JP2019180837A - Hardening-preventing cool feeling mat - Google Patents

Abstract

To provide a hardening-preventing cool feeling mat having touch of the cool feeling mat itself, soft to a human body lying on the mat, and enabling obtaining satisfactory cooling effect of sufficiently cooling a part of the body, touching the mat.SOLUTION: A hardening-preventing cool feeling mat is such that: polygonal two sheets of the same size are overlapped; an edge part of an outer periphery of the polygonal shape is fixed; a space is formed in the inside; a plurality of sectioned rooms are formed between the upper sheet and the lower sheet; and each of the rooms is filled with a gel-like composition as a middle material, comprising a simple substance, a thickening agent, a hardening-preventing agent, a crosslinking agent, a precipitation preventing agent, a dispersant, an antifungal antibacterial agent, and water.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a cooling sensation mat comprising a phase change material (phase change constant temperature material) as an intermediate material, and more particularly to an anti-curing sensation mat for preventing the occurrence of curing of the intermediate material. Here, the phase change constant temperature material is as described below.

  The so-called cooling sensation mat includes an anhydrous phase change material (phase change constant temperature material) as a main material. Therefore, when the external temperature (that is, the environmental temperature using the cooling sensation mat) rises, the phase change material absorbs heat and changes from a solid (gel gel) to a liquid, and the external temperature changes. When descending, the phase change material dissipates the amount of heat absorbed and changes from liquid to solid. The “curing prevention cooling sensation mat” of the present invention utilizes the circulation process, especially the process of absorbing external heat, during the temperature change of the external environment, so that the human body contacting the cooling sensation mat is used. It lowers the surface temperature and, as a result, gives a cooling effect to the human body.

  Cooling mats commonly used in the market today are included in the filling material that is filled in the mat during the process of use (that is, during the process of solid-to-liquid and liquid-to-solid circulation as described above). In many cases, a phenomenon occurs in which the crystals of the components are non-uniform, and as a result, large lumps (crystal lumps) are generated in the intermediate material and hardened. As a result, there is a problem that the body part touching the mat of the person who uses the cooling sensation hits such a lump, and the feeling becomes worse and the satisfaction of the user is lowered. In addition, since the shape of the large crystal lump as described above is irregular and has a sharp point, during use, the crystal lump breaks through the material (sheet or the like) that wraps the intermediate material, There is also a problem that medium wood may leak out.

  As a heat storage material composition with excellent heat storage properties, no leakage of heat storage materials and excellent workability and workability, (meth) acrylic monomers, (meth) acrylic polymers with specific weight average molecular weight, oil-soluble polymerization A heat storage material composition containing an initiator and an organic latent heat storage material is known (see, for example, Patent Document 1). However, this heat storage material composition has an excellent latent heat effect, is soft to the human body as in the present invention, makes the crystal size of the composition small and uniform, and prevents the formation of large lumps. I have doubts.

  In addition, in order to provide an accurate phase change and stable functionalized material in a specific temperature range with reduced latent heat loss of the latent heat storage material composition, sodium sulfate hydrate (sodium nitrate) containing electrolyte hydrate as the main material And a low-temperature heat storage material, cations to suppress the crystal habits associated with phase change, cations, surfactants such as tetrasodium pyrophosphate hydrate useful for ion exchange capacity of anions, and ammonia salts to set the melting point freezing point, It contains ethylenediamine, sodium tetraborate as a supercooling prevention catalyst, a zeolite composite in a phase separation prevention suspension and nanocarbon as a heat transfer accelerator, and is a solid-liquid reversible in the low temperature range, with a transition point from 8 ° C to 12 ° C. Is known (see, for example, Patent Document 2). However, there is a possibility that a large lump (crystal lump) is generated in such a latent heat storage material, which may be cured, and the latent heat effect is excellent, and it is soft to the human body as in the present invention. It is unclear whether the composition crystals are made small and uniform to prevent the formation of large lumps.

Further, the regenerator material that maintains the melting temperature in a low temperature region of −13 ° C. or more and −2 ° C. or less, exhibits a stable temperature holding time in the temperature region, and can prevent contamination of the regenerator material composition due to container breakage as much as possible. In order to provide a composition, it is a gel-like aqueous solution comprising a melting temperature adjusting agent, a gelling agent, and water, and contains 2.0% by weight or more and 20% by weight or less of urea as a melting temperature adjusting agent. A cold storage composition having a melting temperature in the range of −2 ° C. or lower is known (see, for example, Patent Document 3). However, there is a possibility that a large lump (crystal lump) is generated in such a regenerator material composition and that it hardens, and it is soft to the human body as in the present invention. It is unclear whether the size is small and uniform to prevent the generation of large lumps.

  Thus, in order to satisfy those who use the cooling sensation mat, the feel of the mat itself is soft to the human body, and the part of the body that touches the mat is sufficiently cooled to obtain a satisfactory cooling effect. Currently, development is required.

