The present invention relates generally to hand held personal care appliances and more particularly to personal care appliances such as hair care appliances including hair dryers, curling irons, hair straighteners, clippers, trimmers and the like, and to facial or body hair care appliances such as shavers, having liquid delivery systems for delivering a treatment liquid to a subject's hair or skin.
Various hair and/or skin treatment products are available for use in treating one's hair or skin. For example, in the arena of hair care products a wide variety of conditioners and other hair treatment products are available for improving shine, volume, moisture content, manageability and/or other characteristics of hair. Some hair care appliances such as hair dryers, straighteners, curling irons and the like are even configured to deliver a hair treatment product, such as water, conditioner or other product to one's hair during use.
As an example, in one known configuration a hair dryer uses a pump to spray a fine mist of water droplets (or other hair treatment liquid) onto a subject's hair while the hair is being dried. The pumping system includes an internal motor that drives a reciprocating piston in a cylinder to alternately suck water from an attached container into an passage and force water and air from the passage out a nozzle positioned just beneath the air stream outlet of the hair dryer. The nozzle and air stream outlet are positioned and arranged so that a fine mist of droplets exits the nozzle in a generally conical spray pattern extending up and away from the bottom of the air stream outlet.
The spray pattern generated by this prior known hair dryer is not conducive to applying an even coating of hair treatment liquid to the subject's hair. In particular, the conical spray pattern does not lend itself to providing a relatively even distribution of the spray droplets from the bottom to the top of the stream of air exiting from the hair dryer. For example, where the hair dryer is waved side-to-side in the customary manner when blow drying, some hair would be very briefly wetted by the conical outer regions of the spray pattern, while other parts of the hair would be wetted substantially more by the central portion of the spray pattern. The ability to apply an even coating of the hair treatment liquid to the hair is desirable to reduce issues that may arise due to overcoating or undercoating the hair with the treatment liquid.
The piston pump used in this hair dryer has some additional characteristics that may be undesirable in some circumstances. For instance, it is difficult to achieve a relatively low spray rate with the piston pump. Thus, in order to avoid prematurely exhausting the supply of hair treatment liquid, the pump is likely operated in a few short bursts to limit the duty cycle of the pump and thereby limit the rate at which the hair treatment liquid supply is depleted. This may promote a tendency for users to apply the liquid unevenly and/or at suboptimal coverage rate.
Another disadvantage of the piston pump used in such a hair dryer the fluid delivery system relies on a dip tube to draw the liquid from the bottom of the supply reservoir. As the liquid is depleted and the liquid level in the supply reservoir moves down, it becomes more and more likely that changing the orientation of the hair dryer (e.g., so that it is on its side or upside down) will cause the end of the dip tube to terminate above the liquid level, thereby preventing operation of the pump. This undesirably restricts the user's freedom to manipulate the hair dryer as may be desired to dry all of the subject's hair while using the pump.
Also, the piston pump of this prior known hair dryer moves a piston in a reciprocating manner with a mechanical linkage drivingly connected to the pump motor. This tends to make the piston pump relatively noisy. Further, the energy used to move the piston back and forth translates into relatively high electrical power requirements. For example, it appears that an effort to power the piston pump with one or more batteries sized to fit inside the hair dryer would pose the problem of limited battery life.
Various conditioners and other liquid skin treatment products are available for application to a subject's skin. It may be desirable to apply such skin treatment products to a subject's skin at the same time that a facial or body hair care appliance (e.g., a shaver or trimmer) is being used on the skin. As in the case of hair treatment liquids, it is desirable to apply such liquids evenly to the subject's skin. Likewise, it may be desirable to use a hand held appliance that has no other purpose than to automatically (e.g., as opposed to manually pumping or spraying) apply liquid treatments to a subject's skin or hair.
One aspect of the invention is a hand held hair dryer including an air duct having an air inlet and an air outlet. A fan unit is operable to draw air into the duct at the air inlet and direct the air flow to the air outlet for exhaustion from the hair dryer. The hair dryer also includes a hair treatment liquid delivery system for delivering a hair treatment liquid from the hair dryer. The delivery system has a reservoir containing a supply of hair treatment liquid. A liquid transfer system is in fluid communication with the reservoir to transfer hair treatment liquid out of the reservoir. The liquid delivery system also has a rotatable drum having a surface in fluid communication with the liquid transfer system for receiving hair treatment liquid onto the surface of the drum. A drive system is operable to rotate the drum such that hair treatment liquid is thrown from the drum by centrifugal force of the rotating drum for delivering hair treatment liquid from the hair dryer in the form of a spray of droplets.
