JP6574977B2 - Heating mat - Google Patents

Description

  The present invention relates to a configuration of a mat for a bedding having a heating function.

  Conventionally, this type of heating mat includes an upper layer portion provided with a three-dimensional cushioning material in which hexagonal honeycomb shapes are continuously arranged in a plane direction on the lower surface of the outer surface, and a heater blanket provided with heater wires. It comprises an intermediate layer portion and a lower layer portion provided with a lining on the lower surface of a cushion material similar to the upper layer portion, and is configured by laminating an upper surface layer portion, an intermediate layer portion, and a lower layer portion so as to be seated (for example, Patent Document 1).

  FIG. 11 is a sectional view showing a configuration of a conventional heating mat described in Patent Document 1, and FIG. 12 is a perspective view showing a detailed configuration of a cushion material of the heating mat. As shown in FIG. 11, the heating mat is formed by laminating an outer layer 1 and an upper layer portion made of a cushion material of a three-dimensional structure, an intermediate layer portion 4 made of a heater blanket, and a lower layer portion 6 made of a cushion material 2 and a backing material 5. Configured.

  Further, as shown in FIG. 12, the cushion material 2 is a three-dimensionally woven fabric of fibers in a hexagonal honeycomb shape, and cavities are mainly formed in the vertical direction due to the hexagonal honeycomb shape.

Japanese Patent No. 2929263

  However, in the conventional configuration, the cavity of the cushion material is mainly arranged in the vertical direction, and the cavity that is the air flow path has the vertical direction, so the heat generated from the heater wire of the intermediate layer is , It tends to be transmitted mainly in the vertical direction and is difficult to spread in the horizontal direction. For this reason, there is a high possibility that temperature unevenness occurs in the vicinity of the heater wire and other portions, and there is still room for improvement from the viewpoint of comfort.

  The present invention has been made in view of the above-described problems of the prior art, and provides a comfortable heating mat that suppresses temperature unevenness by causing heat to be transmitted substantially uniformly in all directions inside the cushion material. With the goal.

In order to solve the above-described conventional problems, the heating mat of the present invention includes an elastic cushion material, a heater unit laminated on the cushion material, and a heater unit provided between two cloths, A cushion material and a cover for accommodating the laminate of the heater unit, and the cushion material is formed of a three-dimensional three-dimensional network body in which resin fibers are bent three-dimensionally at random, inside the three-dimensional three-dimensional network body. Has a hollow portion communicating in a three-dimensional random direction, and includes a closing member that closes the opening of the hollow portion of at least the outer peripheral end surface of the cushion material, and the closing member is installed on a cover facing at least the outer peripheral end surface of the cushion material It has been done.

Thereby, moderate cushioning properties can be obtained with the cushioning material. In addition, the heat of the heater unit is suppressed from being transmitted downward due to the air insulation effect of the cushion material, so that energy saving can be improved, and the heat generated by the heater wire is three-dimensional randomly inside the cushion material. By spreading over a wide range of directions, it is possible to equalize the temperature of the wide range of the heating mat, and it is possible to suppress wasteful heat dissipation to the outside of the heating mat by the blocking member, and comfort And a heating mat with high energy saving can be provided.

  The heating mat of the present invention can improve heat uniformity and energy saving.

The perspective view which mounted the heating mat in Embodiment 1 of this invention on the bed The disassembled perspective view of the main body of the heating mat in Embodiment 1 of this invention Sectional drawing of the main body of the heating mat in Embodiment 1 of this invention 1 is an external perspective view of a heater unit according to Embodiment 1 of the present invention. Schematic diagram of heater wire in Embodiment 1 of the present invention The schematic diagram which shows the structure of the cushioning material in Embodiment 1 of this invention. The schematic diagram which shows the use condition of the heating mat in Embodiment 1 of this invention. The disassembled perspective view of the main body of the heating mat in Embodiment 2 of this invention Sectional drawing of the main body of the heating mat in Embodiment 2 of this invention The schematic diagram which shows the use condition of the heating mat in Embodiment 2 of this invention. Sectional drawing which shows the structure of the conventional heating mat The perspective view which shows the structure of the cushion material of the conventional heating mat

According to a first aspect of the present invention, there is provided a cushioning material having elasticity, a heater unit laminated on the cushioning material and provided with a heater wire between two cloths, and a laminate of the cushioning material and the heater unit. The cushion material is formed of a three-dimensional solid network body in which resin fibers are randomly bent three-dimensionally, and the three-dimensional solid network body has a three-dimensional random direction. A heating member provided on a cover facing at least the outer peripheral end surface of the cushioning material, and a closing member closing the opening of the hollow portion of at least the outer peripheral end surface of the cushioning material. Matt.