JP 2008-063547 A JP 2008-184589 A JP 2017-145363 A

  An object of the present invention is to solve the above-described problems of the prior art, and the feeling of the cooling sensation mat itself is soft to the human body lying on the mat, and the part of the body that touches the mat is sufficiently cooled. An object of the present invention is to provide an anti-curing cooling sensation mat capable of obtaining a satisfactory cooling effect. According to the present invention, in order to prevent the curing phenomenon of the cooling sensation mat, by adding an auxiliary agent such as a hardener, a suspending agent, and a dispersing agent to the middle material, the crystal size of the middle material is reduced. It is possible to prevent the generation of large lumps and improve the user's comfort.

  The anti-cooling mat of the present invention has two polygonal sheets of the same size overlapped, and the outer peripheral edge of the polygon is fixed to form a space inside. A plurality of chambers divided between the lower sheet and the lower sheet are configured, and in each of these chambers, a simple substance, a thickener, a curing agent, a crosslinking agent, a suspending agent, a dispersing agent, an antifungal antibacterial agent, And the gel-like composition which consists of water is filled as a middle material, It is characterized by the above-mentioned.

  According to the anti-curing cooling sensation mat of the present invention, compared to the prior art, the inner material filled in the cooling sensation is crystallized from a liquid without causing crystal lumps of the components in the intermediate material. The problem of being hardened during the circulation process is solved.

  In the anti-curing cooling sensation mat of the present invention, the intermediate material comprises 70.0 to 80.0% by weight of a single substance, 0.1 to 0.5% by weight of a thickener, and 1.0 to 5.0% by weight of a hardener. , Crosslinking agent 1.0 to 10.0% by weight, Precipitating agent 1.0 to 5.0% by weight, Dispersing agent 1.0 to 5.0% by weight, Antifungal antibacterial agent 1.0 to 5.0 It consists of 1.0% by weight and 5.0% by weight of water.

  In the above-mentioned middle material component, the simple substance is 70.0 to 80.0% by weight, the thickener is 0.1 to 0.5% by weight, the curing agent is 1.0 to 5.0% by weight, and the crosslinking agent is 1%. 0.0-10.0% by weight, precipitation inhibitor 1.0-5.0% by weight, dispersant 1.0-5.0% by weight, fungicide antibacterial agent 1.0-5.0% by weight When the water content is 1.0 to 5.0% by weight, the anti-curing cooling sensation mat of the present invention can achieve the intended purpose. That is, the feeling of the cooling sensation mat itself is soft to the human body etc. lying on the mat, and a satisfactory cooling effect that the part of the body touching the mat is sufficiently cooled can be obtained and filled in the cooling sensation mat. It is possible to prevent the middle material from being cured. By adding auxiliary agents such as hardeners, suspending agents, and dispersing agents to the mid-material, the size of the crystal of the mid-material is made small and uniform, preventing the formation of large lumps and improving the user's comfort. It is possible to improve.

  However, if the amount of the simple substance is less than 70.0% by weight, it tends to remain in a liquid state even when it is in a low temperature environment, and there is a tendency that crystallization is rare, and it is difficult to obtain a heat absorption effect. When the content exceeds 0.0% by weight, the intermediate material remains solid even at a low temperature, and is too hard, so it is not in a crystalline state, becomes sandy, has a tendency to be uncomfortable, and further costs high. If the concentration of the thickener is less than 0.1% by weight, the preferred anti-curing cooling sensation mat of the present invention cannot be obtained, and if it exceeds 0.5% by weight, the present invention The preferable anti-cooling sensation mat of the present invention cannot be obtained, and it is useless because it tends to be too costly. If the anti-curing agent is less than 1.0% by weight, the preferable anti-cooling sensation of the present invention is used. Can get the mat If it exceeds 5.0% by weight, it tends to be costly and is useless, and if the crosslinking agent is less than 1.0% by weight, the preferred anti-curing cooling sensation mat of the present invention can be obtained. When the amount exceeds 10.0% by weight, the preferred anti-curing cooling sensation mat of the present invention cannot be obtained, and the cost tends to be too high. If it is less than 5%, it is impossible to obtain the preferred anti-cooling sensation mat of the present invention, and if it exceeds 5.0% by weight, it is impossible to obtain the preferred anti-curing sensation mat of the present invention, and the cost is further reduced. If the dispersant is less than 1.0% by weight, the dispersion of each component tends to be insufficient from the production stage of the intermediate material, and even if mixed sufficiently, it is between the components. After the fusion effect is low and the final product There is a tendency that the phenomenon that melting is partially fast and crystallization is insufficient tends to occur, and if it exceeds 5.0% by weight, the preferred anti-curing cooling sensation mat of the present invention cannot be obtained. In addition, it tends to be too costly and wasteful. If the antibacterial and antibacterial agent is less than 1.0% by weight, mold and bacteria tend to propagate, and if it exceeds 5.0% by weight, If the water content is less than 1.0% by weight, the viscosity of the intermediate material becomes high, which is not preferable as a product, and if it exceeds 5.0% by weight, the viscosity is low. That is, it is not preferable as a product, and there is a problem that it remains in a liquid state even in a low-temperature environment and there is very little crystallization, and it tends to be difficult to obtain a heat absorption effect.

