JP2020045594A - Working gloves - Google Patents

Abstract

To provide a working gloves having heat resistance, waterproofness, and heat insulation property.SOLUTION: A working glove 10 used for fire fighting activity comprises a glove body 1, a rechargeable battery 9, a second heating element 14 which generates heat by electric power, and a control device 11 which controls the amount of heat generated with the second heating element 14 by regulating the electric power supplied from the battery 9 to the second heating element 14. A back part and a palm part of the glove body 1 have inner layers 21 and 31 having heat resistance, waterproof layers 22 and 32 having waterproof property, and outer layers 25 and 33 having heat resistance, respectively, and these layers are laminated in this order from the side contacting with the hand. The second heating element 14 is arranged between the inner layer 21 and the waterproof layer 22 along the side face of the finger. In the glove body 1, a first housing part 6 having heat resistance and housing the control device 11 and a second housing part 5 having heat resistance and housing the battery 9 are integrally formed.SELECTED DRAWING: Figure 2

Description

  The present invention relates to work gloves used for firefighting activities.

  Gloves are used to protect hands from cold, burns, cuts and the like.

  For example, Patent Literature 1 discloses a glove for cold weather protection. The glove includes a heating wire sequentially and continuously attached along a side peripheral portion and an upper peripheral portion of the finger mounting portion, and a connector connected to the electric wire. Fever and warms hands.

  For example, Patent Literature 2 discloses a glove that protects a fireman's hand from burns and cuts.

JP 2011-94246 A JP, 2018-35462, A

  However, the prior art has the following problems. That is, gloves having a heat retaining function as described in Patent Literature 1 have been used in places that do not use fire, such as motorcycles, bicycles, mountain climbing, and outdoor sports. On the other hand, none of the gloves used by the fire brigade had heat insulation even though heat resistance and waterproofness were considered. Gloves used by firefighters were used in places where fires were handled, such as at fire sites, and it was thought that there was no need to keep them warm.

  However, firefighters wanted to keep their hands warm. When water is soaked in gloves at a fire site in winter, the hands are cooled, the sensation of the fingertips is paralyzed, firefighting equipment is misoperated, and it is difficult to fill out a report after firefighting activities, etc. This is because it could cause trouble. Therefore, there is room for improvement in work gloves used for firefighting activities.

  The present invention has been made to solve the above problems, and has as its object to provide a work glove having heat resistance, waterproofness, and heat retention.

  One embodiment of the present invention has the following structure. (1) In a working glove used for firefighting activities, a glove body in which a heat-resistant inner layer, a waterproof waterproof layer, and a heat-resistant outer layer are laminated in this order from the side that comes into contact with the hand. A rechargeable battery, disposed between the inner layer and the waterproof layer, along the side of the finger, a heating element that generates heat by electric power, and connected to the battery and the heating element, A control device for controlling the amount of heat generated by the heating element by adjusting electric power supplied from the battery to the heating element; and a heat-resistant control device that is provided integrally with the glove body and includes the battery and the control device. And an accommodating portion for accommodating the.

  In the working glove having the above configuration, heat resistance is ensured by the outer layer, and waterproofness is ensured by the waterproof layer, so that hands are prevented from being burned by fire or hot water. Even if the work glove gets wet, the heating element generates heat by being supplied with power from the battery and keeps warm by warming hands. Therefore, the worker is less likely to have a numbness of the fingertips, and can smoothly perform firefighting activities such as operation of fire extinguishing equipment and entry of a report after the fire extinguishing activity. Further, in the working glove having the above configuration, a heating element is disposed between the inner layer and the waterproof layer. Therefore, the heating element is not damaged by water wetting, and can generate heat even during a fire fighting operation using water. Further, since the control device and the battery are housed in a heat-resistant housing unit provided integrally with the work glove, the heating element can generate heat for a long time by the power of the battery, and the control device and the battery may be fired. Damage due to the heat of hot water can be prevented.

