In one non-limiting exemplary embodiment, the lighter second color of the protective member may be critical inasmuch as it is easier to identify a lighter color against a dark backdrop rather than a darker color against a light backdrop. This is especially useful in a commercial food preparation setting where the gloves are often dirty, covered in grease, or other seasonings of the rotisserie chickens. Thus, it may not be advantageous to have a light colored glove with a dark protective member because gloves will be dirty and have various seasonings and grease thereon. A tear in a light colored glove would not be as easily identified if the underlying protective member was darker because it would simply look like cooking remnants, such as seasonings, flavoring, or chicken parts. Whereas if the second color is lighter than the outer skin (i.e., the third color), then the bright or light color of the protective member showing through the glove rupture would be readily determined and easily identifiable by the wearer. Essentially, the glove establishes a color splash effect when the glove fails. A color splash effect is when there is a substantial dark background (usually black or heavy grey tones), and a single isolated brighter color that is prominent and surrounded by the dark background. In the realm of photography, a color splash effect is accomplished by isolating one single color and converting the rest of the photograph to black and white. The lighter colored layers beneath the outer surface create the same effect when seen through the glove failure (i.e., cut, slice, tear, rip, or rupture, etc.).
In one exemplary embodiment, the second color associated with the protective member 10 is green, such as a light green or neon green. In this instance, the color associated with the outer layer 112 may be a dark color, such as black. The green of the underlying protective member is easily identifiable via visual human inspection against the dark outer surface of the glove in the event there is a rupture.
To remove chickens 128 from the spit 126, the operator 123 will move his left hand wearing the left-hand glove 114L near the right end of spit 126. Adjacent the right hand wearing right-hand glove 114R, the operator 123 will place the spit 126 in the thumb-crotch region of his left glove 114L. The operator 123 wraps his fingers around the spit 126 so as to position spit over the thumb-crotch region of the glove between the index finger sleeve and the thumb sleeve of glove 114L. The material forming the protective member is more resistant to failure than the outer layer 112 when a sharpened edge of spit 126 is contacted with the outer layer or layer 112 and moved over the protective member 10. In another embodiment, the material forming protective member 10 may be more rigid than the outer layer 112.
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Because the gloves 114 have multiple purposes or multiple modes inasmuch as they can be used to remove chickens from a rotisserie spit 126 and as well to remove items from the bottom of a hot grease 134 deep-fryer 132, it is imperative that any rupture in the outer surface layer 112 be readily identified quickly because if the rupture occurs, then the outer surface layer 112 is no longer liquid impermeable. The hot liquid 134, such as hot grease, could enter into the glove when the wearer 123 reaches down into the deep-fryer 132 which would result in significant injury.
As indicated previously, glove 114 is designed for applications where protection is needed from one or more of hot, cold or caustic substances (or heat therefrom) that are able to penetrate into the interior of a conventional glove. It should be understood that the term “temperature resistant” or “heat resistant” used herein means resistance to both heat and cold, and the term “fluid impermeable” or “liquid proof” means impermeability or resistance to both liquids and gases. It will further be understood that glove 114 will also protect the wearer's hand from exposure to hot, cold and caustic solid materials but solid materials are less likely to be of such a nature that they are able to penetrate into the interior cavity of the glove through the seams. However, the glove 114 of the present disclosure will also substantially prevent particulate-type solid materials that are extremely hot, extremely cold or extremely caustic from penetrating into the interior cavity through the glove's seams. Consequently, the term “fluid” should also be considered, for the purposes of this description, to refer to particulate-type solid materials and “fluid impermeability” or “liquid proof” to refer to impermeability of the glove with reference to particulate-type solid materials.
In accordance with another aspect of the present disclosure, the outer layer 112 of the glove that defines the outer surface is formed from a material that is liquid impermeable and withstands thermal deformation (i.e., melting) at a temperature of at least 300° F. In one example, the outer layer 112 is a polymer material that has a insulative value sufficiently high to protect the wearer of the glove from the hot grease contacting the outer surface. Thus, in addition to withstanding thermal deformation (i.e., melting), an insulation value (R-value) should be high enough to protect the wearer from injury at a temperature of at least 300° F. for about at least 15 to 30 seconds.