  In the anti-curing cooling sensation mat of the present invention, the simple substance is an inorganic phase change agent or a mixture of an inorganic phase change agent and sodium chloride.

  In the anti-curing cooling sensation mat of the present invention, the simple substance is a mixture of sodium sulfate decahydrate, polyethylene glycol, sodium chloride, and paraffin wax.

  In the anti-curing cooling sensation mat of the present invention, the thickener comprises at least one selected from sodium polyacrylate, pralidoxime methyl iodide, carboxymethyl cellulose, and carbomer (carboxyvinyl polymer). To do.

  The anti-curing cooling sensation mat of the present invention is characterized in that the crosslinking agent comprises at least one selected from borax, N, N′-methylenebisacrylamide, and a silane coupling agent.

  In the anti-curing cooling sensation mat of the present invention, the curing agent is at least one selected from aluminosilicates.

  In the anti-curing cooling sensation mat of the present invention, the aluminosilicate is sodium aluminosilicate.

  In the anti-curing cooling sensation mat of the present invention, the precipitation inhibitor is made of fumed silica.

  In the anti-curing cooling sensation mat of the present invention, the dispersant is a powdered inorganic material.

  In the anti-curing cooling sensation mat of the present invention, the powdery inorganic material is composed of sodium polymetaphosphate.

  The anti-curing sensation mat according to the present invention is characterized in that the antifungal antibacterial agent comprises zinc oxide.

  As described above, according to the intermediate material filled in the anti-curing cooling sensation mat of the present invention, since the synergistic action of the anti-curing agent, the suspending agent, and the dispersing agent is utilized, the particles between the respective components are used. Adhesive force can be improved, and the curing phenomenon of the cold mat material can be prevented.

  According to the anti-cooling sensation mat of the present invention, in addition to a single component (main component material), a thickening agent, an anti-curing agent, a suspending agent and a dispersing agent are added to prevent the curing phenomenon during the circulation process and The risk is also reduced.

  According to the anti-curing cooling sensation mat of the present invention, the feeling of the cooling sensation mat itself is soft to the human body lying on the mat, and the body part touching the mat is sufficiently cooled, so that a satisfactory cooling effect is obtained. There is an effect that it is possible to provide a cured anti-cooling mat.

  According to the anti-hardening cooling sensation mat of the present invention, the occurrence of the curing phenomenon of the cooling sensation mat is prevented, and the size of the crystals of the intermediate material filled in the mat is made small and uniform to prevent the generation of large lumps. This has the effect of improving the user's comfort.

  According to the anti-curing cooling sensation mat of the present invention, the cool feeling is maintained, so that it does not become slim even if it is used for a long time. Moreover, since it cools and crystallizes at 30 degrees C or less, and absorbs heat at 30 degrees C or more and liquefies, it can usually keep a cold state if it lays in the room of normal temperature. If you sweat, wipe the mat surface with a towel to keep it clean and easy to clean.

The perspective view which shows the external appearance of the hardening prevention cold feeling mat | matte of this invention. The side view (sectional drawing) of the hardening prevention cold feeling mat | matte cut | disconnected by the II-II line | wire of FIG. The thermography image which shows the temperature distribution of the user's back of the case where it is unused (a) which did not use the anti-hardening cooling sensation mat | matte of this invention, and the case after use (b). A graph that measures the surface temperature change of the human body when the anti-curing cooling sensation mat is not used (before use) and when it is used (after use) (the vertical axis is the temperature of the mat's contents and the horizontal axis is the elapsed time) ). The graph which shows the data which observed and measured the relationship between test time and the temperature (fall temperature) of mat | matte over 82 minutes.

  Hereinafter, embodiments according to the present invention will be described. First, an outline of the embodiment will be described, and then individual components will be described.

  According to the embodiment of the anti-hardening cooling sensation mat according to the present invention, the anti-cooling cooling sensation mat is the same size of various shapes such as a polygonal shape (for example, a rectangle, a square, etc.), a circle, and an ellipse The two sheets overlap each other, all the edge portions of the outer periphery of the polygonal shape are fixed, and a space is formed in the interior, and variously divided between the upper sheet and the lower sheet A plurality of chambers of the following shape are formed, and in each of these chambers, a gel composition composed of a simple substance, a thickener, a curing agent, a crosslinking agent, a suspending agent, a dispersant, a fungicide antibacterial agent and water is contained. This material is filled with 70.0 to 80.0% by weight of a simple substance, 0.1 to 0.5% by weight of a thickener, 1.0 to 5.0% by weight of a hardener, and crosslinked. 1.0 to 10.0% by weight of an agent, 1.0 to 5.0% by weight of a suspending agent, 1.0 to 5.0% by weight of a dispersant, and an antifungal agent 1. It consists of 0 to 5.0% by weight, and 1.0 to 5.0% by weight of water.

