The invention generally relates to a door holding device. More particularly, the invention relates to a door holding device that is configured to fix a door of a building structure in a predetermined position while firefighting operations are taking place in the building structure.
Studies conducted by Underwriters Laboratories (UL), National Institute of Standards and Technology (NIST), and The Bureau of Alcohol, Tobacco, Firearms and Explosives (ATF) Fire Research Laboratory have concluded that ventilation flow paths within a structure fire are directly attributed to the spread of fire, and the loss of lives and property. The above studies proved that controlling the amount of opening of the door (i.e. door control) used by firefighters is the valve for limiting flow path. Flow path is the volume between an inlet and an outlet that allows the movement of heat and smoke from higher pressure within the fire area toward the lower pressure areas accessible via door and window openings. Firefighting operations conducted in the flow path, between the fire and where the fire wants to go, will place civilians and firefighters at significant risk due to the increase flow of fire, heat and smoke toward their position. Fire, heat and smoke also can cause structural members to fail or windows to shatter causing rapid changes in flow path within a structure. These rapid changes may necessitate the emergent evacuation of firefighting personnel.
Door control has been identified as the most important component in restricting the flow of air into a building that is on fire. Lack of flow path control, by either intentional or unintentional ventilation of a building on fire has been proven to accelerate progression of the fire. This resulting rapid fire progression has resulted in civilian and firefighter injuries and deaths. Most fire departments do not have enough manpower on a scene to allow dedication of a member to stay at the entry door keeping it closed as much as possible while crews operate inside the building with a fire hose line.
The conventional means for controlling exterior and interior doors is a wooden or plastic triangular wedge. These tools have been used in the fire service for decades, but offer little to no assurance that they will fix a door in place while resisting force from all directions that occur during firefighting operations, such as advancing a fire hose line into and throughout the structure. Most importantly, the conventional wedge in no way offers a means for efficient and rapid removal thereof during emergency egress by firefighters.
The following presents a simplified summary in order to provide a basic understanding of some aspects of the innovation. This summary is not an extensive overview of the innovation. It is not intended to identify key/critical elements or to delineate the scope of the innovation. Its sole purpose is to present some concepts of the innovation in a simplified form as a prelude to the more detailed description that is presented later.
In an aspect of the innovation a door holding device is disclosed that includes a first arm assembly, a second arm assembly, a pivot device that pivotally connects the first arm assembly to the second arm assembly, and a movable clamping mechanism slidably attached to the second arm assembly that clamps to a structure to secure the door holding device to the structure.
In another aspect of the innovation a door holding system is disclosed that includes a door holding device including a movable clamping mechanism that slidably clamps to a structure to secure the door holding device to the structure, and an electronic wireless communicator disposed in or on the door holding device, wherein the wireless communicator provides electronic communication to and/or from an external electronic communicating system. In one embodiment, the electronic wireless communicator may be disposed in or on the holder (e.g., the U-shaped holder) of the door holding device.
In still another aspect of the innovation a method of securing a door in a partially open configuration is disclosed that includes providing a door holding device having a first arm assembly, a second arm assembly, and a movable clamping mechanism, placing the first arm assembly against a door frame whereby a longitudinal part contacts an end face of the door frame and a stationary part contacts one side of the door frame, moving the movable clamping mechanism along the longitudinal part toward the door frame, contacting an opposite side of the door frame with a movable pad on the movable clamping mechanism, tightening the movable pad against the opposite side of the door frame, compressing the movable pad against the opposite side of the door frame, compressing a stationary pad against the one side of the door frame, and placing a vertical end of the door into a U-shaped holder. In one embodiment, the U-shaped holder may be adjustable to accommodate structures (e.g., doors) of various thickness.
The following description and drawings set forth certain illustrative aspects and implementations. These are indicative of but a few of the various ways in which one or more aspects may be employed. Other aspects, advantages, or novel features of the disclosure will become apparent from the following detailed description when considered in conjunction with the drawings.
The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate various systems, methods, and other embodiments of the disclosure. Illustrated element boundaries (e.g., boxes, groups of boxes, or other shapes) in the figures represent one example of the boundaries. In some examples one element may be designed as multiple elements or 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.