Insulative R-Value is typically measure in R-Value per inch. For example, polystyrene board has insulative R-values in a range from about 3.8 to about 5.0 R-Value/inch. In accordance with the present disclosure, the R-value of the material forming the outer skin need to be higher than traditional insulation because the outer skin is relative thin. Thus, in another exemplary embodiment, the insulative value for outer skin may be in range from about 10 R-value/inch to about 20 R-value/inch to accomplish the goal of protecting the wearer from injury at a temperature of at least 700° F. for about at least 15 to 30 seconds. In another example, the insulative value for outer skin may be in range from about 10 R-value/inch to about 200 R-value/inch to accomplish the goal of protecting the wearer from injury at a temperature of at least 700° F. for about at least 15 to 30 seconds. In another example, the insulative value for outer skin may be greater than about 10 R-value/inch or 15 R-value/inch or 20 R-value/inch or even 100 R-value/inch or even about 200 R-value/inch to accomplish the goal of protecting the wearer from injury at a temperature of at least 700° F. for about at least 15 to 30 seconds. In one embodiment, the outer layer is protectively insulative to a temperature of at least at least 700° F. for a period of at least one second.
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With continued reference to
Given that at least one mode of the glove 114 relates to use with hot grease, or hot cooking liquid, the outer layer 112 of the glove 114 may be defined with a textured outer surface to allow grease and/or water to be present on the outer surface of the glove but still permit sufficient grip for the user of the glove 114. In accordance with another aspect of the present disclosure, the outer layer 112 may be textured (i.e., not smooth) across all of the finger sleeves, the thumb sleeve, the palm region, and, optionally, the dorsal region. In another embodiment, the outer layer 112 may be textured in only the thumb-crotch region, and not other regions of the glove 114.
In one exemplary embodiment, the outer surface 124 of outer layer 112 may comprise a plurality of patterned or randomized alternating ridges and valleys. The ridges and valleys are oriented generally horizontally relative to a longitudinal axis of glove 114 or longitudinal axis 148 of one of the finger sleeves, such as sleeve 94. Additionally, the outer surface 124 of outer layer 112 may include a plurality of striations. Striations are generally aligned with longitudinal axis of each respective longitudinal axis of the finger sleeves. The striations may extend across each individual valley generally from one ridge to the adjacent ridge. The ridges, valleys, and striations provides improved abrasion resistance to glove 114. The outer layer defining ridges, valleys, and striations defines a very rough outer surface of glove 114. The rough outer surface is advantageous in the meat processing industry to allow grease and water to drain through various channels defined by the valleys and striations so that glove 114 is less slippery, especially when working with pork and chicken that tend to output more grease during the cooking process. In one embodiment, creating the texturing of the outer layer is formed as glove 114 is dipped in liquefied and foamed outer layer 112 material.
In an exemplary embodiment, for the outer layer 112 a polymer, that can include latex, is used as the aqueous polymeric emulsion that has been heated and stirred in step 2202 the temperature is in the region of 18-20° C. This may be achieved by using high displacement impellers to circulate the latex along the bottom of a tank past heat exchangers made from stainless steel a dimple plate, which is shown at 2202A. The polymer is then allowed to rise past a battery or array of high speed whipping stirrers which assist in maintaining foam quality, and then across the surface of the liquefied polymer in the tank at a speed similar to the speed of travel of the inner liner 90 with the colored layer 202 and protective member 10 as they were passed through the tank, which is shown generally at 2202B.