  Thereby, moderate cushioning properties can be obtained with the cushioning material. In addition, the heat of the heater unit is suppressed from being transmitted downward due to the air insulation effect of the cushion material, so that energy saving can be improved, and the heat generated by the heater wire is three-dimensional randomly inside the cushion material. By spreading over a wide range of directions, it is possible to equalize the temperature of the wide range of the heating mat, and it is possible to suppress wasteful heat dissipation to the outside of the heating mat by the blocking member, and comfort And a heating mat with high energy saving can be provided.

In addition, energy saving can be improved with a simpler configuration, and productivity and cost reduction can be achieved.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. Note that the present invention is not limited to the embodiments.

(Embodiment 1)
<1> Configuration of Heating Mat FIG. 1 is a perspective view showing a usage pattern in which the heating mat in the present embodiment is installed on a bed, FIG. 2 is an exploded perspective view showing the configuration of the main body, and FIG. 4 is a perspective view showing the appearance of the heater unit, FIG. 5 is a schematic view showing the heater wire of the heater unit, and FIG. 6 is a schematic view showing the detailed structure of the cushion material. FIG.

  The heating mat 100 according to the present embodiment includes a heater unit therein, and includes a substantially rectangular mat-shaped main body 200 having a vertical dimension of about 200 cm and a horizontal dimension of about 100 cm, and a controller 600 connected via a connector 630. It is a heating appliance that is provided and used as a bedding placed on the bed 110.

  As shown in FIG. 1, a substantially rectangular main body 200 is placed on a mat 111 of a bed 110, and a connector plug 631 of a controller 600 is connected to a connector receiving portion 632 provided near the short side of the upper surface of the main body 200. Used.

  In the following description, the arrangement on the head side of the bed 110 is upward, the one on the leg side is downward, the right side when viewed from the top side is the right side, and the left side when viewed from the top side is the left side. To do.

  As shown in FIGS. 2 and 3, the main body 200 accommodates the heater unit 300, the base cushion material 400 disposed below the heater unit 300, and the entire laminate of the heater unit 300 and the base cushion material 400. The cover 500 is a main component.

  The heater unit 300 sews the outer peripheral part and the central part of the laminated body of two substantially rectangular blankets 310 with sewing threads, so that the heater wire 320 is inserted into a tunnel-shaped insertion path formed in a portion that is not sewn. By being inserted and arranged, the heater wire 320 is meandered over substantially the entire surface of the blanket 310.

  In addition, two coupling cords 311 are installed at each of the four corners of the blanket 310. By connecting the coupling cord 311 to the coupling holes 401 provided at the four corners of the base cushion material 400, the heater unit 300 is connected. The base cushion material 400 can be fixed at a predetermined position. In addition, the position of the heater unit 300 can be prevented from shifting during use.

  As shown in FIG. 4, the heater wire 320 is basically arranged so as to meander in the vertical direction of the blanket 310. The heater wire 320 is provided with a small arrangement pitch P1 at the center of the heater unit 300 and a large arrangement pitch P2 at both sides. In addition, the upper part of the blanket 310 is provided with the heater wire 320 on both sides to the vicinity of the upper end of the blanket 310, whereas the central part is provided with the heater wire 320 only in a range below the both sides. ing.

By disposing the heater wire 320 as described above, the calorific value of the central part where the user mainly lies at bedtime can be increased from both sides, and an effective heating effect can be provided to the user. In addition, by reducing the heating capacity of the upper central portion where the user's head is arranged, a comfortable heating effect of head cold foot heat can be provided.

  As shown in FIG. 4, both end portions of the heater wire 320 are connected to a connector receiving portion 632 installed in the vicinity of the short side of the blanket 310. As shown in FIG. 1, the connector receiving portion 632 is configured such that a connector plug 631 connected to the tip of the connection cord 620 of the controller 600 can be detachably connected from the short side. A connector 630 is configured by the connector receiving portion 632 installed in the heater unit 300 and the connector plug 631 installed in the controller 600.