The innovation is now described with reference to the drawings, wherein like reference numerals are used to refer to like elements throughout. In the following description, for purposes of explanation, numerous specific details are set forth in order to provide a thorough understanding of the subject innovation. It may be evident, however, that the innovation can be practiced without these specific details. In other instances, well-known structures and devices are shown in block diagram form in order to facilitate describing the innovation.
While specific characteristics are described herein (e.g., thickness, orientation, configuration, etc.), it is to be understood that the features, functions and benefits of the innovation can employ characteristics that vary from those described herein. These alternatives are to be included within the scope of the innovation and claims appended hereto.
While, for purposes of simplicity of explanation, the one or more methodologies shown herein, e.g., in the form of a flow chart, are shown and described as a series of acts, it is to be understood and appreciated that the subject innovation is not limited by the order of acts, as some acts may, in accordance with the innovation, occur in a different order and/or concurrently with other acts from that shown and described herein. For example, those skilled in the art will understand and appreciate that a methodology could alternatively be represented as a series of interrelated states or events, such as in a state diagram. Moreover, not all illustrated acts may be required to implement a methodology in accordance with the innovation.
Disclosed herein is an innovative door holding device that overcomes the aforementioned disadvantages. Studies performed at UL found that while fighting a fire, allowing a door to remain partially open approximately 18 inches is an optimal gap or opening in order to allow the movement of fire hoses into the structure while simultaneously controlling the flow path defined above. The innovative door holding device disclosed herein is capable of securely fixing a door in place, while resisting forces that commonly occur during firefighting operations, such as those forces created by the advancing of the fire hose. Furthermore, the innovative door holding device effectively restricts the amount of airflow through a door opening, and therefore controls flow path, while aiding in the restriction of fire growth.
In addition, the innovative door holding device allows firefighters to view smoke emitting from the doorway where the door holding device is applied, which allows the firefighters to observe changes in fire conditions throughout the emergency. Observation of changes in fire conditions is a very large variable in tactical decision making.
The innovative door holding device, however, includes adjustable features that allows firefighters to adjust the door opening greater or less than 18 inches or where in instances where the fire is mostly extinguished. In these instances, firefighters are investigating void spaces in the structure where fire can hide and ultimately cause the fire to begin again if left undetected. Because the flow path of air into the structure can reach these void spaces and there may be no need to advance the fire hose further, firefighters may want to adjust the door opening in an even more closed position to restrict the movement of air that much more in order to protect themselves and the structure.
Referring now to the drawings,
The door holding device 10 includes a body assembly 20 and a handle (quick-release) mechanism 12 that connects to the body portion 20. As will be described further below, the handle mechanism 12 facilitates a quick disengagement of the door holding device 10 from the door structure.
The body assembly 20 includes a first clamp device 22, a second clamp device 38, and a pivoting mechanism 36 (e.g., a hinge) pivotally connecting the first clamp device 22 and the second clamp device 38 to each other. The first clamp device 22 is configured to attach to a structure (e.g., door, door frame, etc.) and includes a first arm 23 and a first clamp comprising a first clamp member 24 and a second clamp member 30. The first arm 23 includes a proximate end 23A having a first pivot portion 36A attached thereto, and a distal end 23B. The first and second clamp members 24, 30 are spaced apart and extend from the distal end 23B of the first arm 23 to thereby form a general U-shape with the distal end 23B of the first arm 23. Thus, the first and second clamp members 24, 30 are disposed on opposite sides of the structure and the structure is disposed in a space 23C defined between the first and second clamp members 24, 30 when the door holding device 10 is in use.
The first clamp member 24 includes a first clamp pad portion 28 disposed on an inside surface thereof and the second clamp member 30 includes a second clamp pad portion 34 disposed on an inside surface thereof. When the door holding device 10 is in use, the first clamp pad portion 28 is disposed against a surface (first surface) of the structure and the second clamp pad portion 34 is disposed against a generally opposite (second) surface of the structure. In one or more embodiments, the clamp pad portions 28, 34 may be formed from a compressible resilient material (e.g., a compressible rubber material) for enhancing the surface contact friction between the first and second clamp members 24, 30 of the first clamp device 22 and the opposed surfaces of the structure. Forming the clamp pad portions 28, 34 from a compressible resilient material also helps to protect the structure surfaces from being scratched or marred by the clamp members 24, 30 of the first clamp device 22.
