JP2017056618A - Laminate and heater unit - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a laminate which is excellent in productivity and can impart additional functions, and a heater unit using the laminate as a substrate.SOLUTION: In a laminate, a first foam 11 made of a polymeric material and a second foam 12 made of a polymeric material are laminated on each other, non-pore portions of the second foam 12 directly enter pores of the first foam 11, and the first foam 11 and the second foam 12 are directly fixed to each other at a peel strength of 1 N or more. The weight per unit volume of the first foam 11 and the second foam 12 is 0.32 g/cmor more on average. A heater unit uses the laminate as a substrate, and has a heat generating element disposed on the substrate. The heat generating element is disposed on the surface of the laminate or between the first foam and the second foam in the laminate.SELECTED DRAWING: Figure 2

Description

  The present invention relates to, for example, a heater unit used for various types of heating, and a laminate used for a base material of the heater unit, and in particular, it is excellent in productivity and can provide an additional function. About things.

  Conventionally, especially in an automobile, a heater unit using resistance heating has been used as an aspect of a warming instrument in cold weather. For example, in a vehicle seat, it has been proposed to assemble a heater unit in the vehicle seat in order to warm the back and buttocks of a passenger such as a driver. The vehicle seat includes a seat frame as a base, a seat pad made of foamed urethane resin or the like that imparts cushioning properties, and a seat skin that covers them. The heater unit is installed between the seat pad and the seat skin (see, for example, Patent Documents 1 to 3). Moreover, in order to warm a driver | operator's hand in a steering wheel, attaching the heater unit to the wheel part of a steering wheel is proposed. The steering wheel is composed of a wheel portion, a spoke portion, and a boss portion, and the wheel portion is composed of a wheel core material and a covering material made of a synthetic resin, a textile product, leather, or the like. The heater unit is installed between the wheel core material and the covering material, and is connected to a lead wire that has passed through the spoke part and the boss part to supply power (for example, see Patent Documents 4 and 5).

  As such a heater unit installed on a vehicle seat or a steering wheel, for example, as shown in Patent Documents 1 to 5, a heater in which a cord-like heater is arranged in a predetermined pattern shape on a base material is known. ing. Here, as the base material, various foamed resin sheets, foamed rubber sheets, rubber sheets, nonwoven fabrics, woven fabrics, and the like are disclosed.

Japanese Patent No. 4202071: Clave JP 2011-229795 A: Clave JP, 2014-209444, A: Crave International Publication WO2014 / 104000 Publication: Toyoda Gosei, Krabe JP 2014-143175 A: Clave

  Here, in both the vehicle seat and the steering wheel, the heater unit is installed in the immediate vicinity of the occupant such as the driver, and comes into contact with the occupant with a predetermined pressure such as sitting or gripping. Therefore, if the thickness is generated only at the place where the cord-like heater is disposed, the occupant feels the unevenness and feels uncomfortable.

  For such a problem, in the heater unit (sheet heater) according to Patent Document 1, 30% or more of the outer circumference of the cord heater seems to be bonded to the base cloth so that the cord heater sinks into the base cloth. Is disclosed. In the heater unit (seat heater) according to Patent Document 2, the cord heater is disposed on the side where the gap of the base cloth is large, and the side where the gap is small is the seat skin side so that the occupant is less likely to feel the cord heater. Is disclosed. In the heater unit according to Patent Document 3, it is disclosed that the passenger is less likely to feel uncomfortable by making the heat-sealed portion of the outer periphery of the cord-shaped heater flat. In the heater units according to Patent Documents 4 and 5, the thickness of the base material where the cord-like heater is disposed is thin so as to follow the shape of the cord-like heater. It is disclosed that it is difficult to receive the feel of a cord heater.

  These can be used without problems at this stage. However, in the future, while maintaining the characteristics that such occupants will not feel uncomfortable, it is necessary to improve the technology to further improve productivity and to provide additional functions especially in the base material. there is a possibility.

  The present invention has been made in order to solve the drawbacks of the prior art, and the object of the present invention is to provide a laminate that is excellent in productivity and can impart an additional function, and An object of the present invention is to provide a heater unit using the same as a base material.