(2) In the work glove according to (1), the storage unit has heat resistance, and a first storage unit that is provided integrally with the glove body and stores the control device; A second accommodating portion that is provided integrally with the glove body and accommodates the battery. The control device is provided inside the outer layer and inside the first accommodating portion. And a heat-resistant cable that is detachably connected to the battery inside the second housing portion.

  In the work glove having the above configuration, the first storage section and the second storage section can be provided respectively suitable for the size of the control device and the battery. Therefore, the control device and the battery are provided in the first storage section and the second storage section. Each can be stably held. In addition, the heat-resistant cable connecting the control device and the battery separately housed in the first housing portion and the second housing portion is not exposed to the outside, so that the heat-resistant cable can be prevented from being damaged by heat or the like during the fire extinguishing activity. .

(3) In the work glove described in (1) or (2), the glove body includes a palm side located on a palm side and a back side located on a back side of a hand along a side surface of the hand. Being sewn, the palm side portion being, in order from the side contacting the palm, the inner layer, the waterproof layer, and the outer layer having heat resistance and non-slip properties laminated on the palm side The back side portion, in order from the side in contact with the back of the hand, the inner layer, the waterproof layer, a heat insulating layer having heat insulation, a heat resistant layer having heat resistance, and a heat resistant layer having heat resistance and cut resistance. It is preferable that the heating element is a laminate of an outer layer and the heating element is disposed between the inner layer and the waterproof layer at the instep side.

  In the work glove having the above configuration, the number of layers on the palm side is smaller than the number of layers on the back side, and the heating element is arranged on the back side. Further, since the heating element is provided on the side closer to the back of the hand than the heat insulating layer, the heat generated by the heating element does not easily escape to the outside of the work gloves, and the heat insulating effect is high. Furthermore, since the back side is provided with a heat-resistant layer having heat resistance and an outer layer having heat resistance and cut resistance on the outside of the heat-insulating layer, it is possible to prevent burns and injuries during fire fighting activities. On the other hand, in the working glove, since the outer layer has heat resistance and non-slip properties on the palm side, the hand does not slip easily when using a rope, a ladder, a hose, or the like.

(4) In the work glove described in (3), it is preferable that the back side is provided with shirring in a portion corresponding to a finger joint in the outer layer.

  In the work glove having the above configuration, the back side has a greater number of layers than the palm side and is provided with a heating element. However, in the work glove having the above configuration, since the shirring is provided in a portion corresponding to the finger joint in the outer layer on the instep side, the hand or finger can be easily moved, and the work can be easily performed.

  According to the present invention, a working glove having heat resistance, waterproofness, and heat retention can be realized.

It is a key map of work gloves concerning one embodiment of the present invention. It is the figure which looked at the work glove from the instep side part. It is the figure which looked at the working glove from the palm side. FIG. 3 is a view of the work glove illustrated in FIG. 2 as viewed from the right in the figure.

  Hereinafter, an embodiment of a work glove according to the present invention will be described with reference to the drawings.

  FIG. 1 is a conceptual diagram of a working glove 10 according to one embodiment of the present invention. FIG. 1 shows the left-hand work glove 10, but the right-hand work glove is similarly configured. The work glove 10 includes a bag-shaped glove body 1 shaped like a hand. The glove body 1 has a first heating element 13 laid along the back of the hand, and a second heating element 14 disposed along the sides of the hand and fingers. The second heating element 14 is an example of a “heating element”.

  The first heating element 13 and the second heating element 14 generate heat by electric power. The first heating element 13 and the second heating element 14 are connected to the control device 11. The control device 11 is connected to the battery 9 via a heat-resistant cable 15. The control device 11 controls the amount of heat generated by the first heating element 13 and the second heating element 14 by adjusting the power supplied from the battery 9 to the first heating element 13 and the second heating element 14. The battery 9 is a rechargeable battery, and is detachably connected to the connector 12 of the heat-resistant cable 15.

  The control device 11 is housed in a first housing 6 provided integrally with the glove body 1. The battery 9 is housed in the second housing 5 provided integrally with the glove body 1. The first storage section 6 and the second storage section 5 have heat resistance and protect the control device 11 and the battery 9 from heat.