The first clamp member 24 further includes a first flange 26 that extends from a distal end 24A of the first clamp member 24 in a direction away from the second clamp member 30. Similarly, the second clamp member 30 further includes a second flange 32 that extends from a distal end 30A of the second clamp member 30 in a direction away from the first clamp member 24. The first and second flanges 26, 32 facilitate a disengagement of the first clamp device 22 from the structure by a user. More specifically, when the user grasps and pulls on either the first or second flange, its respective clamp member 24, 30 is deformed outwardly away from the surface of the structure, and the first clamp device 22 is disengaged from the structure. Thus, the first and second flanges 26, 32 function as release mechanisms so as to allow the user to easily disengage the first clamp device 22 from the structure. In addition, the first flange 26 of the first clamp member 24 also provides a connection between the handle mechanism 12 and the body assembly 20. Specifically, the first flange 26 includes a proximate end 26A that connects to the distal end 24A of the first clamp member 24 and a distal end 26B that connects to the handle mechanism 12 described further below.
The body assembly 20 of the door holding device 10 may be formed from a resilient material (e.g., a resilient plastic or metal) so that the first and second spaced-apart clamp members 24, 30 of the first clamp device 22 are capable of being resiliently deformed when they are engaged with the structure. As such, the first clamp device 22 of the door holding device 10 is capable of securely grasping the portion of the structure when its prong-like clamp members 24, 30 are deformed (i.e., the clamp members 24, 30 grasp the cross-section of the structure in a friction-fit type engagement). Alternatively, the first arm 23 may be formed from a rigid material and the first and second clamp members 24, 30 may formed from a resilient material or vice versa.
The second clamp device 38 is configured to attach to a structure (e.g., door, door frame, etc.) and includes a second arm 39 and a second clamp comprising a third clamp member 40 and a fourth clamp member 46. The second arm 39 includes a proximate end 39A having a second pivot portion 36B attached thereto, and a distal end 39B. The third and fourth clamp members 40, 46 are spaced apart and extend from the distal end 39B of the second arm 39 to thereby form a general U-shape with the distal end 39B of the second arm 39. Thus, the third and fourth clamp members 40, 46 are disposed on opposite sides of the structure and the structure is disposed in a space 39C defined between the third and fourth clamp members 40, 46 when the door holding device 10 is in use.
The third clamp member 40 includes a third clamp pad portion 44 disposed on an inside surface thereof and the fourth clamp member 46 includes a fourth clamp pad portion 48 disposed on an inside surface thereof. When the door holding device 10 is in use, the third clamp pad portion 44 is disposed against a surface (first surface) of the structure and the fourth clamp pad portion 48 is disposed against a generally opposite (second) surface of the structure. In one or more embodiments, the clamp pad portions 44, 48 may be formed from a compressible resilient material (e.g., a compressible rubber material) for enhancing the surface contact friction between the third and fourth clamp members 44, 48 of the second clamp device 38 and the opposed surfaces of the structure. Forming the clamp pad portions 44, 48 from a compressible resilient material also helps to protect the structure surfaces from being scratched or marred by the clamp members 40, 48 of the second clamp device 38.
The third clamp member 40 further includes a third flange 42 that extends from a distal end 40A of the third clamp member 40 in a direction away from the fourth clamp member 46. The third flange 42 facilitates a disengagement of the second clamp device 38 from the structure by the user. More specifically, when the user grasps and pulls on the third flange 42, the third clamp member 40 is deformed outwardly away from the surface of the structure, and the second clamp device 38 is disengaged from the structure. Thus, the third flange 42 functions as a release mechanism so as to allow the user to easily disengage the second clamp device 38 from the structure.
As described above the body assembly 20 of the door holding device 10 may be formed from a resilient material (e.g., a resilient plastic or metal) so that the third and fourth spaced-apart clamp members 40, 46 of the second clamp device 22 are capable of being resiliently deformed when they are engaged with the structure. As such, the second clamp device 38 of the door holding device 10 is capable of securely grasping the portion of the structure when its prong-like clamp members 40, 46 are deformed (i.e., the third and fourth clamp members 40, 46 grasp the cross-section of the structure in a friction-fit type engagement). Alternatively, the second arm 39 may be formed from a rigid material and the third and fourth clamp members 40, 46 may formed from a resilient material or vice versa.