When the latex or other such polymer is foamed at step 2204, the air content is typically in the 5 to 50% range on a volume basis. The polymeric emulsion may contain additional surfactants such as Tween® 20 or Polysorbate 20 to stabilize the foam, which is shown generally at 2204A (Note: The “20” in Tween® 20 or Polysorbate 20 is the commercial name, the “20” in this instance is not a reference element and is not to be confused with edge 20). Tween® 20, or Polysorbate 20, is a useful choice for biochemical applications. Exemplary surfactants can have a hydrophobic dodecanoic tail that is attached to twenty repeat units of polyethylene glycol and distributed across four different chains. As a non-ionic surfactant, Polysorbate 20 has a molecular weight of 1,225 daltons, assuming twenty ethylene oxide units, one sorbitol, and one lauric acid as the primary fatty acid. The ethylene oxide subunits are responsible for the hydrophilic nature of the surfactant, while the hydrocarbon chains provide the hydrophobic environment. Ethylene oxide polymers attach to the backbone ring, which is formed by sorbitol. It is also miscible in water (100 mg/ml) and yields a clear, yellow solution. It is practically insoluble in liquid paraffin and fixed oils, and also miscible in alcohol, dioxane, and ethyl acetate.
Once the polymer or latex that is foamed with the desired air content that will resultantly form the outer layer 112, the viscosity of the polymer or latex may be adjusted, which is shown generally at 2204B. Refinement of the foam occurs by using the desired whipping impeller stirrer driven at a first desired speed, which is shown generally at 2204C. Then, the air bubble size is refined through use of a different impeller run at a different second desired speed, reduced from the first desired speed, which is shown generally at 2204D. The air cells reduce the modulus of elasticity of the polymeric coating increasing the flexibility of the glove 114. In an exemplary embodiment when the air content is in the range of 5-15 volumetric percentile foams that have closed air bubbles and the polymeric latex coating forming outer layer is liquid impervious. This coating has a spongy soft feel to the human touch but still provides a roughness to improve grip in greasy environments.
Some of the air bubbles adjacent to the external surface open out (i.e., burst or “pop” during curing) providing increased roughness and have the ability to remove boundary layer of oil, grease, and water from a gripping surface or outer surface 124 of outer layer 112, thereby providing increased grip. The resultant configuration caused from the cured air bubbles on the external surface of outer surface 124 of outer layer 112 enable a shape that opens outward and are located above the protective member 10. The resultant configuration caused from the cured air bubbles are defined by an edge that is shaped and provides a structure similar to the lateral ridges detailed in other embodiments. The edge of the resultant configuration caused from the cured air bubbles enables the edges to bound a depression or valley that is similar to the valley region detailed in other embodiments. The resultant configuration caused from the cured air bubbles may also have other artifacts of cured formed that result in striations that span across the valleys similar to other embodiments. Creating such a structural configuration in the outer surface 124 of outer layer 112 of glove 114 caused from the cured air bubbles may be accomplished by controlling the amount of foaming (such as volumetric air content) and the parameters of the curing process. Conversely, in another embodiment, when the volumetric air content is in the range of 15-50%, the air bubbles are adjacent to each other and during a vulcanization heating step and expand to a point where they cells touch each other creating an open celled foam.
The dipping and curing may be controlled so that the outer surface 124 of layer 112 includes a surface film of substantially solid latex, apart from perforations where the bubbles were located. In general, this control is achieved by setting appropriate dip line speeds. Depending on the desired implementation, an exemplary embodiment provides for machines that move the dip line in the range of 4-14 ft/min, and oven temperatures in the range 95-155° C. in order to cure the outer surface 124 of outer layer 112. These rates and temperatures are adjusted to optimize the foam parameters for the desired implementation.
In exemplary embodiments, the desired properties of the outer surface 124 of layer 112 of the glove 114 can be tailored to the desired use depending on the size of the openings in the air cell and by optionally applying an aqueous fluorochemical dispersion coating. The dispersion generally comprises, consists of, or consists esstentially of fluorochemical composition dispersed in an aqueous solvent medium to form a coating that is typically 0.5 to 2 micron in thickness. The aqueous fluorochemical dispersion coating may also be applied to portions of the that is not covered by the polymeric latex coating. The fluorochemical coating may be applied to the gelled latex prior to vulcanization and the coating cures together with the latex polymer. The fluorochemical coating may be equally well applied to unfoamed coating to prevent oil or water penetration through occasional imperfections in the latex coating of the glove 114.