Another aspect of the invention is a liquid sprayer. The sprayer has a reservoir containing a supply of a liquid. The sprayer also includes a generally cylindrical drum having a longitudinal axis and being rotatable on said axis. The drum has an outer surface and a pair of flange members spaced longitudinally from each other and each extending radially outward from the drum outer surface. A drive system is operable to rotate the drum on said longitudinal axis. A liquid transfer system is operable to transfer liquid from the reservoir to the drum outer surface between the flange members whereby upon rotation of the drum on its longitudinal axis liquid is thrown from the outer surface of the drum by centrifugal force of the rotating drum for delivering liquid from the sprayer in the form of a spray of droplets.
Another embodiment of a liquid sprayer has a reservoir containing a supply of liquid and a rotatable drum having an outer surface in fluid communication with the reservoir for receiving liquid from the reservoir onto the outer surface of the drum. A liquid transfer system is in fluid communication with the reservoir to transfer liquid out of the reservoir and onto the drum outer surface. The liquid transfer system includes a first wicking member disposed in the reservoir free from contact with the drum outer surface and constructed to hold liquid in the reservoir and a second wicking member separate from the first wicking member and in fluid communication with the first wicking member to receive liquid from the first wicking member. The second wicking member is in contact with the drum outer surface for transferring liquid onto the drum outer surface. A drive system is operable to rotate the drum such that liquid is thrown from the drum outer surface by centrifugal force of the rotating drum for delivering liquid from the sprayer in the form of a spray of droplets.
A method of using a hand held appliance to dry and apply a hair treatment liquid to a subject's hair in accordance with one embodiment of the invention includes directing an air stream emitted from an air outlet of the appliance onto the subject's hair to dry the hair. Droplets of the hair treatment liquid are sprayed onto the subject's hair from a spray outlet of the appliance. The spraying is conducted so that the droplets produce a generally rectangular spray pattern on the subject's hair. The spray pattern has a length and a width, the length being longer than the width. The spraying is conducted so that the distribution density of droplets along the length of the spray pattern is substantially uniform. The spraying also includes moving the appliance so that the spray pattern translates over the subject's hair in a direction including a component parallel to the width of the spray pattern.
Corresponding reference characters indicate corresponding parts throughout the drawings.
Referring now to the drawings and in particular to
The hair dryer 101 comprises a barrel 107 and a handle 109 extending away from the barrel (e.g., roughly perpendicularly to a longitudinal axis of the barrel but not necessarily so). The barrel 107 has an interior air duct 113, an upstream or inlet end 115 that is open to define an air inlet 117 to the barrel at which air enters the air duct, and a downstream or outlet end 119 to define an air outlet 121 at which air exits the air duct, and hence the dryer. A fan unit 123 is disposed in the barrel 107 and is operable to draw air into the duct 113 at the air inlet 117 and direct air to flow therethrough to the air outlet 121. A suitable heater 125 is also disposed in the air duct 113 of the barrel 107 and is operable to heat air flowing through the air duct to deliver a stream of heated air exiting the outlet end 119 of the barrel. One or more controls 127 are provided on the handle 109 to allow selective activation and deactivation of the fan 123 and heater 125. For example, such controls 127 may allow selective activation and adjustment of the fan 123 speed independent of the heater 125 and/or allow a user to selectively adjust a power setting of the heater to control the amount of heat applied to a subject's hair, or to provide generally unheated air.
The hair dryer 101 described to this point is conventional, with the construction and operation thereof being known to those skilled in the art. It is understood that the hair dryer may be of any suitable construction to remain within the scope of this invention.
The term “liquid” as used in reference to the hair treatment liquid refers to any non-gaseous flowable substance. For example, suitable hair treatment liquids may include water, conditioner, a shine enhancer, a de-tangler, a hair styling liquid, a heat protectant, an ion solution, etc. The hair treatment liquid 105 is suitably selected or formulated to resist foaming and to avoid leaving a sticky residue when dry. In one particularly suitable embodiment, the hair treatment liquid 105 is selected or formulated to have a viscosity and density that approaches (or is equal to) that of water.