Still referring to
As mentioned above, the first pivot portion 36A is disposed at a proximate end 23A of the first arm 23. In the example embodiment disclosed herein, the first pivot portion 36A has a circular shape and essentially makes up half of the pivot mechanism 36. Similarly, the second pivot portion 36B is disposed at a proximate end 39A of the second arm 39. In the example embodiment disclosed herein, the second pivot portion 36B has a circular shape and essentially makes up the other half of the pivot mechanism 36. The first pivot portion 36A and the second pivot portion 36B are offset from each other such that when they are joined, they form a hinge having an elongated aperture defined therein. The rod 36C is then inserted through the elongated aperture formed by the joining of the first and second pivot portions 36A, 36B thereby pivotally securing the first clamp device 22 with the second clamp device 38.
In one or more embodiments, the pivot mechanism 36 allows the opening gap 60 between the door 54 and the door frame 56 to be adjusted by a user so that the door holding device 10 may be readily adapted to different applications (i.e., the pivot mechanism 36 allows the door holding device 10 to be easily adjustable so as to accommodate objects of varying size passing through the door opening gap 60). In addition, in one or more embodiments, the pivot mechanism 36 enables a person disposed on the side of the door holding device 10, which is opposite to the quick-release mechanism 12, to “punch out” the device 10 and “break” the pivot mechanism 36 (e.g., a firefighter trying to make a quick emergency exit from the building structure with fire and heat at his or her back). In these one or more embodiments, when the pivot mechanism 36 collapses, the door 54 is able to freely swing open because the door holding device 10 will no longer be holding the door 54 in the mostly closed position. In addition, the pivot mechanism 36 allows the door holding device 10 to be folded for easy transport, storage, and can be mated with other firefighting tools.
Referring to
Referring to
The personnel detection device 540 is configured to detect the presence and/or location of emergency response personnel (e.g., one or more firefighters) inside and/or outside a building in which the door holding device 10 is disposed. In one or more embodiments, the emergency response personnel detection system 540 may comprise one or more radio frequency identification readers or transmitters and/or one or more radio frequency identification tags. Each radio frequency identification tag may be attached to a respective person (e.g., a firefighter) and/or object (e.g., additional door holding devices or markers inside and/or outside the structure) disposed inside the building structure so that a presence and/or location of the person (e.g., a firefighter) is capable of being determined by the emergency response personnel detection system. In these one or more embodiments, the one or more components 540 of the emergency response personnel detection system that are disposed on the door holding device 10 may comprise the one or more radio frequency identification readers or transmitters of the system. In other embodiments, the personal detection device 540 can be configured to determine how long a firefighter has been inside the building and/or how long the firefighter had been inside if they are no longer inside the building and/or how long since they left the building.
In other embodiments, the personnel detection device 540 can detect and/or transmit data of a firefighter's bodily functions, for example, vital signs, such as but not limited to blood pressure, heart rate, respiratory rate, body temperature, etc.). Still further, the personnel detection device 540 can detect and/or transmit data on environmental conditions within a structure (e.g., temperature, relative temperature, temperature fluctuations, smoke composition, smoke density, ambient air gas composition (e.g., carbon monoxide, oxygen, natural gas, etc.), measurement of the ambient air gases, etc.).