Additional treatments may occur with the glove, including rinsing the glove with solvents such as xylene, toluene, trimethylbenzene (pseudocumene), phenol, thiophene, pyridine and non-aromatic hydrocarbons. This may occur in order to allow the glove to have additional texture or ridges depending on the desired implementation.
While various inventive embodiments have been described and illustrated herein, those of ordinary skill in the art will readily envision a variety of other means and/or structures for performing the function and/or obtaining the results and/or one or more of the advantages described herein, and each of such variations and/or modifications is deemed to be within the scope of the inventive embodiments described herein. More generally, those skilled in the art will readily appreciate that all parameters, dimensions, materials, and configurations described herein are meant to be exemplary and that the actual parameters, dimensions, materials, and/or configurations will depend upon the specific application or applications for which the inventive teachings is/are used. Those skilled in the art will recognize, or be able to ascertain using no more than routine experimentation, many equivalents to the specific inventive embodiments described herein. It is, therefore, to be understood that the foregoing embodiments are presented by way of example only and that, within the scope of the appended claims and equivalents thereto, inventive embodiments may be practiced otherwise than as specifically described and claimed. Inventive embodiments of the present disclosure are directed to each individual feature, system, article, material, kit, and/or method described herein. In addition, any combination of two or more such features, systems, articles, materials, kits, and/or methods, if such features, systems, articles, materials, kits, and/or methods are not mutually inconsistent, is included within the inventive scope of the present disclosure.
Also, various inventive concepts may be embodied as one or more methods, of which an example has been provided. The acts performed as part of the method may be ordered in any suitable way. Accordingly, embodiments may be constructed in which acts are performed in an order different than illustrated, which may include performing some acts simultaneously, even though shown as sequential acts in illustrative embodiments.
All definitions, as defined and used herein, should be understood to control over dictionary definitions, definitions in documents incorporated by reference, and/or ordinary meanings of the defined terms.
The indefinite articles “a” and “an,” as used herein in the specification and in the claims, unless clearly indicated to the contrary, should be understood to mean “at least one.” The phrase “and/or,” as used herein in the specification and in the claims (if at all), should be understood to mean “either or both” of the elements so conjoined, i.e., elements that are conjunctively present in some cases and disjunctively present in other cases. Multiple elements listed with “and/or” should be construed in the same fashion, i.e., “one or more” of the elements so conjoined. Other elements may optionally be present other than the elements specifically identified by the “and/or” clause, whether related or unrelated to those elements specifically identified. Thus, as a non-limiting example, a reference to “A and/or B”, when used in conjunction with open-ended language such as “comprising” can refer, in one embodiment, to A only (optionally including elements other than B); in another embodiment, to B only (optionally including elements other than A); in yet another embodiment, to both A and B (optionally including other elements); etc. As used herein in the specification and in the claims, “or” should be understood to have the same meaning as “and/or” as defined above. For example, when separating items in a list, “or” or “and/or” shall be interpreted as being inclusive, i.e., the inclusion of at least one, but also including more than one, of a number or list of elements, and, optionally, additional unlisted items. Only terms clearly indicated to the contrary, such as “only one of” or “exactly one of,” or, when used in the claims, “consisting of,” will refer to the inclusion of exactly one element of a number or list of elements. In general, the term “or” as used herein shall only be interpreted as indicating exclusive alternatives (i.e. “one or the other but not both”) when preceded by terms of exclusivity, such as “either,” “one of,” “only one of,” or “exactly one of.” “Consisting essentially of,” when used in the claims, shall have its ordinary meaning as used in the field of patent law.
As used herein in the specification and in the claims, the phrase “at least one,” in reference to a list of one or more elements, should be understood to mean at least one element selected from any one or more of the elements in the list of elements, but not necessarily including at least one of each and every element specifically listed within the list of elements and not excluding any combinations of elements in the list of elements. This definition also allows that elements may optionally be present other than the elements specifically identified within the list of elements to which the phrase “at least one” refers, whether related or unrelated to those elements specifically identified. Thus, as a non-limiting example, “at least one of A and B” (or, equivalently, “at least one of A or B,” or, equivalently “at least one of A and/or B”) can refer, in one embodiment, to at least one, optionally including more than one, A, with no B present (and optionally including elements other than B); in another embodiment, to at least one, optionally including more than one, B, with no A present (and optionally including elements other than A); in yet another embodiment, to at least one, optionally including more than one, A, and at least one, optionally including more than one, B (and optionally including other elements); etc.