In a more particularly suitable embodiment, the hair treatment liquid 105 may comprise silicon, and more suitably a substantial fraction (e.g., about 90 weight percent or more) of a silicon-containing emollient, such as cyclopentasiloxane. Silicon-containing products, such as cyclopentasiloxane, can provide dual advantages when included in the hair treatment liquid in that they are considered beneficial to the hair and also act as a lubricant for the sprayer 103. The hair treatment liquid 105 suitably also includes a smaller fraction (e.g., about 10 weight percent or less) of another emollient, such as PPG-3 benzyl ether myristate, which is known for its ability to improve shine as well as moisturize the hair. Use of other compositions as the hair treatment liquid, however, is contemplated to be within the scope of this invention.
Referring now to
The sprayer 103 is suitably operable to deliver a spray of droplets of hair treatment liquid 105 from the sprayer. As best seen in
The illustrated reservoir 157 is configured to have a generally rectangular main portion 161 and a tongue portion 163 extending outward (e.g., forward in the illustrated embodiment) from the main portion. The main portion 161 of the reservoir 157 is generally open at a mounting end 165 (i.e., an upper end or top in the illustrated embodiment) and has suitably flanged mounting members 167 including bores 169 therethrough to permit mounting of the reservoir (and hence the entire sprayer 103) on the underside of the hair dryer barrel 107 using suitable screw fasteners (not shown). The mounting end 165 of the reservoir main portion 161 is suitably contoured in accordance with the contour of the underside of the hair dryer barrel 107 to provide a relatively flush fit of the reservoir main portion against the barrel so that the barrel seals or at least generally closes the open mounting end of the reservoir main portion. In this manner, the reservoir 157 is closed off from the air duct 113 defined by the hair dryer barrel 107 to reduce the risk of evaporation or heat degradation of the hair treatment liquid 105 in the reservoir that may otherwise result from exposure to heated air within the barrel.
It is contemplated, however, that the reservoir 157 may instead be closed at its mounting end without departing from the scope of this invention. It also understood that the sprayer 103 may be mounted on the barrel other than by screw fasteners, such as by other suitable fasteners, welding, adhesive or other suitable fastening technique.
The reservoir 157 has a refill port 171 (
The tongue portion 163 of the reservoir is relatively flat and wide and extends outward (e.g., forward in the illustrated embodiment of
In particular, as best seen in
In the illustrated embodiment, the reservoir 157 (i.e., the main portion 161 and tongue portion 163 together) has a total internal volume in the range of about 10 ml to about 32 ml, and more suitably in the range of about 20 ml to about 30 ml. It is understood, however, that the reservoir may be sized larger or smaller depending on a number of factors including the appliance with which it is used, the hair treatment liquid, spray rate, the desired time between needed refills, etc.
The liquid transfer system 159 suitably comprises a pair of wicking members 201, 203 disposed within the reservoir 157, at least one of which extends into contact with the outer surface 205 of the drum 151 in the drum housing 153 to wick hair treatment liquid 105 from the reservoir 157 to the drum outer surface. For reference purposes, a first or primary wicking member 201 is disposed in both the main portion 161 and tongue portion 163 of the reservoir 157 and is referred to further herein as the reservoir wick and a second or secondary wicking member 203 is disposed in the tongue portion of the reservoir, and more particularly in the guide channel 189 formed by the guide member 187 thereof, and is referred to further herein as the drum wick. It is contemplated, however, that more than two wicking members may be used, or that a single wicking member that defines both the reservoir wick and the drum wick may be used without departing from the scope of this invention.
The reservoir wick 201 illustrated in
A cantilevered portion 213 of the reservoir wick 201 is integrally formed with and extends outward (e.g., forward in the illustrated embodiment) from the lower part of the main body 211 of the reservoir wick into the tongue portion 163 of the reservoir 157. As illustrated in
The reservoir wick 201 otherwise suitably occupies a substantial portion of the internal volume of the reservoir 157. For example, the reservoir wick 201 suitably occupies at least about 80 percent of the total internal volume of the reservoir 157, more suitably at least about 90 percent of the internal volume of the reservoir, and still more suitably at least about 95 percent of the internal volume of the reservoir. Further, the reservoir wick 201 suitably occupies substantially all of the portion of the internal volume of the reservoir 157 that is above the reservoir tongue 163.