As mentioned above, in the illustrative embodiment, the body assembly 20 of the door holding device 10 may be formed from a suitable plastic or metallic material, which is capable of being elastically deformed. In the illustrative embodiment, the plastic or metallic material, which is used for forming the body assembly 20 of the door holding device 10, is sufficiently strong to withstand the forces exerted on the door 54 by the fire hose 58 being dragged through the opening 60 between the door frame 56 and the door 54 (see
Advantageously, the door holding device 10 controls and limits the amount of air moving into a building structure by temporarily, or permanently holding a door in a mostly closed or other desired position during firefighting or other commercial or domestic operations and tasks. The door holding device 10 is capable of being deployed by a single firefighter or other person from either side of the door, thereby holding the door in place in a mostly closed position, while allowing fire hoses and firefighting personnel and equipment, or other persons or equipment, to pass through the threshold of the door. The quick-release mechanism 12 of the door holding device 10 described above allows a firefighter, or other person, to remove the device 10 with a gloved or ungloved hand in zero or clear visibility during an emergency egress situation or other situation. Because of its operability and efficacy, the door holding device 10 described above is an important life-saving tool for firefighters and other emergency response personnel. Advantageously, the door holding device 10 is capable of safely and reliably controlling both exterior and interior doors, inward and outward swinging commercial and residential doors, without disrupting their desired working objective.
It is readily apparent that the door holding device offers numerous advantages. First, the door holding device 10 described herein is capable of securely fixing a door in place, while resisting forces that commonly occur during firefighting operations, such as those forces created by the advancing of the fire hose. Advantageously, the door holding device 10 described herein allows a firefighting crew to restrict the amount a door will be able to swing open, and the device fixes the door in a predetermined position so that fire hose line may be advanced into the building structure to extinguish a fire. Second, the door holding device 10 incorporates a “quick release” feature to allow firefighting personnel to rapidly open the door and exit the structure with a minimal amount of manipulation. Finally, the door holding device 10 effectively restricts the amount of airflow through a door opening of the building structure and therefore, controls flow path while aiding in the restriction of fire growth. By controlling the flow path through the building, the door holding device 10 helps to keep fire growth in a reduced state, thereby allowing for a safer working environment for firefighters, and more time for victim rescue and conservation of civilian property.
In one or more embodiments, the door holding device 10 described herein may be deployed by a single member of the first firefighting crew to enter a building. Once deployed, it will fix a door in any desired position and will open only enough to allow for the entry of firefighters and fire hose lines to be advanced into the building. This will restrict the amount of air inflow, and therefore control the flow path, while aiding in restricting fire growth. Advantageously, the first and second clamp devices 22, 38 of the door holding device 10 are capable of being easily engaged and disengaged with the door 54 and door frame 56 so that the door holding device 10 can be positioned where needed.
The door holding device 10 is reusable for multiple door holding installations, but also may be used for a single use installation (e.g., if the device 10 is damaged in a building fire). In one or more embodiments, the door holding device 10 may be joined with other tools, equipment, and personal protective gear (i.e., firefighting equipment and gear), and may be carried on, and deployed by a single person (i.e., a single firefighter). The quick-release handle mechanism 12 of the door holding device 10 is easily releasable by a single hand of a person (i.e., one hand of a firefighter). Advantageously, the door holding device 10 is readily adaptable to virtually any door assembly, and is capable of withstanding the extreme temperatures and conditions of the firefighting environment (e.g., if the door holding device 10 is constructed of a durable metallic material). The door holding device 10 is able to be placed into use from either side of a door, while the user of the device 10 is either inside or outside of the building structure. As explained above, the door holding device 10 is capable of withstanding forces acting on the device 10 while it is in use (e.g., those forces generated by the movement of the fire hose by the firefighting personnel). Also, the door holding device 10 allows the door to withstand forces applied thereto while the device 10 is holding the door in place (e.g., those forces acting on the door as a result of the movement of the fire hose by the firefighting personnel).
The structure 650 can be any type of structure, such as but not limited to a residential dwelling, a commercial or industrial building, schools, churches, etc. In addition, the door holding device 600 can be used on an inward or out swinging door. Still further, the innovative door holding device allows firefighters to view smoke emitting from the doorway where the door holding device is applied, which allows the firefighters to observe changes in fire conditions throughout the emergency. Observation of changes in fire conditions is a very large variable in tactical decision making. Still further, more than one door holding device 600 can be used within a structure to limit and control the air flow into and/or within the building. For example, if one door holding device 600 is on the front door of a structure and another is on a door in a common hallway within the structure, the amount of air flow into and within the structure can be effectively controlled.