In order to achieve the above object, a laminate according to the present invention is formed by laminating a first foam made of a polymer material and a second foam made of a polymer material. The non-porous part of the second foam directly enters the pores, and the first foam and the second foam are directly fixed with a peel strength of 1N or more.
Moreover, it is considered that the weight per unit volume in the first foam and the second foam is 0.32 g / cm ³ or more on average.
Moreover, the heater unit according to the present invention has the above laminate as a base material, and a heating element is disposed on the base material.
Moreover, it is possible that the said heat generating element is arrange | positioned so that it may exist on the surface of the said laminated body.
Moreover, it is possible that the said heat generating element is arrange | positioned so that it may exist between the said 1st foam in the said laminated body, and the said 2nd foam.
Further, it is conceivable that the heating element is a cord heater, and a heat fusion layer is formed on the outer periphery of the cord heater.
Further, it is considered that the first foam and the second foam are fixed without using an adhesive.

According to the present invention, since the non-porous portions of the second foam are directly in the pores of the first foam, the first foam and the second foam can be used without using an adhesive or the like. The body will be fixed directly enough. This eliminates the step of arranging an adhesive or the like, reduces costs, and improves productivity. In addition, the flexibility and stretchability originally provided in the foam are not hindered by the adhesive or the like, and a laminated body that takes advantage of the characteristics of the first foam and the second foam can be obtained. it can.
Further, since this laminate is formed by laminating the first foam and the second foam, if such a laminate is used as the base material of the heater unit, these two foams are different. By having a characteristic, it can have a complex characteristic.
Further, in the case of a base material composed of only one ordinary foam, if a crack or tear occurs in the foam, the crack or tear is enlarged and the base material is torn. Here, if a base material is formed by laminating a plurality of foams, even if cracks or tears occur in one foam, the expansion of the cracks and tears can be accommodated only in the foams, and in other foams It does not affect. Therefore, it can prevent that the whole base material is torn.

It is a top view which shows the structure of the heater unit by this invention. It is sectional drawing which expands and shows typically the principal part of the heater unit by Embodiment 1 of this invention. It is a side view which cuts out the part and shows the structure of the cord-shaped heater used by this invention. It is a side view which cuts out the part and shows the structure of the cord-shaped heater used by this invention. It is a figure which shows the structure of the hot press type heater manufacturing apparatus used by this invention. In the heater unit of this invention, it is a partial perspective view which shows a mode that a cord-shaped heater is arrange | positioned in a predetermined pattern shape. It is a microscope picture which shows the cross section of the heater unit by Embodiment 1 of this invention. It is sectional drawing which expands and shows typically the principal part of the heater unit by Embodiment 2 of this invention.

  Hereinafter, preferred embodiments of the present invention will be described with reference to the drawings.

  First, the configuration of the cord-like heater 1 used as the heating element in the first embodiment will be described. The cord-like heater 1 in the first embodiment is configured as shown in FIG. First, on the outer periphery of the heater core 3 made of an aromatic polyamide fiber bundle having an outer diameter of about 0.2 mm, seven conductor wires 5a made of a tin-copper alloy wire having a wire diameter of 0.08 mm are aligned, and the pitch is 1.00 mm. The cord-shaped heater 1 is configured by being spirally wound. The conductor wire 5a is covered with an insulating film 5b made of polyurethane with a thickness of about 0.005 mm. On the outer periphery, a polyethylene resin blended with a flame retardant as the heat sealing material 9 is extruded and coated with a thickness of 0.25 mm. The cord-like heater 1 has such a configuration, and the finished outer diameter is 0.9 mm.

Next, the structure of the base material 10 on which the cord-like heater 1 having the above structure is disposed will be described. The base material 10 in Embodiment 1 is a foam made of a foamed polyurethane resin having a weight per unit volume of 0.04 g / cm ³ (conforming to JIS K7222), a hardness of 220 N (conforming to JIS K6400-2), and a thickness of 4 mm. Is made of a laminate in which two sheets are used. In the first embodiment, for convenience, the foam on the side where the cord-like heater 1 is disposed is the first foam 11 and the opposite foam is the second foam.