  Examples of the above components are as follows. The simple substance is, for example, preferably an inorganic phase transfer agent composed of at least one selected from sodium sulfate decahydrate (sodium sulfate), sodium sulfate, anhydrous sodium sulfate, polyethylene glycol, paraffin, sodium chloride, ammonium chloride and the like. Or preferably consists of a mixture of this inorganic phase transfer agent and sodium chloride, and the thickener is selected from sodium polyacrylate, pralidoxime methyl iodide, carboxymethylcellulose, and carbomer (carboxyvinyl polymer). And the crosslinking agent is borax, N, N′-methylenebisacrylamide, and preferably, for example, aminopropyltriethoxysilane, glycidoxycarbonyltrimethoxysilane, methacryloxypropylmethoxysilane, Vinylt It consists of at least one selected from silane coupling agents consisting of ethoxysilane, indolepropyltrimethoxysilane, ethylenediaminepropyltriethoxysilane, ethylenediaminepropylmethyldimethoxysilane, etc., and the hardener is selected from aluminosilicates Consists of at least one (preferably sodium aluminosilicate), the precipitation inhibitor is fumed silica, and the dispersant is preferably, for example, phosphate, (hexa) metaphosphate, sodium polymetaphosphate , A powdery inorganic material consisting of at least one selected from silicates, carbonates and the like, and the antifungal antibacterial agent comprises various antifungal antibacterial agents, preferably zinc oxide.

  In addition, the outer sheet for filling the inner material (surface / back surface material of the cooling sensation mat) has a high cooling effect, is not easily damaged, has a high waterproof property, and has a high antifungal property, for example, 100% polyester. It is preferable that the material is made of a material or 100% polyvinyl chloride material. Then, the edges around the front and back materials are welded with predetermined heat (heat at the temperature at which the materials are welded), and all the edges around the sheet are firmly fixed to provide complete waterproofing. . The anti-curing cooling sensation mat of the present invention is composed of a plurality of divided chambers. For this division, when the mat is divided into a predetermined number, a predetermined amount is obtained in the same manner as the edge around the material. Each chamber is constructed by welding with the heat. Therefore, it is possible to produce a durable mat that does not become worn out even if washed with water many times.

  By using the hardener, for example, aluminosilicate (for example, preferably sodium aluminosilicate) or the like weakens the connection effect between the particles of each component, homogenizes and stabilizes the crystal. Is possible. Moreover, aluminosilicate adheres to a main component material, and can fulfill | perform the fluidity | liquidity of a single-piece | unit and the hardening prevention object with the following means.

  (1) Physically functions as a barrier between main component materials. Since the adhesion of the aluminosilicate itself is small, the connection of the main component materials is also weakened at the same time, and it becomes difficult to continue the connection and form a large crystal. When the aluminosilicate adheres to the surface of the main component material, the friction force on the surface of the main component material is reduced, the fluidity of the main component material is increased, and the crystal itself is made more uniform.

  (2) The moisture absorption hardening tendency of the main component material is reduced by the moisture absorption competition between the aluminosilicate and the main component material.

  (3) During the crystallization process of the main component material, the internal structure and interface of the crystal can be reduced. If the interface is small, the crystal structure between the molecules can be easily broken, and as a result, it becomes difficult to form large crystals (lumps).

  By using the suspending agent, for example, if fumed silica or the like having a strong surface adhesion exists on the surface of the molecule of the main material of the present invention, the adhesiveness between the crystals decreases, and the mass of the crystals is large. Can be prevented.

  By using the antifungal antibacterial agent, for example, an antibacterial effect can be obtained with zinc oxide or the like, the cold sensitivity can be increased, and the heat absorption time can be extended. Nanometer grade zinc oxide has high efficiency activity, high absorption rate, strong antioxidant ability, safety and stability, and antibacterial effect.

  The water is not particularly limited as long as it is ordinary water, but distilled water is preferable.

  As described above, according to the intermediate material filled in the anti-curing cooling sensation mat of the present invention, since the synergistic action of the anti-curing agent, the suspending agent, and the dispersing agent is utilized, the particles between the respective components are used. Adhesive force can be improved, and the curing phenomenon of the inner material for a cold sensation mat can be prevented.

  According to the present invention, by adjusting the ratio of sodium chloride, the cooling sensation is improved and the cooling sensation duration is extended. Thus, the freezing point of the main component material can be lowered by adjusting the amount of sodium chloride charged. That is, one of the component materials, sodium sulfate decahydrate, has a freezing point of 32 ° C., and usually the optimum surface temperature of the human body is 27 to 29 ° C. By adding sodium chloride, a eutectic mixture is formed with sodium sulfate decahydrate, so that the melting point can be lowered to 27 to 29 ° C. As a result, a cold feeling can be felt as soon as the human body surface exceeds 27 ° C. instead of 32 ° C.

  The intermediate materials obtained in the following examples and comparative examples are divided into 20 chambers in total (2 columns in the vertical direction and 10 columns in the horizontal direction) in the 90 × 140 cm anti-curing cooling sensation mat as shown in FIG. Each of the chambers having a size of 45 × 14 cm was filled into each chamber of the mat to produce an anti-curing cooling sensation mat.