Referring to
The stationary part 718 has a second longitudinal axis A2 and extends from the distal end 716 of the longitudinal part 712 such that the first and second longitudinal axes A1, A2 are substantially perpendicular to each other. The stationary part 718 includes a stationary pad 730 (e.g., rubber pad) disposed on a face 731 thereon that includes teeth 732. The teeth 732 may be made from a rigid material, such as but not limited to metal, that are configured to bite into or grip the structure (e.g., door frame) when the pad 730 is compressed as will be described further below. In another embodiment, the teeth 732 may be an integrated part of the stationary part 718 and thus, integrated directly on the face 731 of the stationary part 718.
The support structure 750 includes a pair of fins 752 that extend along a third longitudinal axis A3 from each side of the longitudinal part 712 such that the first, second, and third longitudinal axes A1, A2, A3 are all substantially perpendicular to each other, see
In other embodiments, the wedges 760 can be used to hold the door 652 in a desired position when a U-shaped holder 816 (described below) is disengaged from the door 652 and the second arm assembly 800 is out of the way, as shown in
Still referring to
In one embodiment, the U-shaped holder 816 may be adjustable to accommodate the thickness of the door 652. In one embodiment, the bracket 822 may be configured to slide along the longitudinal part 810 to vary the size of the U-shaped holder 816. It is to be understood that most any suitable mechanical means may be used. For example, the U-shaped holder 816 may include adjustable side arms 819.
In another embodiment illustrated in
In one embodiment, the U-shaped holder may be securable to a door separately from the door holding device. The U-shaped holder may include many of the features of the door holding device and may be used in circumstances in which the door holding device is not needed or is not useable. For example, the U-shaped holder may include an anchor. In one embodiment, the anchor may include a cord, rope, etc. to be attached to a user (e.g., a firefighter). The cord may be pulled from the anchor and attached to the user or the anchor may be secured to the user and the cord secured to a portion of the U-shaped holder. The cord then acts as a guide for the user to find the door quickly. In one embodiment, the U-shaped holder may include an electronic wireless communicator as described below.
Referring again to
Referring to
The movable clamping mechanism 900 travels along the first longitudinal axis A1 of the longitudinal part 712 and includes a traveler 910 and clamp tightening device 930. The traveler 910 engages one or more sides of the longitudinal part 712 and is configured to slide along the longitudinal part 712. The traveler 910 includes a quick release lever 912 that facilitates quick movement of the traveler 910 along the longitudinal part 712. The quick release lever 912 engages the recesses 728 defined on one side of the track 726 to hold the traveler 910 (and accordingly, the movable clamping mechanism 900) in position when the door holding device 600 is attached to the structure 650. To move the traveler 910 and hence, the movable clamping mechanism 900 along the longitudinal part 712, the user presses the quick release lever 912 to disengage the quick release lever 912 from the recesses 728 defined in the track 726 and slides the movable clamping mechanism 900 along the longitudinal part 712. To reengage, the user simply releases the quick release lever 912 and a spring 913 biases the quick release lever 912 back into one of the recesses 728.
The traveler 910 further includes an extension part 914 that extends from the longitudinal part 712 substantially parallel to the stationary part 718. Thus, the extension part 914 and the stationary part 718 form an adjustable U-shaped clamp. A threaded aperture 916 is defined in the extension part 914 that facilitates the tightening of the door holding device 600 against the door frame 654 as will be described below.
The clamp tightening device 930 includes a threaded rod 932 threadedly disposed in the threaded aperture 916 and a handle (or knob) 934 having a switching lever 936 to switch the clamp tightening device 930 between a tightening state and a release state, and a movable pad 950. The threaded rod 932 threads through the threaded aperture 916 and attaches to a rear of the movable pad 950. During operation, the clamp tightening device 930, via movement of the handle 934, tightens the movable pad 950 against the door frame 654. Thus, during attachment of the door holding device 600 to the structure 650, the movable pad 950 compresses against the door frame 654, which in turn forces the stationary part 718 to compress against an opposite side of the door frame 654 to secure the door holding device 600 to the door frame 654. To release the door holding device 600 from the door frame 654, the user simply switches the switching lever 936 to the release position and ratchets the clamp tightening device 930 via the handle 934 to loosen the movable pad 950 from the door frame 654.