  Next, the cord-like heater 1 is disposed on the base material 10 in a predetermined pattern, and the base material 10 composed of the first foam 11 and the second foam 12 is bonded to the cord-like heater 1. -The structure to fix is demonstrated. FIG. 5 is a diagram showing a configuration of a hot press type heater manufacturing apparatus 13 for heating and pressurizing the base material on which the cord-like heater 1 is disposed. First, there is a hot press jig 15, and a plurality of locking mechanisms 17 are provided on the hot press jig 15. As shown in FIG. 6, the locking mechanism 17 includes a pin 19, and the pin 19 is inserted into a hole 21 drilled in the hot press jig 15 from below. A retaining member 23 whose tip is a needle is attached to the upper portion of the pin 19 so as to be movable in the axial direction, and is always urged upward by a coil spring 25. Then, as indicated by phantom lines in FIG. 6, the cord-like heater 1 is arranged in a predetermined pattern shape while the cord-like heater 1 is hooked on the retaining members 23 of the plurality of retaining mechanisms 17. Become.

  Returning to FIG. 5, a press hot plate 27 is disposed above the plurality of locking mechanisms 17 so as to be movable up and down. That is, the cord-like heater 1 is arranged in a predetermined pattern shape while being hooked on the retaining members 23 of the plurality of retaining mechanisms 17, and the first foam 11 is placed thereon. In this state, the press hot plate 27 is lowered to heat and press the cord-like heater 1 and the first foam 11. When the press hot plate 27 is lowered, it is designed to be heated and pressurized so that the cord-like heater 1 and the first foam 11 are temporarily fixed. Further, the second foam is overlaid on the first foam 11 without using an adhesive or the like, and in that state, the press hot plate 27 is lowered to cause the cord-like heater 1 and the first foam. 11 and the second foam 12 are heated and pressurized. At this time, it is preferable to design at least the amount of compression of the base material 10 to be larger than the outer diameter of the cord heater 1. Accordingly, the base material 10 is compressed and densified, and the heat-sealing material 9 of the cord-like heater 1 is melted, so that the heat-sealing material 9 becomes the first foam 11 and the second foam. Thus, the cord-shaped heater 1, the first foam 11 and the second foam 12 are bonded and fixed. It should be noted that the retaining members 23 of the plurality of retaining mechanisms 17 move downward against the urging force of the coil spring 25 during heating and pressurization due to the lowering of the press hot plate 27.

  By performing the above operation, a heater unit 31 as shown in FIGS. 1 and 2 can be obtained. 2 is a cross-sectional view schematically showing an enlarged main part of FIG. In Embodiment 1, since the base material 10 is compressed by the flat press hot plate 27, the portion where the cord-like heater 1 is disposed is more strongly pressurized. Thereby, the location in the base material 10 where the cord-like heater 1 is disposed is a shape that follows the shape of the cord-like heater 1 and is thinner than the other locations. Further, the heat sealing material 9 of the cord-like heater 1 is also greatly deformed by heating and pressurization, and the thickness of the portion not in contact with the base material 10 is reduced and becomes a flat shape. As a result, the heater unit 31 has no irregularities even at the place where the cord-like heater 1 is disposed, and has a flat shape, and the flat shape is maintained by maintaining the shape of the heat sealing material 9. become. Further, the heater unit 31 obtained in this way can improve the mechanical strength because the base material 10 is compressed and has a high density. The heat sealing material 9 of the cord heater 1 is impregnated in the pores of the first foam 11 and the second foam 12, and the cord heater 1, the first foam 11 and the second foam 12 are impregnated. By being connected, they are firmly bonded and fixed. In addition, the thickness of the heater unit obtained by this Embodiment is 1.00 mm, the minimum thickness of the base material 10 in the location in which the cord-like heater 1 is disposed is 0.52 mm, and the cord-like heater The thickness of the base material 10 at a location where 1 was not disposed was 1.00 mm.