  As shown in FIG. 4, the glove body 1 includes a back side portion 2 located on the back side of the hand and a palm side portion 3 located on the palm side. The upper part 2 and the palm part 3 are each formed in the shape of a hand. The glove body 1 is formed in a bag shape by sewing a part of the peripheral part of the upper part 2 and a part of the peripheral part of the palm part 3 with a suture having fire resistance.

  As shown in FIG. 2, on the back side 2, an inner layer 21, a waterproof layer 22, a heat insulating layer 23, a heat resistant layer 24, and an outer layer 25 are laminated in this order from the back side (inside) of the hand.

  The inner layer 21 is a layer having heat resistance that is not damaged by heat. The inner layer 21 is made of, for example, a heat-resistant thin cloth such as Kevlar. The waterproof layer 22 is a layer having waterproof properties that does not allow water to pass through. The waterproof layer 22 is formed of, for example, a material having a waterproof property such as vinyl chloride. The heat insulating layer 23 is a layer having heat insulating properties. The heat insulating layer 23 is formed of a material having heat insulating properties and waterproofness, such as a material obtained by evaporating aluminum on cloth. The heat-resistant layer 24 is a layer having heat resistance that is not damaged by heat. The heat-resistant layer 24 is formed of a material having heat resistance, such as felt and cotton of heat-resistant fiber. The outer layer 25 is a layer having heat resistance and cut resistance. The outer layer 25 is made of, for example, a thick cloth having heat resistance and cutting resistance such as Kevlar. The outer layer 25 is thicker than the inner layer 21 and prevents hand injury.

  The instep side 2 has a first heating element 13 and a second heating element 14 disposed between an inner layer 21 and a waterproof layer 22, and the first heating element 13 is formed from water soaked in an outer layer 25 and a heat-resistant layer 24. And the second heating element 14 are protected.

  A first housing part 6 and a second housing part 5 are provided integrally on the instep side part 2.

  The first accommodating portion 6 includes an opening / closing piece 61 and a hook-and-loop fastener 62. The opening / closing piece 61 is formed of, for example, a heat-resistant cloth in a rectangular shape like the outer layer 25, and one side thereof is sewn to the outer layer 25 using a heat-resistant suture. In the hook-and-loop fastener 62, the loop portion 62 a is sewn to the opening / closing piece 61, the hook portion 62 b is sewn to the outer layer 25, and the opening / closing piece 61 is brought into close contact with the outer layer 25.

  The control device 11 is covered with a heat-resistant material. The control device 11 is exposed from a hole 62bx formed in the center of the hook 62b. Therefore, in the first housing portion 6, the loop portion 62a and the hook portion 62b are attached to each other at the peripheral portion of the control device 11, and the control device 11 is covered with the opening / closing piece 61 to protect it from heat.

  The control device 11 includes a display unit 111, a switch 112, and a control circuit 113. The switch 112 is a push-type operation button. The control circuit 113 receives the operation of the switch 112, and adjusts the power supplied from the battery 9 to the first heating element 13 and the second heating element 14 in accordance with the operation of the switch 112, thereby controlling the first heating element 13 and the second heating element 14. The heating value (temperature) of the heating element 14 is controlled. Further, the control circuit 113 changes the lighting state of the display unit 111 according to the operation of the switch 112.

  The second accommodating portion 5 includes a bag body 51, a lid body 52, and a hook-and-loop fastener 53. The bag body 51 is provided in such a size that the battery 9 connected to the connector 12 can be completely inserted without providing much clearance. The bag body 51 is formed of, for example, a heat-resistant cloth like the outer layer 25, and is sewn to the outer layer 25 using a heat-resistant suture so as to open on one side. The opening of the bag body 51 is opened in the direction opposite to the finger side, so that sparks and water are less likely to enter during fire extinguishing activities.