With particular reference to
The drum wick 203 is suitably slidable relative to the guide member 187 of the reservoir to permit inward and outward movement of the drum wick relative to the reservoir 157. More suitably, the drum wick 203 is biased outward against the outer surface 205 of the drum 151 to maintain a positive contact with the. One advantage of biasing the drum wick 203 to engage the outer surface 205 of the drum 151 is that it alleviates the need to maintain tight tolerances on the dimensions of the drum wick 203 and reservoir wick 201. It also helps maintain a desired contact pressure between the drum wick 203 and the drum 151. To facilitate movement of the drum wick 203, the cantilevered portion 213 of the reservoir wick 201 is suitably biased against the drum wick to maintain contact with the drum wick and urge the drum wick against the drum outer surface 205. However, it is contemplated that the contact pressure between the drum wick 203 and the drum 151 is suitably relatively light. For example, in one embodiment, the contact pressure is substantially maintained in the range of about 0.085 grams per square millimeter to about −0.4 grams per square millimeter.
As illustrated in
The leaf spring 225 is resiliently deformable to a configuration in which its free end 229 is closer to the bottom of the reservoir 157 than it is in the relaxed state of the spring. The drum wick 203 and the cantilevered portion 213 of the reservoir wick 201 are suitably dimensioned so that they resiliently deform the leaf spring 225 by pressing its free end 229 toward the bottom of the reservoir 157 when the drum wick is in contact with the drum 151. Consequently, the leaf spring 225 presses back against the cantilevered portion 231 of the reservoir wick 201 and the drum wick 203. Further, by selecting the leaf spring 225 so that it has an appropriate spring constant, the contact pressure between the drum wick 203 and the drum 151 can be maintained in a desired range.
Although the illustrated embodiment uses a separate leaf spring 225 to bias the wicking members toward the drum 151, a separate leaf spring (or other biasing member) is not required. For example, a leaf spring (not shown) similar to the one described above may be embedded in the wicking material of the reservoir wick 201 to resiliently bias the cantilevered portion 213 of the wick to flex upwardly and to urge the drum wick 203 up against the drum 151. Likewise, natural resiliency of the cantilevered portion 213 of the reservoir wick 201 may be sufficient to maintain contact of the drum wick 203 with the drum 151 in a suitable pressure range without departing from the scope of the invention. Further, it is within the scope of the invention to achieve a desired contact pressure by configuring the sprayer 103 so that the drum wick 203 and cantilevered portion 213 of the reservoir wick 201 are squeezed between the drum 151 and the reservoir containment structure. It may be desirable in some embodiments to provide a mechanism (e.g., a contact pressure adjustment screw 264, as illustrated in
Various materials may be used for the drum wick 203 and reservoir wick 201. In general, materials that are capable of wicking the liquid are suitable for use as the wicking members 201, 203 without departing from the scope of the invention. In one embodiment, for example, the drum wick 203 and reservoir wick 201 are made of a fibrous polyester material. Examples of suitable wicking materials are those commercially available from Filtrona Richmond, Inc., which has a U.S. office in Colonial Heights, Va. under the tradename Filtrona Fibertec®. Suitable wicks are available from Spectrum Brands, Inc. of Madison, Wis. as part numbers 06-650-003 and 06-650-004. It is understood, however, that other wicking materials, such as cotton or other suitable materials, may be used without departing from the scope of the invention.
In one embodiment of the invention, wicking material is made by forming a web of extruded polyester fibers oriented so that a substantial fraction of the fibers are in roughly parallel orientation to one another to form a fibrous matrix. The drum wick 203 and reservoir wick 201 are suitably produced from one or more such webs so that the substantial fraction of roughly parallel polyester fibers are perpendicular to the general direction of liquid flow through the wicking members.
The drum wick 203 in one embodiment suitably has a higher average density than the reservoir wick 201. For example the drum wick 203 may suitably have an average density in the range of about 0.19 g/cc to about 0.25 g/cc while the reservoir wick has an average density in the range of about 0.095 g/cc to about 0.19 g/cc. A lower density reservoir wick 201 provides more internal void space for containing a relatively larger volume of hair treatment liquid 105 therein. The higher density drum wick 203 provides a stronger capillary action than the reservoir wick 201 to facilitate the drum wick drawing liquid 105 from the reservoir wick for delivery to the drum outer surface 205.