  As shown in FIG. 5, the heater wire 320 has a heating wire 322 spirally wound around a central glass fiber 321, an insulating layer 323 is formed of nylon resin on the outer periphery thereof, and a temperature is formed on the outer periphery of the insulating layer 323. A temperature detection wire 324 containing nickel as a main component is wound in a spiral shape, and a jacket is formed of a PVC insulating layer 325 on the outer periphery thereof.

  The heater wire 320 can generate heat by being energized from both ends of the heating wire 322, and the temperature detection wire 324 detects a temperature change of the heater wire 320 by detecting a change in resistance value between the both ends. The heater wire 320 has two functions of a heating function and a temperature detection function.

  As shown in FIG. 6, the base cushion material 400 is formed in a three-dimensional three-dimensional network by bending polyester resin fibers 410, which are thermoplastic resins having elasticity, three-dimensionally and randomly. It is the three-dimensional solid network body which joined the contact part of this by heat welding. In the three-dimensional solid network, a hollow portion 420 is formed in the gap between the resin fibers 410 serving as a skeleton. The cavity 420 is not limited to a specific directionality, and is formed so as to communicate at random in all three-dimensional directions, and the direction of the cavity 420 through which air flows is not limited. For this reason, the air inside the cavity 420 is configured to have good air permeability so that it can be circulated under substantially equal conditions in all directions.

  As described above, the three-dimensional three-dimensional net-like base cushion material 400 having many hollow portions 420 therein has a heat insulation effect by air insulation as a basic performance, and is installed above the base cushion material 400. The heater unit 300 has a function of suppressing heat transfer to the mat 111 of the lower bed 110 and improving energy saving.

  Further, the resin fiber 410 constituting the base cushion material 400 is a material having elasticity, and the base cushion material 400 has an appropriate cushioning property. When the user lies on the main body 200, the body fiber directly The portion on which is placed has an appropriate cushioning property that is slightly recessed downward, and the cavity 420 of the base cushion material 400 is not completely sealed.

  The outer dimensions of the base cushion material 400 are approximately 200 cm in length, 100 cm in width, and 3 cm in thickness, which are approximate to the outer dimensions of the mat 111 of the bed 110, and the overall density of the base cushion material 400 is about 50 kg / m3.

  As shown in FIGS. 3 and 6, a closing member 430 formed of a substantially U-shaped resin sheet extends from the upper surface to the end surface and the lower surface of the base cushion material 400 at the outer peripheral end portion of the base cushion material 400. It is bonded and fixed over the circumference. Thus, the air inside the hollow portion 420 of the base cushion material 400 is difficult to flow out from the end surface.

The basic structure of the cover 500 is that a substantially rectangular cloth knitted with natural fibers or chemical fibers is folded on one side, fasteners 510 are attached to the other side, the upper side, and the lower side, and the upper and lower surfaces are attached. By joining, it is a structure which can be formed in a bag shape, and can accommodate the heater unit 300 and the base cushion material 400 inside.

  As shown in FIG. 2, a substantially rectangular connector hole 520 is provided in a side portion near the upper end of the upper surface of the cover 500, and the connector receiving portion 632 of the heater unit 300 accommodated therein is protruded upward. Thus, the connector plug 631 of the controller 600 can be connected to the connector receiving portion 632.

  Further, a binding belt 521 is installed in the vicinity of the outer peripheral side of the connector hole 520, and the connection cord 620 of the controller 600 connected to the connector receiving portion 632 is fixed to the cover 500 and the connector plug 631 is inadvertently dropped. It is the composition which prevents.

  The binding belt 521 is provided with a surface fastener on the back surface of the belt-like cloth, and is configured to be detachably fixed by being overlapped with the surface fastener installed on the upper surface of the cover 500.

  The controller 600 includes a controller main body 610 having operation switches and control functions, a connection cord 620 for electrically connecting the controller 600 and the main body 200, a connector plug 631 installed at the tip of the connection cord 620, and a controller main body 610. The power cord 621 supplies power to the power cord 621 and the power plug 622 installed at the tip of the power cord 621. The connector plug 631 constitutes a connector 630 as a set with a connector receiving portion 632 installed in the heater unit 300 of the main body 200.

  As an operation function of the controller 600, a rotary switch in which a power switch for turning on / off the heating mat 100 and a temperature setting dial for setting the temperature of the heating mat 100 according to the user's preference are integrally formed. A dial 640 of the type is installed on the upper surface of the controller main body 610. The dial 640 is made of a transparent resin material, and a power lamp for displaying an energized state is disposed inside the dial 640.