  Regarding the gel-like (gel-like) intermediate material filled in the anti-curing cooling sensation mat of the present invention, first, water, a simple substance, and a dispersing agent are put into a predetermined container, and preferably mixed for about 10 minutes. After that, a crosslinking agent was added, and preferably, the mixture was mixed for about 5 minutes, and then a thickener, a hardener, a precipitation inhibitor, and a fungicide antibacterial agent were added and mixed thoroughly. In the following Examples and Comparative Examples, the above components were mixed in this order, and an intermediate material was produced according to this process. All of these components were added and mixed in an environment at room temperature (18-25 ° C.).

  In this example, the following components were mixed at room temperature (18 to 25 ° C.) based on the above-described production process of the intermediate material to prepare the intermediate material. In the following examples and comparative examples, intermediate materials were produced based on the same process. As a simple substance, a mixture of 55.0% by weight of sodium sulfate decahydrate, 32.0% by weight of polyethylene glycol, 6.0% by weight of sodium chloride, and 7.0% by weight of paraffin wax is used as a thickener. Sodium polyacrylate 0.5% by weight, sodium aluminosilicate 3.0% by weight as a hardener, and borax 6.5% by weight as a crosslinking agent. Fumed silica 3.5% by weight as a suspending agent, 5.0% by weight sodium hexametaphosphate (sodium polymetaphosphate) as a dispersing agent, 4.0% by weight zinc oxide and 2.5% by weight water as an antifungal antibacterial agent Mixing based on the process described above. The gel-like composition thus obtained was used as an intermediate material for an anti-curing cooling sensation mat.

  Using a predetermined amount of the intermediate material thus produced, two sheets of polyester as shown in FIG. 1 are combined, their peripheral edges are heat-sealed and sealed, and this sealed one is then heated. A room divided into 20 rooms by welding was filled with the intermediate material to produce an anti-curing mat for product prevention.

  The human body (male) was laid on its back for 60 minutes in an environment of a temperature of 30 ° C. and a humidity of 40 RH% on the anti-setting cooling sensation mat thus produced, and the temperature distribution of the back was analyzed and measured by thermography after 60 minutes. . In this case, as a comparison, the temperature distribution of the back was similarly analyzed and measured by thermography for the human body which did not use the anti-curing cooling sensation mat. The results are shown in FIGS. 3 (a) and 3 (b). As can be seen from FIG. 3 (a) (60 minutes, no anti-cooling mat used), the human body surface temperature is found to be high because there are many red parts, and FIG. 3 (b) (60 minutes, As is clear from the use of an anti-curing cooling sensation mat), the red part is hardly present, the blue part is almost present, and the human body surface temperature is low as apparent from the presence of the white part. Furthermore, the surface temperature change of the human body was measured for 70 minutes when the anti-curing cooling sensation mat was not used and when it was used (FIG. 4). As a result, as is apparent from FIG. 4, when not used (before use), the temperature rises from about 34 ° C. to about 40 ° C., and when used (after use), about 32 ° C. to about 36 ° C. It rose only up to. From this, the effect that the human body surface temperature can be lowered by about 3 ° C. or more can be achieved by using the anti-curing cooling sensation mat. Further, regarding the anti-curing cooling sensation mat of this example, the relationship between the test time with the passage of the test time and the temperature of the mat itself (falling temperature) was observed and measured at a test environment temperature of 25 ° C. over 82 minutes. The results are shown in Table 1 below and are shown graphically in FIG. As is clear from the results, the coolable temperature of the mat itself is 26 to 27 ° C., and when the temperature is in the range of 26 to 27 ° C., the intermediate material changes from liquid to solid.

  Moreover, when using the intermediate | middle material which falls in the composition range of this invention like a present Example, the above effects were achieved.

  80.0% by weight of the mixture described in Example 1 as a simple substance, 0.1% by weight of sodium polyacrylate as a thickener, 5.0% by weight of sodium aluminosilicate as a hardener, and 1.0% of borax as a crosslinking agent weight%. Example 1 using 2.9% by weight of fumed silica as a suspending agent, 1.0% by weight of sodium hexametaphosphate as a dispersing agent, 5.0% by weight of zinc oxide and 5.0% by weight of water as an antifungal antibacterial agent The gel-like composition thus obtained was mixed according to the process described in 1), and used as an intermediate material for an anti-curing cooling sensation mat.

  The intermediate material thus produced was used in the same amount as in Example 1, and filled in an anti-curing sensation mat composed of two sheets made of polyester shown in FIG. 1 as described in Example 1. (The edges around the two sheets are sealed with heat). Moreover, each chamber which comprises the mat | matte obtained in this way was comprised and comprised so that it might be sealed with heat. Thus, a product was obtained.

  The thermographic analysis measurement and surface temperature measurement of the temperature distribution of the human body described in Example 1 were performed in the same manner as in Example 1 using the thus prepared anti-curing cooling sensation mat. As a result, the same results were obtained for both the thermographic analysis measurement of the temperature distribution of the human body and the surface temperature measurement.

  Moreover, when using the intermediate | middle material which falls in the composition range of this invention like a present Example, the above effects were achieved.