  The lid 52 is made of, for example, a heat-resistant cloth formed in a rectangular shape in the same manner as the outer layer 25, and has heat resistance so as to overlap the bag 51 and close the opening of the bag 51. One side is sewn to the outer layer 25 by using the sutures. The hook-and-loop fastener 53 joins the lid body 52 and the bag body 51 by bonding a loop part 53a sewn to the bag body 51 and a hook part 53b sewn to the lid body 52. Since the second housing 5 covers the battery 9 and the connector 12 so as not to be exposed to the outside, the battery 9 and the connector 12 can be protected from heat during a fire extinguishing activity.

  The heat-resistant cable 15 is laid inside the outer layer 25 (the back side, the side near the hand). One end of the heat-resistant cable 15 is connected to the control device 11 inside the first housing 6. Further, the other end of the heat-resistant cable 15 is pulled out to the outside (front side) of the outer layer 25 inside the bag body 51, and a connector 12 detachably connected to the battery 9 is integrally provided. Therefore, the heat-resistant cable 15 is covered with the outer layer 25, the first housing portion 6, and the second housing portion 5 and is not exposed to the outside, and is protected from heat.

  The instep side portion 2 is provided with a shearing in a portion 2A corresponding to the finger joint in the outer layer 25. Then, in a portion 2 </ b> B between the finger joint and the wrist, the first heating element 13 is laid between the inner layer 21 and the waterproof layer 22. The second heating element 14 is laid between the inner layer 21 and the waterproof layer 22 along the periphery of the instep side 2. Therefore, the first heating element 13 and the second heating element 14 are disposed in portions that are relatively unobstructed when the hand is opened and closed, and disconnection and damage are prevented.

  For the first heating element 13 and the second heating element 14, it is preferable to use a carbon fiber that is hardly disconnected and has a far-infrared effect. This is because the first heating element 13 and the second heating element 14 can be prevented from being disconnected during the firefighting activity and impairing the heat generation / heating function of the work glove 10.

  As shown in FIG. 3, the palm side portion 3 has an inner layer 31, a waterproof layer 32, and an outer layer 33 laminated in this order from the side contacting the palm. The inner layer 31 and the waterproof layer 32 are provided in the same manner as the inner layer 21 and the waterproof layer 22 of the upper part 2. The outer layer 33 is a layer having heat resistance and non-slip properties. The outer layer 33 is formed of, for example, suede obtained by processing cowhide. In the outer layer 33, a reinforcing portion 3A for enhancing anti-slip properties is provided below the little finger to make it easier to handle a hose or the like.

  The glove body 1 includes an adjusting unit 4 that adjusts an opening portion of the wrist in order to prevent hot water or the like from entering between the inner layers 21 and 31 and the hand. The adjusting unit 4 includes a belt portion 41 and a hook-and-loop fastener 42. The belt portion 41 is formed of a heat-resistant cloth, and has one end sewn to the glove body 1. The hook-and-loop fastener 42 has a loop part 42a sewn on the palm side part 3, a hook part 42b is sewn on the belt part 41, and the position where the loop part 42a and the hook part 42b are stuck together is adjusted. Can be brought into close contact with the wrist.

  An example of use of the work glove 10 of the present embodiment will be described. The work glove 10 is configured similarly for the left hand and the right hand. For example, when performing fire extinguishing or fire extinguishing training at a fire site, a fire brigade wears working gloves 10 in both hands. Since each work glove 10 is operated and operated in the same manner, the work glove 10 will be generically described here without distinguishing left and right.

  For example, in summer, the battery 9 used for keeping the temperature of the work glove 10 is removed from the connector 12 and is not stored in the second storage unit 5. The second accommodating portion 5 closes the opening of the bag body 51 with the lid 52 using the hook-and-loop fastener 53 in a state where the connector 12 is housed in the bag body 51. Therefore, the connector 12 is not exposed to the outside of the second housing part 5 during the firefighting activity, and is not damaged by heat or hinders the firefighting activity.

  On the other hand, in winter, the battery 9 of the work glove 10 is connected to the connector 12 and is housed in the second housing 5. When a firefighter presses the switch 112 of the control device 11 for a long time, the control device 11 is activated. Then, the display unit 111 is turned on to notify the fire brigade member that the heat retention has started.