The drum 151 is rotatably mounted on a suitable drive shaft 241 within the drum housing 153 so that the drum outer surface 205 is accessible to the drum wick 203 via the inlet opening 183 of the drum housing 153. The drive shaft 241 is operatively driven by the motor 155 (which may be any of various suitable electrical motors) with the drive shaft (and hence the rotation axis of the drum 151) generally perpendicular to the desired direction in which the spray of liquid 105 is to be directed, and more suitably to the direction of the flow through the air duct 113 of the hair dryer barrel 107. As an example, in one embodiment the drum 151 has a length of about 12 mm and an outer diameter of about 7 mm. It is understood, however that the drum size may vary without departing from the scope of this invention. Various materials may be used to make the drum 151. For example, in one embodiment the drum is suitably made from a relatively durable and inert polymer (e.g., polypropylene or Nylon). Polypropylene, and to a somewhat lesser extent Nylon, are also advantageous materials for use in making the drum 151 because their relatively high natural lubricity reduces resistance to rotation of the drum and thereby decreases the load on the motor.
The drum can be knurled or otherwise textured as an alternative or in addition to the foregoing way to adjust spray rate produced by the drum. In other embodiments, for example, the spray rate can be increased by providing bumps and/or circular depressions in the outer surface of the drum.
The drum 151 also has a pair of flange members 255 spaced longitudinally from each other, e.g., at opposite ends of the drum, and extending radially outward relative to the drum outer surface 205. As an example, one suitable way make a drum 151 having the illustrated flange members 255 is to make the flange members separate from the drum and integral with a post (not shown) connected to the flange centrally on a face of the flange. The posts of the flanges 255 are then suitably inserted into a hollow cylindrical cavity (not shown) in the drum 151. The ends of the posts are suitably designed so that the ends of the posts can be joined to one another (e.g., by a snap connection) in the hollow cavity in the drum 151.
In a particularly suitable embodiment, the grooves 251 and/or ridges in the drum outer surface extend all the way across the outer surface 205 of the drum 151 from one flange member 255 to the other. The flanges 255 suitably have a width of about 1 mm and are about 1 mm larger in diameter than the diameter of the drum outer surface 205. The drum 151 and the drum wick 203 are sized relative to each other such that the drum wick contacts the drum between the flange members 255 so that liquid 105 is delivered by the liquid transfer system 159 to the drum between the flange members. For example, in one embodiment the drum wick 203 is suitably sized and shaped to engage the drum outer surface 205 over a contact area that extends a longitudinal distance that is at least about 75 percent of the longitudinal distance between the flange members 255. Without being bound by any particular theories, the flange members are believed to play a desirable role in channeling the liquid so that the spray pattern is confined to a relatively narrow band along the longitudinal axis of the drum.
The drive motor 155 for the drum 151 is suitably disposed in a motor housing 261. For example, as illustrated in
There are various options for activating the motor 155 within the scope of the invention. For instance, in one suitable embodiment the motor 155 may be selectively activated independent of the hair dryer fan 123 and/or heater 125 to permit use of the sprayer 130 even when a stream of air is not being used to dry the subject's hair. Alternatively, the motor 155 may be electrically connected to the fan 123 so that it operates conjointly with the hair dryer fan, i.e., only when a stream of air is exhausted from the dryer. It is contemplated that the motor 155 may be powered by the same power source as the fan 123 and heater 125, or by its own separate power source, without departing from the scope of the invention. For example, the illustrated motor of
In one embodiment, the sprayer 103 is suitably operable continuously, for example, to continually deliver hair treatment liquid 105 until the sprayer is turned off. In other embodiments, the sprayer 103 may be controllable, such as by a suitable button 273 (e.g., a push button) included in the set of controls 127 on the handle 109 or elsewhere on the hair dryer, to provide short bursts of liquid delivery. It is understood that the arrangement of the sprayer control button relative to the other controls on the handle may vary from the illustrated embodiment without departing from the scope of the invention.