  80.0% by weight of the mixture described in Example 1 as a simple substance, 0.2% by weight of sodium polyacrylate as a thickener, 3.0% by weight of sodium aluminosilicate as a hardener, and 5.0% of borax as a crosslinking agent weight%. Example 1 using 2.8% by weight of fumed silica as a suspending agent, 3.0% by weight of sodium hexametaphosphate as a dispersing agent, 2.0% by weight of zinc oxide and 4.0% by weight of water as an antifungal antibacterial agent The gel-like composition thus obtained was mixed according to the process described in 1), and used as an intermediate material for an anti-curing cooling sensation mat.

  The intermediate material thus produced was used in the same amount as in Example 1, and filled in an anti-curing sensation mat composed of two sheets made of polyester shown in FIG. 1 as described in Example 1. (The edges around the two sheets are sealed with heat). In addition, each chamber constituting the mat thus obtained has been constructed so as to be sealed with heat. Thus, a product was obtained.

  The thermographic analysis measurement and surface temperature measurement of the temperature distribution of the human body described in Example 1 were performed in the same manner as in Example 1 using the thus prepared anti-curing cooling sensation mat. As a result, the same results were obtained for both the thermographic analysis measurement of the temperature distribution of the human body and the surface temperature measurement.

  Moreover, when using the intermediate | middle material which falls in the composition range of this invention like a present Example, the above effects were achieved.

  70.0% by weight of the mixture described in Example 1 as a simple substance, 0.5% by weight of sodium polyacrylate as a thickening agent, 1.5% by weight of sodium aluminosilicate as a hardener, and 10.0% by weight of borax as a crosslinking agent %. Example: Using 5.0% by weight of fumed silica as a suspending agent, 5.0% by weight of sodium hexametaphosphate as a dispersing agent, 3.0% by weight of zinc oxide and 5.0% by weight of water as antifungal antibacterial agents The gel composition thus obtained was mixed according to the process described in No. 1 and used as an intermediate material for an anti-curing cooling sensation mat.

  The intermediate material thus produced was used in the same amount as in Example 1, and filled in an anti-curing sensation mat composed of two sheets made of polyester shown in FIG. 1 as described in Example 1. (The edges around the two sheets are sealed with heat). In addition, each chamber constituting the mat thus obtained has been constructed so as to be sealed with heat. Thus, a product was obtained.

  The thermographic analysis measurement and surface temperature measurement of the temperature distribution of the human body described in Example 1 were performed in the same manner as in Example 1 using the thus prepared anti-curing cooling sensation mat. As a result, the same results were obtained for both the thermographic analysis measurement of the temperature distribution of the human body and the surface temperature measurement.

  Moreover, when using the intermediate | middle material which falls in the composition range of this invention like a present Example, the above effects were achieved.

  As a simple substance, two or three kinds selected from sodium sulfate decahydrate, polyethylene glycol, sodium chloride, and paraffin wax were used at 70.0% by weight, 75.0% by weight, or 80.0% by weight, and the rest The components and the amounts of these were the same as those in Examples 1 to 4 (the total weight was 100% by weight), and Examples 1 to 4 were repeated. The gel-like composition thus obtained was used as an intermediate material for an anti-curing cooling sensation mat.

  The intermediate material thus produced was used in the same amount as in Example 1, and filled in an anti-curing sensation mat composed of two sheets made of polyester shown in FIG. 1 as described in Example 1. (The edges around the two sheets are sealed with heat). In addition, each chamber constituting the mat thus obtained has been constructed so as to be sealed with heat. Thus, a product was obtained.

  The thermographic analysis measurement and surface temperature measurement of the temperature distribution of the human body described in Example 1 were performed in the same manner as in Example 1 using the thus prepared anti-curing cooling sensation mat. As a result, the same results were obtained for both the thermographic analysis measurement of the temperature distribution of the human body and the surface temperature measurement.

  Moreover, when using the intermediate | middle material which falls in the composition range of this invention like a present Example, the above effects are achieved. In addition, when sodium sulfate decahydrate is used alone as a simple substance, the resulting intermediate material is poor in solid state, and the appearance is not preferable for use as an intermediate material. However, the melting temperature of sodium sulfate decahydrate is around 32 ° C, and by blending with other single components, the melting temperature can be lowered to around 29 ° C, and the cooling effect at a temperature that makes the human body comfortable Obtained.

Instead of sodium polyacrylate as a thickener, one kind selected from pralidoxime methyl iodide, carboxymethyl cellulose and carbomer (carboxyvinyl polymer) was used in the same amount as in Example 1, and the remaining components and component amounts were carried out. Examples 1-4 were repeated with the same as each of Examples 1-4. The gel-like composition thus obtained was used as an intermediate material for an anti-curing cooling sensation mat.

  The intermediate material thus produced was used in the same amount as in Example 1, and filled in an anti-curing sensation mat composed of two sheets made of polyester shown in FIG. 1 as described in Example 1. (The edges around the two sheets are sealed with heat). In addition, each chamber constituting the mat thus obtained has been constructed so as to be sealed with heat. Thus, a product was obtained.