  When the fire brigade member presses the control device 11 for a short time, the control device 11 sequentially switches the set temperature according to the number of times the switch 112 is pressed. The lighting color of the display unit 111 changes according to the switching of the set temperature. Since the control device 11 can be activated and the temperature can be set by pressing the switch 112, the firefighter can easily operate the switch 112 while holding the working gloves 10 in both hands to adjust the temperature to an arbitrary temperature. When the temperature setting is completed, the fire brigade member connects the loop portion 62a of the opening / closing piece 61 to the hook portion 62b, and covers the control device 11 with the opening / closing piece 61. Since the hook-and-loop fastener 62 is used, the firefighter can easily cover the control device 11 with the opening / closing piece 61 even in an emergency.

  When the set temperature is determined, the control device 11 adjusts the power of the battery 9 according to the set temperature and supplies it to the first heating element 13 and the second heating element 14, and the first heating element 13 and the second heating element 14 To generate heat. The heat generated from the first heating element 13 and the second heating element 14 does not escape to the outside of the heat retaining layer 23 and heats the air inside the inner layer 21. Therefore, the fire brigade member can efficiently warm the back of the hand and the fingertip.

  The firefighter operates the fire extinguishing equipment while wearing the work gloves 10. At this time, even if the work glove 10 is splashed with water, the firefighter's hands are kept warm by the work glove 10. Therefore, the firefighter can operate the fire extinguishing system by moving his finger finely without the paralysis of his fingertips during the firefighting operation. Since the first heating element 13 and the second heating element 14 are provided on the inner side (the back side of the hand) of the waterproof layer 22, even if the working glove 10 is wet with hot water or fire-fighting water, the occurrence or damage of electric leakage is prevented. Is prevented.

  During operation, firefighters may grab or grip hot iron or glass shards. Even in this case, since the work glove 10 is covered with the heat-resistant layer 24 and the outer layers 25 and 33 having heat resistance and cut resistance, it is hard to be burned or damaged. Moreover, since the outer layer 33 of the palm side part 3 has a non-slip property, firefighters can easily work.

  In the working glove 10, the battery 9 and the control device 11 are housed in the second housing part 5 and the first housing part 6 having heat resistance, and are not exposed to the outside. The heat-resistant cable 15 is provided inside the outer layer 25 and is not exposed to the outside. Therefore, the work glove 10 can prevent the battery 9, the control device 11, and the heat-resistant cable 15 from being damaged by heat during the work, so that the heat cannot be kept.

  After the fire fighting, the fire brigade removes the work gloves 10 and writes a report. Because the hands are warmed during the work, the firefighters can fill out the report smoothly.

  When the operation is completed, the fire brigade member turns over the opening / closing piece 61, presses and holds the control device 11, and stops the control device 11. As a result, the display unit 111 is turned off, so that the fire brigade members can confirm that the temperature is not kept. Then, the firefighter removes the work glove 10 from his hand, turns over the lid 52, takes out the battery 9 from the bag body 51, and removes the connector 12 from the battery 9. Then, the firefighter sets the battery 9 in a charger (not shown) and charges it. When charging is completed, the fire brigade removes the battery 9 from a charger (not shown), connects the battery 9 to the connector 12, and stores the battery 9 in the second storage section 5. Since the second storage section 5 can be opened and closed using the hook-and-loop fastener 53, the fire brigade can easily take out and store the battery 9.

  The work glove 10 described above includes (1) the heat-resistant inner layers 21 and 31 and the waterproof waterproof layer 22 in the working glove 10 used for firefighting activities, in order from the side in contact with the hand. , 32, the glove body 1 on which the heat-resistant outer layers 25, 33 are laminated, the rechargeable battery 9, and the inner layer 21 and the waterproof layer 22 along the side of the finger. The amount of heat generated by the second heating element 14, which is connected to the second heating element 14 that generates heat by electric power, is connected to the battery 9 and the second heating element 14, and adjusts the power supplied from the battery 9 to the second heating element 14. And a first and second housing portions 6 and 5 that have heat resistance and are provided integrally with the glove body 1 and house the battery 9 and the control device 11, It is characterized by.