In addition, when the cord-like heater 1 is heat-sealed, if the first foam 11 and the second foam 12 are sufficiently heated and pressurized to achieve high compression, an adhesive layer may not be used. The first foam body 11 and the second foam body 12 can be directly fixed with a peel strength of 1 N or more even at a place where the cord heater 1 is not disposed. This is because the non-porous portion of the other foam enters the pores of one foam and the two foams are fixed by the anchor effect. As described above, in this embodiment, the weight per unit volume is 0.04 g / cm ³ (conforms to JIS K7222), the hardness is 220 N (conforms to JIS K6400-2), and the foamed polyurethane resin has a thickness of 4 mm. A sheet of foam is used. These are stacked without using an adhesive layer, and compressed by heating and pressing until the thickness reaches 1 mm. After heating and pressing, the weight per unit volume of the portion where the cord-like heater 1 does not exist is 0.00. 32 g / cm ³ (according to JIS K7222). Thus, peel strength was measured with respect to the base material on which the two foams were laminated. Peel strength is measured with a push-pull gauge. The base material 10 is cut into 25 mm × 150 mm, a 50 mm portion from the end in the longitudinal direction is peeled in advance, the end of the first foam 11 is fixed to a push-pull gauge, and the end of the second foam 12 The part was gripped and peeled in the direction opposite to the push-pull gauge at a speed of 10 mm / s (peeling angle 180 degrees), and the value at which the maximum load was obtained was defined as the peel strength. The peel strength between the first foam 11 and the second foam 12 in the heater unit 31 according to Embodiment 1 thus measured was 6.2 N, which was a value sufficient for practical use. . Moreover, when the state after peeling was confirmed, it was confirmed that the peeling was not due to interface peeling but due to material destruction, and from this point it was confirmed that sufficient adhesion was obtained. For reference, when the peel strength was measured in the same manner using a sample in which the first foam 11 and the second foam 12 were bonded with a double-sided adhesive tape, the peel strength was 13.7 N. . Further, the cord-like heater 1 is not used, and the first foam 11 and the second foam 12 are simply heated and pressurized to be highly compressed in the same manner as in the above embodiment, and the first foam 11 and the first foam 11 When the peel strength was measured in the same manner using a sample to which the foam 12 of 2 was fixed, the peel strength was 5.0 N, and the interface was peeled off.

  In FIG. 7, the SEM photograph of the principal part of the heater unit 31 by Embodiment 1 is shown. It is confirmed that the heat sealing material 9 is impregnated in the pores of the first foam 11 and the second foam 12. Further, the non-porous portion of the second foam 12 enters the pores of the first foam 11, and the non-porous portion of the first foam 11 enters the pores of the second foam 12, It is confirmed that the first foam 11 and the second foam 12 are fixed by the anchor effect.

  With respect to the heater unit 31 according to the first embodiment obtained as described above, both ends of the cord-like heater 1 are drawn out and connected to the lead wire 35, and the cord-like heater 1 and the temperature control device are connected to the lead wire 35. 39 and a connector (not shown) are connected. The temperature control device is arranged on the cord heater 1 and controls the temperature of the heater unit by the heat generated by the cord heater 1. Further, the protrusion 10 f may be formed on the base material 10. The connection part of the temperature control device 39 and the cord-like heater 1 and the lead wire 35 may be protected by being covered with the protruding part 10f of the base material in order to protect against impact and the like. From this point of view, it is conceivable that the protruding portion 10f is not heated and pressurized. And it will be connected to the electric system which is not illustrated via the above-mentioned connector.

  An adhesive layer (not shown) may be formed on the base material 10 in order to bond the heater unit 31 and the object to be heated. For the formation of the adhesive layer, it is preferable that an adhesive layer made of only an adhesive is previously formed on the release sheet, and the adhesive layer is transferred from the release sheet to the surface of the substrate 10. Thereby, the adhesive does not enter the inside of the base material 10, and an adhesive layer is formed only on the surface of the base material 10. When the heater unit 31 and the object to be heated are bonded, the heater unit is arranged so that the side on which the person using the object to be touched is the surface on which the cord-like heater 1 of the base material 10 is not provided. Is preferred. This is because unevenness due to the cord-like heater 1 hardly appears on the surface of the covering material 78.