With reference to
In operation of the sprayer 103 the motor 155 drives the drum 151 in rotation (e.g., clockwise in the illustrated embodiment of
Upon rotation of the drum 151, hair treatment liquid 105 from the reservoir 157 is transferred by the liquid transfer system 159, i.e., the reservoir wick 201 and then the drum wick 203, onto the outer surface 205 of the drum. The rotational speed of the drum 151 is such that hair treatment liquid 105 (e.g., the liquid captured in the grooves 251) is thrown from the drum due to centrifugal force. A volume of liquid 105 is thus thrown out through the sprayer outlet 145 in the form of a mist or spray of droplets 291 of the hair treatment liquid. A remaining volume of liquid 105 thrown from the drum outer surface 205 contacts the drum housing 153 and flows back along the drum housing to the drum wick 203. For example, referring to
The sprayer outlet 145 is suitably positioned relative to the air duct 113 of the hair dryer 101 such that hair treatment liquid 105 exiting the drum housing 153 can be entrained in the air flow of the hair dryer 101 when the fan 123 and sprayer 103 are operated concurrently. As illustrated in
In accordance with one suitable embodiment, the spray rate at which hair treatment liquid 105 is delivered from the sprayer 103 is suitably at least about 0.00025 ml/sec, more suitably at least about 0.0005 ml/sec, and still more suitably about 0.001 ml/sec. The spray rate is optionally selectively variable by the user. For example, the motor 155 may be wired to a speed control circuit that enables a user to use the controls 127 on the handle 109 to speed up the rotation rate of the motor to increase the spray rate and/or decrease the rotation rate of the motor to decrease the spray rate. Another option that may be used alternatively or in addition to the variable motor speed feature is to provide the sprayer 103 with a shield that may be selectively moved to control the size of the sprayer outlet. As illustrated in FIGS. 3 and 10A-10B, for example, in one embodiment the sprayer 103 optionally includes a substantially cylindrical clip 293 rotatably mounted on the motor housing 261. A shield 295 extends from the clip 293 and is rotatable therewith. The shield 295 is shaped to conform to the cylindrical exterior of the drum housing 153 and is rotatable on the drum housing. By rotating the clip 293, the shield 295 can be selectively rotated (in the direction of the arrow on
The spray pattern generated by the sprayer 103 is particularly advantageous in that it facilitates applying the hair treatment liquid 105 evenly to the hair or to a selected part of the hair. The droplets 291 suitably have substantially zero velocity in a direction parallel to the rotational axis of the drum 151. Consequently, as illustrated in
The spray pattern makes it easier to achieve relatively even coverage of the hair treatment liquid 105 on the subject's hair. For example, the hair dryer 101 may be held in the orientation depicted in the drawings and moved horizontally while spraying the hair treatment liquid 105 from the sprayer 103. In this orientation, the length L of the rectangular spray pattern is generally vertical. As the hair dryer 101 moves horizontally, the horizontal translation of the rectangular spray pattern of the sprayer 103 results in application of the hair treatment liquid 105 substantially evenly to a rectangular swath of hair. In contrast to prior art sprayers that have been used with hair dryers, which have generally conical spray patterns, about the same amount of the hair treatment liquid is applied to the upper and lower portions of the swath as is applied to the middle portion of the swath.
The sprayer 103 is operable to generate the spray in substantially any orientation. The optional vent 175 in the reservoir 157 is resistant to leakage because the reservoir wick 201 absorbs free liquid 105 in the reservoir. Thus, there is no significant leaking from the vent opening 175 regardless of orientation. The inner surface of the drum housing 153 and the upper surface of the rim 185 of the reservoir 157 are effective to return any liquid 105 that accumulates in the drum housing over a range of orientations. For example, the hair dryer 101 may be rotated up to about 45 degrees in any direction relative to the orientation in the drawings and operated for an indefinite period of time without leaking liquid.
The sprayer 103 has been found to be energy efficient. Substantially no energy is required to transport the liquid 105 from the reservoir 157 to the drum 151. Similarly, the load on the motor 155 is relatively light because of the lubricating action of the hair treatment liquid 105, the natural lubricity of the drum 151, and the relatively light contact pressure between the drum and the drum wick 203. Accordingly, the motor 155 is able to power the sprayer 103 to operate as described above while only drawing a relatively small current from a single 1.5 V AA size battery 271. For example the motor 155 is suitably operable to power the sprayer 103 while drawing less than about 250 mA from a single 1.5 V AA size battery 271, and more suitably while only drawing about 200 mA from the battery.