<2> Operation and Action of Heating Mat FIG. 7 is a schematic diagram showing a cross-section in a use state where the heating mat is placed on a bed.

  When using the heating mat placed on the bed 110, as shown in FIG. 1, the heating mat is placed so that the connector receiving portion 632 of the main body 200 is on the head side of the bed 110, and the connector plug 631 of the controller 600 is connected to the connector. Connect to the receiving unit 632.

  By turning the dial 640 of the controller 600, the power switch is turned on, the power lamp is turned on, and energization of the heater unit 300 is started. The temperature can be set by adjusting the rotation angle of the dial 640.

  A part of the heat generated from the heater wire 320 is transmitted to the upper surface side of the heater unit 300 and is transmitted to the user through the blanket 310 and the cover 500. During this time, a part of the heat is horizontal in the blanket 310 and the cover 500. Conducted in the direction, diffused over a wide area of the blanket 310 and the cover 500 to raise the temperature.

On the other hand, a part of the heat is transmitted to the lower surface side of the heater unit 300 to heat the resin fibers 410 forming the base cushion material 400 and the air staying in the cavity 420. The heat transmitted to the resin fiber 410 is conducted along the resin fiber 410 and diffused over a wide range to increase the temperature, so that the effect of soaking the wide range of the cushion material is exhibited. Further, the heated air in the heated cavity 420 flows in a random direction along the cavity 420 as indicated by the arrow in FIG. 7, diffuses over a wide range of the base cushion material 400, and increases the temperature. The effect of soaking the wide range of 400 is exhibited. The heat soaked by the base cushion material 400 is mainly transmitted to the upper surface side and is transmitted to the user through the blanket 310 and the cover 500.

  In particular, when the user lies down or when the posture is changed, the base cushion material 400 is greatly depressed, and the warmest air in the hollow portion 420 at the center of the base cushion material 400 diffuses toward the outer periphery. However, the air diffused by the closing member 430 provided at the outer peripheral edge is stopped, diffused in the upper surface direction to raise the temperature around the user, and the user can obtain a comfortable heating effect over a wide range. Can do.

  That is, the heat transmitted to the base cushion material 400 is diffused over a wide range as shown by the arrows in FIG. 7 and is soaked, and the soaked heat is transmitted to the user lying on the upper surface of the heating mat 100. The user can obtain a comfortable heating effect over a wide range.

  Further, the heated air that has reached the outer peripheral end portion of the base cushion material 400 along the hollow portion 420 is discharged to the outside from the end surface of the base cushion material 400 by the closing member 430 provided at the outer peripheral end portion. Is suppressed, and wasteful heat dissipation to the outside of the heating mat 100 is suppressed.

  As described above, the heating mat 100 according to the present embodiment includes a three-dimensional three-dimensional network-like base cushion material 400 having a large number of hollow portions 420 therein, thereby providing a heat insulation effect by air insulation. The heater unit 300 installed above the cushion material 400 is provided with a function of preventing heat from being transmitted downward and improving energy saving.

  In addition, since the base cushion material 400 is installed below the heater unit 300, the heat generated by the heater wire 320 is diffused in a wide range inside the base cushion material 400, so that the heating mat 100 is spread over a wide range. Heating can be achieved and a highly comfortable heating mat can be provided.

  Further, since the base cushion material 400 has an appropriate cushioning property, an appropriate cushioning property can be obtained when the user lies down or the posture is changed, and a comfortable sleeping comfort can be provided. .

  Further, by providing the closing member 430 at the outer peripheral end portion of the base cushion material 400, it is possible to suppress wasteful heat radiation to the outside of the heating mat 100, and to improve the thermal efficiency and heating rate of the heating mat 100. Therefore, it is possible to provide a heating mat 100 that is highly energy-saving and easy to use.

  In addition, the connector receiving portion 632 of the connector 630 that connects the main body 200 and the controller 600 is provided in the vicinity of the short side of the upper surface of the main body 200, and the controller 600 can be installed on the short side. When the controller 600 is placed and used, it is possible to prevent the controller 600 from entering and exiting the bed 110 and to arrange the controller 600 at a position where it can be easily operated. Can do.

  Further, by installing the binding belt 521 for fixing the connection cord 620 of the controller 600 in the vicinity of the connector receiving portion 632, it is possible to prevent the connector plug 631 from being inadvertently dropped, and the usability and reliability of the heating mat 100 can be suppressed. Can be improved.