  The thermographic analysis measurement and surface temperature measurement of the temperature distribution of the human body described in Example 1 were performed in the same manner as in Example 1 using the thus prepared anti-curing cooling sensation mat. As a result, the same results were obtained for both the thermographic analysis measurement of the temperature distribution of the human body and the surface temperature measurement.

  Moreover, when using the intermediate | middle material which falls in the composition range of this invention like a present Example, the above effects were achieved.

  Instead of borax as a crosslinking agent, N, N′-methylenebisacrylamide or a silane coupling agent is used, and the remaining components and component amounts are the same as those in Examples 1 to 4, respectively. Repeated. The gel-like composition thus obtained was used as an intermediate material for an anti-curing cooling sensation mat.

  The intermediate material thus produced was used in the same amount as in Example 1, and filled in an anti-curing sensation mat composed of two sheets made of polyester shown in FIG. 1 as described in Example 1. (The edges around the two sheets are sealed with heat). Moreover, each chamber which comprises the mat | matte obtained in this way was comprised and produced so that it might be sealed with heat. Thus, a product was obtained.

  The thermographic analysis measurement and surface temperature measurement of the temperature distribution of the human body described in Example 1 were performed in the same manner as in Example 1 using the thus prepared anti-curing cooling sensation mat. As a result, the same results were obtained for both the thermographic analysis measurement of the temperature distribution of the human body and the surface temperature measurement.

  Moreover, when using the intermediate | middle material which falls in the composition range of this invention like a present Example, the above effects were achieved.

  As the thickener, two kinds selected from sodium polyacrylate, pralidoxime methyl iodide, carboxymethylcellulose, and carbomer were used, and the remaining components and component amounts were the same as those in Examples 1-4. 4 was repeated. The mixing amount in this case was set to be the same as in the case of sodium polyacrylate alone. The gel-like composition thus obtained was used as an intermediate material for an anti-curing cooling sensation mat.

  The intermediate material thus produced was used in the same amount as in Example 1, and filled in an anti-curing sensation mat composed of two sheets made of polyester shown in FIG. 1 as described in Example 1. (The edges around the two sheets are sealed with heat). Moreover, each chamber which comprises the mat | matte obtained in this way was comprised and produced so that it might be sealed with heat. Thus, a product was obtained.

  The thermographic analysis measurement and surface temperature measurement of the temperature distribution of the human body described in Example 1 were performed in the same manner as in Example 1 using the thus prepared anti-curing cooling sensation mat. As a result, the same results were obtained for both the thermographic analysis measurement of the temperature distribution of the human body and the surface temperature measurement.

  Moreover, when using the intermediate | middle material which falls in the composition range of this invention like a present Example, the above effects were achieved.

  In this example, as a simple substance, a mixture of 55.0% by weight of sodium sulfate decahydrate, 32.0% by weight of polyethylene glycol, 6.0% by weight of sodium chloride and 7.0% by weight of paraffin wax was 80.0%. %, Sodium polyacrylate 0.3% by weight as thickening agent, 2.2% by weight sodium aluminosilicate as hardener, and 9.5% by weight borax as crosslinking agent. Fumed silica 1.0% by weight as a suspending agent, 5.0% by weight sodium hexametaphosphate (sodium polymetaphosphate) as a dispersing agent, 1.0% by weight zinc oxide and 1.0% by weight water as an antifungal antibacterial agent. Mixing based on the process described above. The gel-like composition thus obtained was used as an intermediate material for an anti-curing cooling sensation mat.

  The intermediate material thus produced was used in the same amount as in Example 1, and filled in an anti-curing sensation mat composed of two sheets made of polyester shown in FIG. 1 as described in Example 1. (The edges around the two sheets are sealed with heat). In addition, each chamber constituting the mat thus obtained has been constructed so as to be sealed with heat. Thus, a product was obtained.

  The thermographic analysis measurement and surface temperature measurement of the temperature distribution of the human body described in Example 1 were performed in the same manner as in Example 1 using the thus prepared anti-curing cooling sensation mat. As a result, the same results were obtained for both the thermographic analysis measurement of the temperature distribution of the human body and the surface temperature measurement.

  Moreover, when using the intermediate | middle material which falls in the composition range of this invention like a present Example, the above effects were achieved.

  According to the intermediate material of the anti-curing cooling sensation mat described in Examples 1 to 9, a predetermined amount of thickener, anti-curing agent, suspending agent, dispersing agent and the like is added in addition to the single component (main component material). During the circulation process, the medium was prevented from hardening and the risk of product damage was reduced. Further, according to the intermediate material used in the present invention, the feeling of the cooling sensation mat itself is soft to the human body lying on the mat, and there is a satisfactory cooling effect that the part of the body touching the mat is sufficiently cooled. Obtained. Furthermore, the occurrence of the curing phenomenon of the cooling sensation mat is prevented, the size of the crystals of the intermediate material filled in the mat is reduced and made uniform, the generation of large lumps is prevented, and the user's comfort is improved. I was able to. Furthermore, since the cool feeling of the anti-curing mat feeling is maintained, it will not become slimy even if it has been used for a long time, it will cool and crystallize at a predetermined temperature, and will absorb and liquefy heat at higher temperatures. Therefore, it was always possible to keep a cold state by placing it in a room at room temperature. Furthermore, if the person sweated, the mat surface was wiped with a towel or the like to maintain a clean state and easy to clean.