In the claims, as well as in the specification above, all transitional phrases such as “comprising,” “including,” “carrying,” “having,” “containing,” “involving,” “holding,” “composed of,” and the like are to be understood to be open-ended, i.e., to mean including but not limited to. Only the transitional phrases “consisting of” and “consisting essentially of” shall be closed or semi-closed transitional phrases, respectively, as set forth in the United States Patent Office Manual of Patent Examining Procedures.
An embodiment is an implementation or example of the present disclosure. Reference in the specification to “an embodiment,” “one embodiment,” “some embodiments,” “one particular embodiment,” or “other embodiments,” or the like, means that a particular feature, structure, or characteristic described in connection with the embodiments is included in at least some embodiments, but not necessarily all embodiments, of the invention. The various appearances “an embodiment,” “one embodiment,” “some embodiments,” “one particular embodiment,” or “other embodiments,” or the like, are not necessarily all referring to the same embodiments.
If this specification states a component, feature, structure, or characteristic “may”, “might”, or “could” be included, that particular component, feature, structure, or characteristic is not required to be included. If the specification or claim refers to “a” or “an” element, that does not mean there is only one of the element. If the specification or claims refer to “an additional” element, that does not preclude there being more than one of the additional element.
Additionally, the method of preforming the present disclosure may occur in a sequence different than those described herein. Accordingly, no sequence of the method should be read as a limitation unless explicitly stated. It is recognizable that performing some of the steps of the method in an different order could achieve a similar result.
In the foregoing description, certain terms have been used for brevity, clearness, and understanding. No unnecessary limitations are to be implied therefrom beyond the requirement of the prior art because such terms are used for descriptive purposes and are intended to be broadly construed.
Moreover, the description and illustration of the preferred embodiment of the disclosure are an example and the disclosure is not limited to the exact details shown or described.
This application is a continuation-in-part of U.S. patent application Ser. No. 17/874,764, filed on Jul. 27, 2022, which is continuation of U.S. patent application Ser. No. 16/723,278 filed Dec. 20, 2019, which is a divisional of U.S. patent application Ser. No. 15/843,426 filed on Dec. 15, 2017, now U.S. Pat. No. 10,980,295, which is a continuation-in-part of U.S. patent application Ser. No. 15/384,499, filed on Dec. 20, 2016, which is a continuation-in-part application of U.S. patent application Ser. No. 14/624,047, filed on Feb. 17, 2015, now U.S. Pat. No. 9,888,733, which is a continuation-in-part application of U.S. patent application Ser. No. 13/947,423, filed on Jul. 22, 2013, the entirety of which are incorporated herein as if fully rewritten.
Number | Date | Country | |
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62181967 | Jun 2015 | US |
Number | Date | Country | |
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Parent | 15843426 | Dec 2017 | US |
Child | 16723278 | US |
Number | Date | Country | |
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Parent | 16723278 | Dec 2019 | US |
Child | 17874762 | US | |
Parent | 16135266 | Sep 2018 | US |
Child | 17533968 | US | |
Parent | 16723278 | Dec 2019 | US |
Child | 15185097 | US |
Number | Date | Country | |
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Parent | 17874762 | Jul 2022 | US |
Child | 17874894 | US | |
Parent | 15384499 | Dec 2016 | US |
Child | 15843426 | US | |
Parent | 14624047 | Feb 2015 | US |
Child | 15384499 | US | |
Parent | 13947423 | Jul 2013 | US |
Child | 14624047 | US | |
Parent | 17695509 | Mar 2022 | US |
Child | 17874762 | US | |
Parent | 17533968 | Nov 2021 | US |
Child | 17695509 | US | |
Parent | 15185097 | Jun 2016 | US |
Child | 16135266 | US | |
Parent | 17695509 | Mar 2022 | US |
Child | 16723278 | US |