  In such a work glove 10, heat resistance is secured by the outer layers 25 and 33, and waterproofness is secured by the waterproof layers 22 and 32, so that hands are prevented from being burned by fire or hot water. . Even if the work glove 10 gets wet, the first heating element 13 and the second heating element 14 are supplied with electric power from the battery 9 to generate heat, warm the hand, and keep warm. Therefore, the firefighters are less likely to have a numbness of the fingertips, and can smoothly perform firefighting activities such as operating fire extinguishing equipment and writing a report after the firefighting activity. In the working glove 10 of the present embodiment, the first heating element 13 and the second heating element 14 are disposed between the inner layer 21 and the waterproof layer 22. Therefore, the first heating element 13 and the second heating element 14 are not damaged by water wetting, and can generate heat even during a fire fighting operation using water. Further, since the control device 11 and the battery 9 are housed in the first and second housing sections 6 and 5 having heat resistance provided integrally with the work glove 10, the first heating element 13 and the second heating element are provided. The battery 14 can generate heat for a long time with the power of the battery 9, and the control device 11 and the battery 9 can be prevented from being damaged by heat of fire or hot water.

(2) In the working glove 10 described in (1), the housing section has heat resistance, and the first housing section 6 that is provided integrally with the glove body 1 and houses the control device 11, A second housing part 5 that is provided integrally with the glove body 1 and houses the battery 9. The second housing part 5 is provided inside the outer layer 25 and is controlled inside the first housing part 6. It is preferable to have a heat-resistant cable 15 that is connected to the device 11 and is detachably connected to the battery 9 inside the second housing portion 5.

  In the work glove 10 having the above configuration, the first storage section 6 and the second storage section 5 can be provided suitable for the size of the control device 11 and the battery 9, respectively. 5 can stably hold the control device 11 and the battery 9 respectively. Also, the heat-resistant cable 15 connecting the control device 11 and the battery 9 separately housed in the first housing part 6 and the second housing part 5 is not exposed to the outside. Damage can be avoided.

(3) In the work glove 10 described in (1) or (2), the glove body 1 includes the palm side 3 located on the palm side and the back side 2 located on the back side of the hand, and the side of the hand. The palm side part 3 is obtained by laminating an inner layer 31, a waterproof layer 32, and an outer layer 33 having heat resistance and non-slip properties in order from the side in contact with the palm. The back side portion 2 includes, in order from the side that comes into contact with the back of the hand, an inner layer 21, a waterproof layer 22, a heat insulation layer 23 having heat insulation, a heat insulation layer 24 having heat resistance, a heat resistance layer 24 having heat resistance, and heat resistance and cut resistance. The first heating element 13 and the second heating element 14 are provided between the inner layer 21 and the waterproof layer 22 at the upper side 2. Is preferred.

  In such a working glove 10, the number of layers on the palm side 3 is smaller than the number of layers on the back side 2, and the first heating element 13 and the second heating element 14 are arranged on the back side 2. So it is easy to move your hands and fingers. Further, since the first heating element 13 and the second heating element 14 are provided on the side closer to the back of the hand than the heat insulating layer 23, the heat generated by the first heating element 13 and the second heating element 14 is not applied to the work gloves 10. It is hard to escape outside and has high heat retention effect. Further, the back side 2 is provided with a heat-resistant layer 24 having heat resistance and an outer layer 25 having heat resistance and cut resistance outside the heat-insulating layer 23, thereby preventing burns and injuries during firefighting activities. it can. On the other hand, in the working glove 10, since the outer layer 33 has heat resistance and non-slip properties on the palm side part 3, the hand does not slip easily when using a rope, a ladder, a hose, or the like.

(4) In the work glove 10 described in (3), it is preferable that the back part 2 is provided with shearing in a portion 2A corresponding to the finger joint in the outer layer 25.

  In the work glove 10, the back side 2 has more layers than the palm side 3 and the first heating element 13 and the second heating element 14 are provided. Thicker and less deformable. However, the work glove 10 of the present embodiment is provided with the shearing on the portion 2A corresponding to the finger joint in the outer layer 25 of the instep side portion 2, so that it is easy to move hands and fingers and to perform work easily.