  In the present embodiment, the substantially U-shaped closing member 430 is bonded and fixed to the outer peripheral end of the base cushion material 400. However, the shape of the closing member 430 is not limited to this. An approximate effect can be obtained even in a belt-like shape that closes only the end face of the base cushion material 400, or an L-shape that closes part of the end face and upper surface of the base cushion material 400.

  In the present embodiment, the closing member 430 is bonded and fixed to the outer peripheral end portion of the base cushion material 400. However, the present invention is not limited to this, and for example, faces the outer peripheral end portion of the base cushion material 400. By installing a blocking member made of a resin sheet on the inner surface of the cover 500, an approximate effect can be obtained.

  In the present embodiment, the heater unit 300 is configured using two blankets 310, but the material of the cloth is not limited to the blanket, and may be a cloth or non-woven fabric knitted with natural fibers or chemical fibers. Good.

(Embodiment 2)
FIG. 8 is an exploded perspective view showing the configuration of the heating mat in the second embodiment, FIG. 9 is a cross-sectional view showing the configuration of the heating mat in the second embodiment, and FIG. 9 shows the heating mat in the second embodiment. It is a schematic diagram which shows the effect | action of a use condition.

  The second embodiment differs from the first embodiment mainly in the configuration of the cushion material. In the first embodiment, the base cushion material 400 is arranged only on the lower side of the heater unit 300. However, in the present embodiment, the sub cushion material 800 is separately arranged on the upper side of the heater unit 300. is there.

  In addition, the other structure of a heating mat is the same as that of Embodiment 1, the same structural member attaches | subjects the same code | symbol, and abbreviate | omits detailed description.

  As shown in FIGS. 8 and 9, the main body 700 of the heating mat 100 is composed of two cushion materials, a base cushion material 400 and a sub cushion material 800, and the sub cushion material 800 is disposed above the heater unit 300. The base cushion material 400 is disposed below the heater unit 300. Further, similarly to the first embodiment, a cover 500 that accommodates the entire laminate of the sub-cushion material 800, the heater unit 300, and the base cushion material 400 is provided.

  The sub-cushion material 800 has a basic configuration substantially the same as that of the base cushion material 400 described in the first embodiment, and is a three-dimensional three-dimensional network made of polyester resin fibers. The external dimensions of the sub-cushion material 800 are 200 cm in length, 100 cm in width, and 1 cm in thickness. The overall density of the sub-cushion material 800 is about 30 kg / m 3.

  The sub-cushion material 800 is a three-dimensional solid network made of polyester resin fibers having elasticity similar to the base cushion material 400, but has different characteristics.

  In particular, the density of the base cushion material 400 is about 50 kg / m3, whereas the density of the sub-cushion material 800 is about 30 kg / m3. That is, the sub-cushion material 800 is formed with a lower proportion of resin fibers than the base cushion material 400, has a large compression ratio, and has soft characteristics. Moreover, the thickness is about 1 cm, and it is formed so as to be about 1/3 with respect to 3 cm of the base cushion material 400.

Further, a substantially rectangular connector hole 810 is provided in a side portion near the upper end of the sub-cushion material 800, and the connector receiving portion 632 of the heater unit 300 accommodated therein is connected to the connector hole 810 of the sub-cushion material 800 and the cover. The connector plug 631 of the controller 600 can be connected to the connector receiving portion 632 by protruding upward through the 500 connector holes 520.

  In the state where the user lies on the main body 700, the base cushion material 400 is slightly depressed in the portion where the body is directly placed, but the sub cushion material 800 is directly placed on the body. The portion is greatly depressed downward and is almost compressed in the vertical direction. Thereby, when the user lies down or when the posture is changed, a soft cushioning property can be obtained and a comfortable sleeping comfort can be obtained.

  As shown in FIG. 10, a part of the heat generated from the heater wire 320 is transmitted to the upper surface side of the heater unit 300 and is transmitted to the user through the blanket 310, the sub cushion material 800, and the cover 500. The heat is conducted in the horizontal direction inside the blanket 310, the sub-cushion material 800, and the cover 500, and diffuses over a wide range of the blanket 310, the sub-cushion material 800, and the cover 500 to raise the temperature.

  In particular, when the user lies down or when the posture is changed, the sub-cushion material 800 is greatly depressed, and the warmest air in the hollow portion at the center of the sub-cushion material 800 is randomly directed toward the outer periphery. The diffused and diffused warm air rises in the upper surface direction and raises the temperature around the user, so that the entire heating mat 100 is soaked, and the user can obtain a comfortable heating effect over a wide range. .