Here, the heater unit according to the second embodiment will be described. As the base material 10, two foams made of a foamed polyurethane resin having a weight per unit volume of 0.04 g / cm ³ (conforming to JIS K7222), a hardness of 220 N (conforming to JIS K6400-2), and a thickness of 8 mm are used. The In the second embodiment, for the sake of convenience, the foam located on the upper side is referred to as the first foam 11 and the foam located on the lower side is referred to as the second foam. I do not care. First, similarly to the first embodiment, the cord-like heater 1 is disposed on the first foam 11. Next, the second foam 12 was superimposed on the surface of the first foam 11 on which the cord-like heater 1 was disposed, and heating and pressurization were performed under the same conditions as in the first embodiment. In this way, a heater unit 31 was obtained, as shown in FIG. 8, in which the cord-like heater 1 was disposed between the first foam and the second foam. At this time, the substrate 10 is compressed by heating and pressing until the thickness reaches 1 mm, and after heating and pressing, the weight per unit volume of the portion where the cord-like heater 1 does not exist is 0.32 g / cm ³ (JIS). K7222 compliant).

  The heater unit 31 according to the first and second embodiments obtained in this manner was assembled to the heated object under the same working conditions. The object to be heated includes a wheel part in which a cylindrical metal pipe having a diameter of 35 mm is formed in a circular shape having a diameter of 380 mm, and three spoke parts that are formed from the center of the circular shape toward the circumference and connected to the wheel part. Is. The heater unit is assembled to the wheel portion of the body to be heated. In both the heater units of the first and second embodiments, the assembling workability was good. This is because the cord-like heater 1, the first foam 11 and the second foam 12 are sufficiently fixed, so even when the shape is adapted by stretching the heater unit 31, etc. This is because the foam 11 and the second foam 12 were not separated and could be installed without any problem. In particular, it was possible to easily install the heater unit 31 by adapting the shape to a portion where the curved surface is combined, such as a connecting portion of the wheel portion and the spoke portion. In addition, if the 1st foam 11 and the 2nd foam 12 isolate | separate, the shift | offset | difference of a heater unit will arise also in the case of actual use, and it will feel strange.

  In addition, the heater unit 31 according to the first and second embodiments obtained as described above is confirmed to be uncomfortable in a state where the heater unit 31 is assembled so that the side on which the cord-like heater 1 is disposed is the heated object side. Went. To confirm, 10 users grasp the heated object with the heater unit 31 assembled, and re-grip it 10 times with the left and right hands alternately to hear whether the cord-like heater 1 feels irregularities. did. As a result, the number of users who answered that the embodiment was uncomfortable was zero.

  Moreover, about the heater unit 31 by the said Embodiment 1, 2, the notch was formed only in the 1st foam 11, and it arrange | positioned to the tension test machine and performed the fracture test. Thereby, first, the notch became large in the form crossing the 1st foam 11, and the 1st foam 11 was torn. In this state, the second foam 12 was not affected at all, and the base material 10 did not break. After that, the dish was subjected to a tensile force, and the second foam 12 was also torn.

  In addition, this invention is not limited to said embodiment. Any conventionally known cord heater can be used as the cord heater 1 used as a heating element. For example, as described in Japanese Patent No. 4202071, a heating element configured by aligning heating element strands is wound around the outer periphery of a heater core, and an insulating layer made of FEP is formed on the outer periphery. Correspondingly, a cord-like heater in which a heat-sealing layer made of polyethylene is formed, a cord-like shape in which the heater core 3 has heat shrinkability and heat-meltability as disclosed in the specification of Japanese Patent Application No. 2007-158452. Heater, as disclosed in Japanese Patent Application No. 2007-158453, a cord-like heater comprising a heating element in which conductor wires covered with an insulating film are aligned, disclosed in Japanese Patent Application Laid-Open No. 2007-134341 Even if a heating element is used, such as a cord-like heater composed of a copper solid solution and a copper-silver eutectic silver-filled copper alloy wire made of fibers. There. A configuration as shown in FIG. 3 is also conceivable. Specifically, first, seven conductor strands 5a made of a tin copper alloy wire having a strand diameter of 0.08 mm are arranged on the outer periphery of a heater core 3 made of an aromatic polyamide fiber bundle having an outer diameter of about 0.2 mm. The cord-shaped heater 1 is configured by being spirally wound at a pitch of 1.00 mm. The conductor wire 5a is covered with an insulating film 5b made of polyurethane with a thickness of about 0.005 mm. The cord-like heater 1 has such a configuration, and its finished outer diameter is 0.38 mm. In the above embodiment, the cord-like heater 1 having the heat fusion layer 9 formed on the outer periphery is used, but the first foam 11 and the second foam 12 are fixed sufficiently and sufficiently. For this reason, it is conceivable to use one in which the heat-sealing layer 9 is not formed. What is necessary is just to form the heat sealing | fusion layer 9 in the outer periphery of the cord-like heater 1 when a stronger adhesion fixing is required. Further, the heating element is not limited to a cord-like heater, and various elements such as a simple resistance wire, a foil-like resistor, a block-shaped element such as a so-called PTC heating element, and the like can be considered. Of course, you may form a heat-fusion layer in the outer periphery of these heat generating elements.