  It should be noted that the present invention is not limited to the above embodiment, and various applications are possible.

  For example, in the above-described embodiment, the heat insulating layer 23 and the heat-resistant layer 24 are provided on the upper part 2, and the number of layers of the upper part 2 is larger than the number of layers of the palm part 3. On the other hand, the number of layers may be the same in the back part 2 and the palm part 3. The type of layer is not limited to this as long as it satisfies the guidelines for personal fire prevention equipment for fire brigade members.

  For example, the first heating element 13 may be omitted, and only the second heating element 14 may be provided.

  For example, the configurations of the first storage section 6 and the second storage section 5 are not limited to the above. For example, the opening / closing piece 61 and the lid 52 may be fixed by a different method from the hook-and-loop fasteners 62 and 53.

  For example, there may be no shirring.

  For example, the control device 11 and the battery 9 may be housed in one housing unit. In this case, the heat-resistant cable 15 may be provided between the outside of the outer layer 25 and the housing, and may be protected from heat by the housing. However, as described above, by storing the control device 11 and the battery 9 in the first storage portion 6 and the second storage portion 5, respectively, the first storage portion 6 and the second storage portion 5 are respectively connected to the control device 11 and the control device 11. Since it is possible to make the size suitable for the battery 9, the control device 11 and the battery 9 can be stably held in the first housing portion 6 and the second housing portion 5, respectively. Also, a heat-resistant cable 15 for connecting the control device 11 and the battery 9 is provided inside the outer layer 25, connected to the control device 11 inside the first housing portion 6, and connected to the battery 9 inside the second housing portion 5. By doing so, the heat-resistant cable 15 connecting the control device 11 and the battery 9 separately housed in the first housing part 6 and the second housing part 5 is not exposed to the outside, and the heat-resistant cable 15 is heated during the fire extinguishing activity. Such damage can be avoided.

DESCRIPTION OF SYMBOLS 1 Glove main body 2 Upper part 3 Palm part 6 First storage part 5 Second storage part 9 Battery 11 Control device 15 Heat resistant cable 21, 31 Inner layer 22, 32 Waterproof layer 25, 33 Outer layer

Claims (4)

In work gloves used for firefighting activities,
In order from the side in contact with the hand, a heat-resistant inner layer, a waterproof waterproof layer, and a glove body in which a heat-resistant outer layer is laminated,
Rechargeable batteries,
Between the inner layer and the waterproof layer, disposed along the side of the finger, a heating element that generates heat by electric power,
A control device that is connected to the battery and the heating element and controls a heating value of the heating element by adjusting power supplied from the battery to the heating element;
It has heat resistance, and a housing part that is provided integrally with the glove body and houses the battery and the control device,
Having
Work gloves characterized by the following. The work glove according to claim 1,
The accommodating section,
A first housing part that has heat resistance and is provided integrally with the glove body and houses the control device;
A second housing part that has heat resistance and is provided integrally with the glove body and houses the battery;
Having
Having a heat-resistant cable provided inside the outer layer, connected to the control device inside the first housing portion, and detachably connected to the battery inside the second housing portion;
Work gloves characterized by the following. In the work glove according to claim 1 or 2,
The glove body, the palm side located on the palm side, and the back side located on the back side of the hand, are sewn along the side of the hand,
The palm side portion, in order from the side in contact with the palm, the inner layer, the waterproof layer, and the outer layer having heat resistance and non-slip properties are laminated,
The back side portion is, in order from the side in contact with the back of the hand, the inner layer, the waterproof layer, a heat insulating layer having heat insulation, a heat resistant layer having heat resistance, and the outer having heat resistance and cut resistance. That are laminated with a layer,
The heating element is disposed between the inner layer and the waterproof layer at the instep side,
Work gloves characterized by the following. The work glove according to claim 3,
The instep side, in the portion corresponding to the finger joint of the outer layer, is provided with shearing,
Work gloves characterized by the following.