With reference now to
For example, the illustrated cartridge 431 comprises the reservoir 457 and the liquid transfer system 459 (e.g., a reservoir wick 501, and a drum wick 503). The drum 151, drum housing 153 and motor housing 261, and the motor 155 are not part of the cartridge 431 and suitably remain secured to the hair dryer 401 (e.g., via screws 561 or any other suitable means) during cartridge replacement. Such a cartridge based reservoir system facilitates replacement of a reservoir that is depleted of hair treatment liquid with another reservoir that is substantially filled with hair treatment liquid. The cartridge system also facilitates a changeover from one hair treatment liquid to a different hair treatment liquid, if that is desired. Very little to no liquid product is retained on the drum 151 between use. Thus, as soon as the sprayer 403 begins operation with a new cartridge containing a different hair treatment liquid than was in the immediately preceding cartridge, the sprayer will begin spraying droplets that are substantially entirely made of the new treatment right away.
A latch system 433 for securing the cartridge 431 to the hair dryer 401 is suitably supported by the drum and motor housing 153, 261. In the embodiment illustrated in the drawings, for example, the latch system 433 comprises a pair of opposed jaws 435 pivotally mounted on the drum and motor housing 153, 261 at pivot connections 439. The lower portions of the jaws 435 are suitably configured to generally define a space sized and shaped to receive the tongue-defining portion 463 of the reservoir containment structure between the jaws. The jaws 435 are also biased (e.g., by biasing members 437 acting on upper ends of the jaws above the pivot connections 439) so their lower portions are urged to pivot generally away from one another. As illustrated in
An L-shaped retaining member 449 (
The L-shaped recesses 477 are positioned and arranged to receive the L-shaped retaining members 449 of the jaws 435 when the lower portions of the jaws are squeezed toward one another against the bias of the biasing members 437. The recesses 477 are also shaped and arranged so that the ends 429 of the L-shaped retaining members 449 can slide under the respective detent bar 479 after the retaining members are inserted into the recesses. When the retaining members 449 of the jaws 435 are inserted into the recesses 477 in this manner the retaining members engage the side and bottom of each detent bar 479 and secure the reservoir 457, and therefore the cartridge 431, to the drum and motor housing 153, 261. When the cartridge 431 is secured to the hair dryer 401 in this manner, the drum wick 503 is positioned so that its contact end 521 extends into the drum housing 153 through the inlet opening 183 therein and contacts the drum 151. The biasing members 437 bias the jaws 435 so that the ends 429 of the retaining members 449 are urged to remain in the L-shaped recesses 477 and to remain in engagement with the detent bars 479. A user can release the cartridge 431 from the drum motor housing 153 by squeezing the lower portions of the jaws 435 together to disengage the L-shaped retaining members 449 from the detent bars 479 and then remove the retaining members from the L-shaped recesses 477, thereby releasing the cartridge from the hair dryer 401.
The reservoir 457 also suitably defines a pair of stops 491 on opposite sides of the reservoir outlet 481. These stops 491 engage the drum and motor housing 153, 261 when the cartridge 431 is secured to the hair dryer 401 to limit the extent to which the reservoir 457 can move up toward the drum and motor housing and to maintain desired spacing between the cartridge 431 and the drum 151.
Except for the reservoir outlet 481, which is plugged by the drum wick 503, the reservoir 457 is suitably substantially sealed in this embodiment. That is, there is no refill port or vent in the main portion 461 of the reservoir. The reservoir wick 501 does not substantially fill the reservoir 457. Instead, the reservoir wick 501 is a generally rectangular slab of wicking material extending along the bottom of the reservoir 457 from the tongue portion 463 of the reservoir into the main portion 461 of the reservoir. In this embodiment, leakage of the liquid from the reservoir outlet 481 is controlled by blocking the outlet with the drum wick 503. Reducing the number of openings into the reservoir 457 reduces evaporative losses of the hair treatment liquid 105 to provide longer shelf life for the cartridge 431. Further, the reservoir outlet 481 may be sealed at a manufacturing facility with a foil pull tab (not shown) releasably secured to the cartridge 431 (e.g., by an adhesive suitable for allowing a consumer to remove the pull tab before using the cartridge) in position to cover the outlet to increase shelf life and protect against unauthorized tampering with the contents of the cartridge. Reducing the volume of the reservoir wick 501 allows the reservoir 457 to hold a larger supply of hair treatment liquid 105 in the same size reservoir.