  The foam constituting the substrate 10 is not limited to the foamed polyurethane resin, and various polymer foams such as foamed resin sheets and foamed rubber sheets made of other materials are conceivable. In particular, those excellent in stretchability are preferable, and those whose hardness is adjusted so that the irregularities of the cord-like heater do not appear on the surface are preferable. Further, in order to adjust the hardness, there are methods such as adjusting the foaming rate, changing the state of bubbles to closed cells or open cells, and using a material having a hardness suitable for the purpose. In particular, open cells are preferred so that the non-porous portions of the other foam can sufficiently enter the pores of one foam. Materials include polyurethane resin, chloroprene rubber, silicone resin, silicone rubber, neoprene rubber, diene rubber, nitrile rubber, natural rubber, polyethylene resin, polypropylene resin, ethylene-vinyl acetate copolymer, various resins, rubber, What is necessary is just to select from thermoplastic elastomers. Moreover, although the base material 10 is a thing in which the 1st foam 11 and the 2nd foam 12 were laminated | stacked as above-mentioned, these foams are good also as a thing of a different material, respectively. For example, the following can be considered. Regarding one foam, it is conceivable to select one having a high porosity. By setting the foam on the side where the cord-like heater 1 is disposed to have a high porosity, the cord-like heater 1 enters the foam more reliably, and a flat heater unit 31 can be obtained. It is also conceivable that the foam on the side where the cord-like heater 1 is not disposed has a high porosity, and other resin is melt-filled to form a composite material. Although the heater unit 31 is bonded onto the heated body and urethane resin or the like is injection-molded thereon, a heated body in which the heater unit 31 is embedded can be obtained, but the cord-like heater 1 is not disposed. If a foam having a high porosity is used as the foam on the side, injection molded urethane resin or the like is filled in the pores of the foam, and the heater unit 31 is securely fixed. Further, by stacking foams having different hardnesses, it is possible to make it difficult to feel the presence of the cord-like heater 1 when the user touches the heater unit 31 or a product incorporating the same. Also, foams with excellent flame retardancy, foams with high tensile strength, foams with excellent chemical resistance, foams with excellent heat resistance, foams with excellent withstand voltage characteristics, foams with electromagnetic shielding properties, low resilience By combining various foams, such as a foam having heat resistance, a foam excellent in low-temperature brittleness, and a foam having high thermal conductivity, the heater unit 31 provided with an additional function can be obtained. Also, if thin foams are laminated, a process of attaching another foam after placing the cord-like heater on the thin foam even when the cord-like heater is placed by heat sealing. It is possible to prevent poor fusion due to the heat insulation effect of the foam. Further, a multilayer structure in which other foams such as a third foam are laminated may be used. In this case, it is preferable that the pores of all the foams are impregnated with the heat sealing material 9.

Among the above foams, those having an average weight per unit volume of 0.32 g / cm ³ or more are preferable. More particularly, the weight per unit volume superimposing a plurality of 0.32 g / cm ³ less than the foam, it is preferable that the 0.32 g / cm ³ or more by heating and pressing. In particular, the weight per unit volume superimposing a plurality of 0.04 g / cm ³ or less of the foam, it is preferable that the 0.32 g / cm ³ or more by heating and pressing. As a result, the non-porous part of the other foam surely enters the pores of one foam, and the foams are firmly fixed directly. At this time, it is conceivable that a part of the foam that does not need to be fixed is intentionally not heated and pressed, or that part is weakened. About the part which did not perform such heat pressurization, and the part which weakened pressurization, it is not counted in the weight per average unit volume. The average weight per unit volume is defined by the portion that is substantially directly fixed.