In addition, the handle 934 can include indicators (e.g., markings, color indicators, etc.) to allow firefighters to quickly recognize if the clamp tightening device 930 is in a ready position and set up to tighten to or removed from the door frame 654. The indicators can save time, which is critical in an emergency situation.
Similar to the stationary part 718, the movable pad (e.g., rubber pad) 950 includes teeth 952. The teeth 952 may be made from a rigid material, such as but not limited to metal, that are configured to bite into or grip the door frame 654 when the movable pad 950 is compressed against the door frame 654.
Referring to
The pivot device includes a first hinge 1002 having a first aperture 1004 defined therein and integrally attached to the distal end 722 of the stationary part 718 and a second hinge 1006 having a second aperture 1008 defined therein and integrally attached to the distal end 814 of the second longitudinal part 810. The pivot device 1000 further includes a band 1010 and a face (surface) 1012 having a first and second band apertures 1014, 1016 defined therein. The first and second hinges 1002, 1006 are connected to each other with the band 1010 and fasteners 1018 extend through the first and second apertures 1004, 1008 and through the respective first and second band aperture 1014, 1016. The pivot device 1000 allows the first and second arm assemblies 700, 800 to pivot with respect to each other, as illustrated by the double sided arrows in
Referring to
Still further, the wireless communicator 1100 can detect and/or transmit data on environmental conditions within a building (e.g., temperature, relative temperature, temperature fluctuations, smoke composition, smoke density, ambient air gas composition (e.g., carbon monoxide, oxygen, natural gas, etc.), measurement of the ambient air gases, etc. The wireless communicator 1100 may detect and/or transmit information regarding the pressure of gas in a breathing apparatus (e.g., a self-contained breathing apparatus). The wireless communicator may detect and/or transmit information, such as images and/or audio, from ancillary devices and tools. Such tools may include, but are not limited to, a camera, gas meter, mask, helmet, or protective equipment. In one embodiment, the wireless communicator may detect and/or transmit information regarding nozzle and/or flow performance for firefighting equipment (e.g., a firehose).
In one embodiment, the wireless communicator 1100 may be placed in or on the U-shaped holder 816. In one embodiment, the U-shaped holder 816 may be detachable from the door holding device. In this embodiment, the wireless communicator 1100 may remain in or on the U-shaped holder 816 even after the holder is detached.
Referring to
Referring to
In one embodiment, the door holding device 3000 according to an aspect of the innovation may include a sliding component(s) 3010. The door holding device may include a first arm assembly 3100 pivotally attached to a second arm assembly 3200, and a movable clamping mechanism 3300 that includes a sliding component 3010.
Referring to
The door holding device may include a holder (e.g., a spring steel clip 3026). In one embodiment, pivot device 3500 may include a hinge that is spring loaded and/or locked to maintain pressure from a spring steel clip 3026 on the door. This configuration may facilitate attachment to the door and minimize the possibility of accidentally dislodging the spring steel clip 3026 or causing it to shift. For example, a spring-loaded hinge may hold the spring steel clip 3026 in place while a fire hose is pulled past the door and may help prevent dislodgement or displacement via friction or impact with the door by the fire hose. In addition, the ability to lock the hinge in place may be useful in non-emergency circumstances such as for fire training scenarios.
Referring to
In one embodiment, the second arm assembly 3200 may include a door holder (e.g., spring steel clip 3026). This configuration may allow for efficient placement of the tool and/or allow for better fitting of the tool in the desired area. The spring steel clip 3026 may be at least partially coated with rubber or other material. In one embodiment, the clip is free of a coating. In one embodiment, the spring steel clip 3026 may be knurled. The spring steel clip 3026, like the holder described above, may be detachable from door holding device. In one embodiment, the spring steel clip 3026 may be configured to be detached when appropriate force is applied to facilitate egress through the door being held by the door holding device. For example, a user (e.g., a fire fighter) may pull on the door with a moderate amount of force to detach the clip 3026 (or any other holder as described herein) to permit quick egress through the door. In one embodiment, the spring steel clip may be adjustable so as to accommodate different door thicknesses. It is to be appreciated that any configuration described herein for a door holder, including a U-shaped door holder, may be used.