  On the other hand, as in Embodiment 1, a part of the heat is transmitted to the lower surface side of the heater unit 300 to heat the resin fibers 410 forming the base cushion material 400 and the air staying in the cavity 420. The heat transmitted to the resin fiber is conducted along the resin fiber, diffused over a wide range, and heated up, so that the temperature of the wide range of the sub-cushion material 800 is soaked. In addition, the heated air in the heated cavity 420 flows in a random direction along the cavity 420, diffuses to a wide range of the base cushion material 400, and increases the temperature, so that the wide range of the base cushion material 400 is increased. The effect of soaking is demonstrated. The soaked heat of the base cushion material 400 is mainly transmitted to the upper surface side and is transmitted to the user through the blanket 310, the sub cushion material 800 and the cover 500, and the user is soaked over a wide range. A comfortable heating effect can be obtained.

  As in the first embodiment, the base cushion material 400 is greatly depressed particularly when the user lies down or when the posture is changed, and the warmest air in the cavity 420 at the center of the base cushion material 400 However, the air diffused toward the outer peripheral portion is stopped by the blocking member 430 provided at the outer peripheral end portion, diffused in the upper surface direction to increase the temperature around the user, and the user is in a wide range. A comfortable heating effect can be obtained.

  As described above, the heating mat according to the present embodiment includes a three-dimensional three-dimensional network base cushion material 400 having a large number of cavities therein, thereby providing a heat insulating effect by air insulation. The heater unit 300 installed above 400 has a function of suppressing heat transfer downward and improving energy saving.

  Further, since the three-dimensional three-dimensional net-like base cushion material 400 and the sub-cushion material 800 having a large number of cavities therein are installed above and below the heater unit 300, the heat generated by the heater wire 320 can be reduced. By diffusing in a wide range inside the material 400 and the sub-cushion material 800, the heating mat 100 can be uniformly heated over a wide range, and the heating mat 100 having high comfort can be provided.

  Further, since the thickness of the sub cushion material 800 disposed above the heater unit 300 is made thinner than the thickness of the base cushion material 400 disposed below the heater unit 300, the heat generated by the heater unit is lowered downward. Is insulated and easily transmitted upward, and can provide a heating mat having a comfortable heating effect and energy saving.

  Moreover, by installing two pieces of the sub-cushion material 800 having a large compression ratio and a soft feeling and the base cushion material 400 having a small compression ratio and a hard feeling, it is possible to absorb a wide range of impacts and to be comfortable. Cushioning properties can be obtained.

  Further, by installing the sub-cushion material 800 having a large compression ratio and a soft feeling above the heater unit 300, the sub-cushion material 800 is deformed along the body shape of the user lying on the heating mat, thereby being soft. Cushioning and feel can be obtained.

  In addition, since the sub-cushion material 800 having a large compression ratio and easily deformable along the user's body shape is installed above the heater unit 300, the user's body and the heater unit 300 can be brought close to each other. Can get a comfortable heating effect.

  In the present embodiment, the closing member 430 is not installed at the outer peripheral end portion of the sub-cushion material 800. However, the present invention is not limited to this configuration, and the sub-cushion material 800 is closed similarly to the base cushion material 400. When the member is installed, the same effect as the base cushion material 400 described in the first embodiment can be obtained.

  As described above, the heating mat according to the present invention can improve the thermal uniformity of the entire surface of the mat, and therefore can be applied to other uses such as a warming tool.

100 Heating mat 300 Heater unit 310 Blanket (cloth)
320 Heater wire 400 Base cushion material (cushion material)
410 Resin fiber 420 Cavity 430 Closure member 500 Cover

Claims (1)

Cushion material with elasticity,
A heater unit that is laminated on the cushion material, and a heater wire is disposed between two cloths;
A cover that houses the cushion material and the laminate of the heater units,
The cushion material is formed of a three-dimensional three-dimensional network formed by bending resin fibers three-dimensionally at random, and includes a hollow portion communicating in a three-dimensional random direction inside the three-dimensional three-dimensional network.
A closing member that closes the opening of the hollow portion of at least the outer peripheral end surface of the cushion material ;
The closing member is installed on a cover facing at least an outer peripheral end surface of the cushion material,
Heating mat.

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