  In this invention, the 1st foam 11 and the 2nd foam 12 which comprise the base material 10 are directly fixed by the peeling strength of 1N or more. The direct fixing indicates that the fixing is performed without any other member such as an adhesive interposed therebetween. Of course, it is not necessary to directly fix all the portions where the first foam 11 and the second foam 12 are in contact with each other. It may be fixed directly with strength.

  In the above embodiment, no adhesive or the like is interposed between the first foam 11 and the second foam 12 constituting the base material 10, but these are securely bonded and fixed. Therefore, it is conceivable that an adhesive layer is formed between the first foam 11 and the second foam 12 as an auxiliary. Specifically, for example, an adhesive is applied to the first foam 11 and / or the second foam 12, and a heat fusion resin is provided between the first foam 11 and the second foam 12. It is also possible to arrange sheets. As the adhesive layer, not only a heat-sealing resin, but also various adhesive layers such as an adhesive layer made of a polymer acrylic pressure-sensitive adhesive and not using a tape base material, and an adhesive layer formed by forming an adhesive on both surfaces of a polypropylene film are used. Things can be used. FMVSS No. If it has the flame retardance which passes the combustion test of 302 automotive interior materials, the flame retardance of a heater unit improves and is preferable. Moreover, in order not to impair the stretchability of the heater unit 31, it is preferable that the adhesive layer is made of only an adhesive. Of course, as described above, since the first foam 11 and the second foam are sufficiently and sufficiently fixed by compression by heating and pressurization, the use of such an adhesive is only auxiliary. , Partially using adhesive.

  Moreover, the 1st foam 11 and the 2nd foam 12 do not need to be the same shape, and can also consider it as a different shape according to a use condition. For example, in order to correspond to a heated part with a step, the first foam 11 or the second foam 12 having a shape in which the portion is cut out in order to reduce the thickness of the base material only at the step. It can also be used. Also, by making one of the first foam 11 and the second foam 12 slightly smaller, the thickness gradually increases from the peripheral part of the heater unit 31 toward the central part. Become. Thereby, the level | step difference of the installation part of the heater unit 31 and a non-installation part can be relieve | moderated. In that case, it is more preferable to incline the peripheral portions of the first foam 11 and the second foam 12 so that the thickness gradually increases.

  Moreover, the laminate according to the present invention can be used not only as a base material of a heater unit but also as a component of various articles. For example, it can be used in various applications as a basic material such as a soundproofing material, a heat insulating material, a vibration isolating material, a filtering material, a liquid holding material, and a cushioning material.

  According to the heater unit of the present invention, it is excellent in productivity and can provide an additional function. Such heater units include, for example, electric blankets, electric carpets, automobiles, motorcycles, ships, various transportation vehicles, various agricultural vehicles, various civil engineering heavy machinery and other seat heaters, steering heaters, heating toilet seats, anti-fogging, etc. Application to mirror heaters, cooking utensils, floor heating heaters, clothes heaters, and the like is also conceivable.

DESCRIPTION OF SYMBOLS 1 Code-shaped heater 10 Base material 11 1st foam 12 2nd foam 31 Heater unit

Claims (7)

A first foam made of a polymer material and a second foam made of a polymer material are laminated, and the non-porous portion of the second foam is in the pores of the first foam. Is a laminate in which the first foam and the second foam are directly fixed with a peel strength of 1 N or more. 2. The laminate according to claim 1, wherein an average weight per unit volume of the first foam and the second foam is 0.32 g / cm ³ or more. A heater unit in which the laminate according to claim 1 or 2 is used as a base material, and a heating element is disposed on the base material. The heater unit according to claim 3, wherein the heating element is disposed on the surface of the laminate. 4. The heater unit according to claim 3, wherein the heat generating element is disposed between the first foam and the second foam in the laminate. The heater unit according to any one of claims 3 to 5, wherein the heating element is a cord-like heater, and a heat-sealing layer is formed on an outer periphery of the cord-like heater. The heater unit according to any one of claims 3 to 6, wherein the first foam and the second foam are fixed without an adhesive.