Referring still to
In one embodiment, any door holding device according to the innovation may include an attachment point 3027 (as is to be appreciated, it is understood to be located at any convenient point, for example as shown at AA, and for clarity, the details are shown separately) for attaching an anchor 3028. A user (e.g., emergency personnel) may use the attached anchor to assist them in finding the way back to the door holding device and, thus, out of the structure. In one embodiment, the anchor may include a pull cord 3029 (e.g., cord, string, rope, etc.) that allows the user to follow the cord/string/rope back to the door holding device. The pull cord may be attached to either the door holding device or the user. In one example, the anchor may include a securing portion (e.g., a clip, hook, etc.) for attaching to a user. For example, the user could pull the pull cord of the anchor and attach the securing portion (e.g., a clip) to clothing, equipment, etc. If needed, the user could follow the cord back to the door holding device to facilitate a quick exit from the building. In another example, the anchor may be attached to the user and secured to the door holding device via a securing point on the door holding device. For example, the door holding device may include a hook, clasp, d-ring, or other means for securing the anchor to the door holding device.
In one embodiment, the door holding device may include features to facilitate locating the door holding device by a user when the door holding device is in use. For example, the door holding device may include any suitable alarm (e.g., light and/or sound) such that a user (e.g., a firefighter) may quickly locate the door holding device and, thus, the door being held by the device. The door holding device may include reflective paint and/or tape.
Referring to
In one embodiment, the rotatable gripper pads may include ball detent sockets 3021A as shown in
As depicted in
In one embodiment, the sliding component may comprise a speed nut 3055, or referred to as a nut. The sliding component may include screw threading 3060 as part of a quick thread system. The quick thread system may include the nut on the bottom side of the sliding component wherein the nut may travel freely along the screw threads. In one embodiment, a slide button 3050 may be configured to control the movement of the nut (e.g., when the slide button is depressed, the nut may be moved along the length of the screw threading disengaged.) (See, e.g.,
In one embodiment, the slide button may be located on the sliding component of the movable clamping mechanism. When depressed, the screw threading of the sliding component disengages from the quick thread system, allowing for sliding of the sliding component. When released, the screw threads are again engaged, thus preventing the sliding component from sliding.
What has been described above includes examples of the innovation. It is, of course, not possible to describe every conceivable combination of components or methodologies for purposes of describing the subject innovation, but one of ordinary skill in the art may recognize that many further combinations and permutations of the innovation are possible. Accordingly, the innovation is intended to embrace all such alterations, modifications and variations that fall within the spirit and scope of the appended claims. Furthermore, to the extent that the term “includes” is used in either the detailed description or the claims, such term is intended to be inclusive in a manner similar to the term “comprising” as “comprising” is interpreted when employed as a transitional word in a claim.
This application is a Continuation-in-Part of pending U.S. patent application Ser. No. 15/411,766 entitled “Door Holding Device and Safety System” filed on Jan. 20, 2017, which claims the benefit of U.S. Provisional Patent Application Ser. No. 62/281,154 entitled “Door Holding Device, Particularly For Use By Firefighters and Other Emergency Response Personnel” filed on Jan. 20, 2016 and claims the benefit of U.S. Provisional Patent Application Ser. No. 62/769,986 entitled “Door Holding Device and Safety System” filed on Nov. 20, 2018. The entirety of each of the above-noted applications is incorporated herein by reference.
Number | Name | Date | Kind |
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1571543 | Fratzke | Feb 1926 | A |
2774622 | Priebe | Dec 1956 | A |
5865484 | Johns | Feb 1999 | A |
20060272365 | Copus | Dec 2006 | A1 |
20110192092 | Scott | Aug 2011 | A1 |
20160237725 | Raffi | Aug 2016 | A1 |
Number | Date | Country |
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10241264 | Jul 2004 | DE |
2968341 | Jun 2012 | FR |
Entry |
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Computer Generated Translation for FR 2968341 A1, Generated on May 21, 2019, https://worldwide.espacenet.com (Year: 2019). |
Number | Date | Country | |
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20200102774 A1 | Apr 2020 | US |
Number | Date | Country | |
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62769986 | Nov 2018 | US | |
62281154 | Jan 2016 | US |
Number | Date | Country | |
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Parent | 15411766 | Jan 2017 | US |
Child | 16689828 | US |