The drum wick 503 and reservoir wick 501 are suitably made of the same materials described above in relation to the wicking members 203, 201 of the hair dryer 101. The reservoir wick 501 contacts the drum wick 503 within the tongue portion of the reservoir 463 and the drum wick extends from the reservoir wick through the reservoir outlet 481 into contact with the drum outer surface 205 at the contact end 521 of the drum wick. The reservoir wick 501 is suitably biased to urge the contact end 521 of the drum wick 503 against the drum outer surface 205.
For example, in the embodiment of
In contrast to the drum wick 203 described above, the drum wick 503 of this embodiment suitably includes one or more stops 531 that limit the extent to which the drum wick can move outward of the reservoir 457. The stops 531 thereby keep the drum wick 503 from falling out of the cartridge 531 when it is not secured to the hair dryer 401. As illustrated in
When the cartridge 431 is secured to the hair dryer 401, the drum 151 may press the drum wick 503 inward, resiliently deforming the spring clip 425 in the reservoir 457. As the wick 503 is worn down by contact with the rotating drum 151, the spring clip 425 gradually returns toward its relaxed configuration, thereby maintaining the desired contact pressure between the drum wick and the drum 151. Because, the drum wick 503 is replaced along with the reset of the cartridge 431, the cartridge only has to be designed to accommodate the wear that the drum wick will incur during the life of the cartridge. Consequently, a biasing member having reduced travel (“travel” being used to refer to the distance traversed by the pertinent part of the biasing member as the biasing member is deformed from its relaxed state) may suffice in a cartridge based system. For example, the spring clip 425 in the cartridge 431 suitably has less travel than the leaf spring 225 described above and is suitably advantageously made from less material.
An outer cover 545 is releasably secured to the barrel 107 of the hair dryer 401 of this embodiment to substantially enclose the sprayer 403. For example, the outer cover 545 suitably encloses the entire sprayer 403 including the motor 155, the drum 151, the drum and motor housing 153, 261, the cartridge 431, and the latch system 433 securing the cartridge to the drum and motor housing. As illustrated in
FIGURES. 18-24 illustrate yet another embodiment of a personal care appliance, again in the form of a hair dryer, generally designated 601, having a sprayer 603. Except as noted, this hair dryer 601 is constructed and operated in substantially the same way as the hair dryer 401 described above.
One difference is that the hair dryer 601 of this embodiment has a different latch system 633 than the latch system 433 described above. For example, the jaws 635 of the latch system 633 and cartridge 631 are configured so that the cartridge is released from the latch system by pivotal movement of the jaws in the opposite direction compared to the movement used to release the cartridge from the latch system 433 described above. Each jaw 635 has a retaining member 649 (
The jaws 635 are biased by biasing members 625 (e.g., springs compressed between the end of the jaw and the motor housing 661, as illustrated in
Another difference in the hair dryer 601 of this embodiment is that the cartridge 631 has a reservoir wick 701 retaining system 615 for limiting movement of the reservoir wick 701 in the reservoir 657. The reservoir wick 701 is shaped to have a raised portion 717 at the end of the reservoir wick opposite the tongue portion 663 of the reservoir 657. At least one wick retainer 697 is secured to the inside of the reservoir 657 adjacent the raised portion 717 of the reservoir wick 701 so that the retainer limits movement of the reservoir wick in the reservoir. As best seen in
The cartridge 631 has a vertical alignment fin 641 extending substantially perpendicularly from the back of the reservoir 657. The alignment fin is configured to be received in a corresponding alignment slot (not shown) in the housing of the hair dryer 601 to help ensure and maintain the desired alignment between the cartridge 631 and the rest of the hair dryer.
When introducing elements of the present invention or the preferred embodiments thereof, the articles “a”, “an”, “the”, and “said” are intended to mean that there are one or more of the elements. The terms “comprising”, “including”, and “having” are intended to be inclusive and mean that there may be additional elements other than the listed elements.
As various changes could be made in the above constructions and methods without departing from the scope of the invention, it is intended that all matter contained in the above description and illustrated in the accompanying drawings shall be interpreted as illustrative and not in a limiting sense.