(Comparative Example 1)
85.0% by weight of the mixture described in Example 1 as a simple substance, 0.09% by weight of sodium polyacrylate as a thickener, 1.0% by weight of sodium aluminosilicate as a hardener, and 1.01 of borax as a crosslinking agent % By weight, 0.9% by weight of fumed silica as a suspending agent, 0.9% by weight of sodium hexametaphosphate as a dispersing agent, 5.6% by weight of zinc oxide and 5.5% by weight of water as an antifungal antibacterial agent, The gel-like composition thus obtained was mixed according to the process described in Example 1, and used as an intermediate material for an anti-curing cooling sensation mat.

  Using the same amount as the intermediate material example 1 produced in this way, it was filled in the inside of an anti-curing cooling sensation mat composed of two sheets made of polyester shown in FIG. The edges around the two sheets are sealed with heat). Moreover, each chamber which comprises the mat | matte obtained in this way was comprised and produced so that it might be sealed with heat. Thus, a product was obtained.

  In this comparative example, the content of simple substance in the wood is large, the concentration of the thickener is small, the content of the suspending agent is small, the content of the dispersant is small, the content of the fungicide antibacterial agent is large, and the water content is large. It was not possible to produce an anti-curing cooling sensation mat that achieves the purpose.

  In addition, when using an intermediate material that does not fall within the composition range of the present invention as in the present comparative example, there are disadvantages as described above.

More specifically, the middle material composition of this comparative example cannot prevent the curing phenomenon during the circulation process, there is also a risk of product damage, the curing phenomenon of the cooling sensation mat occurs, and the mat is filled. Further, the size of the crystals of the intermediate material was not small and uniform, and a large lump was generated, and the user was not comfortable to sleep. For this reason, the feeling of the cooling mat itself is not soft to the human body lying on the mat, and there is a problem that the body part touching the mat is sufficiently cooled and it is difficult to obtain a satisfactory cooling effect. In addition, since the content of the dispersant is small, the dispersion of each component tends to be insufficient from the production stage of the intermediate material. There was a tendency that the phenomenon of rapid melting and inadequate crystallization was likely to occur. Further, even if the intermediate material is in a low temperature state, it remains solid and is too hard to be in a crystalline state, becomes sandy, and has a tendency to be uncomfortable.

(Comparative Example 2)
66.7% by weight of the mixture described in Example 1 as a simple substance, 0.32% by weight of sodium polyacrylate as a thickening agent, 5.2% by weight of sodium aluminosilicate as a hardener, and 11.3% of borax as a crosslinking agent. % By weight, 5.2% by weight of fumed silica as a suspending agent, 5.2% by weight of sodium hexametaphosphate as a dispersing agent, 0.9% by weight of zinc oxide and 5.2% by weight of water as an antifungal antibacterial agent, The gel-like composition thus obtained was mixed according to the process described in Example 1, and used as an intermediate material for an anti-curing cooling sensation mat.

  The same amount of the intermediate material thus produced as in the example was filled into the inside of an anti-curing cooling sensation mat composed of two sheets made of polyester shown in FIG. 1 as described in Example 1 (two sheets). The edges around the sheet are sealed with heat). Moreover, each chamber which comprises the mat | matte obtained in this way was comprised and produced so that it might be sealed with heat. Thus, a product was obtained.

  In this comparative example, the content of simple substance in the wood is low, the thickener content is high, the hardener content is high, the crosslinking agent content is high, the precipitation inhibitor content is high, the dispersant content is high, Since the agent content is low and the water content is high, an anti-curing cooling sensation mat that achieves the object of the present invention could not be produced.

  Further, when using an intermediate material that does not fall within the composition range of the present invention as in the present comparative example, the above-described disadvantages exist.

  More specifically, the middle material composition of this comparative example cannot prevent the curing phenomenon during the circulation process, there is also a risk of product damage, the curing phenomenon of the cooling sensation mat occurs, and the mat is filled. Further, the size of the crystals of the intermediate material was not small and uniform, and a large lump was generated, and the user was not comfortable to sleep. For this reason, the feeling of the cooling mat itself is not soft to the human body lying on the mat, and there is a problem that the body part touching the mat is sufficiently cooled and it is difficult to obtain a satisfactory cooling effect. In addition, since the content of the simple substance is small and the content of water is large, there is a problem that it remains in a liquid state even in a low temperature environment and there is very little crystallization, and it is difficult to obtain a heat absorption effect. It was. There was a tendency for the cost to be too high due to the high content of hardener. Furthermore, there was a problem that mold and the like were easily formed on the inner material.

(Comparative Example 3)
As a simple substance, the mixture described in Example 1 was 69.0% by weight, the cross-linking agent was 10.5% by weight, and water was 4.5% by weight, and the thickener, hardener, suspending agent, dispersant, and As a mold antibacterial agent, the compound described in Example 1 and the same weight% were mixed according to the process described in Example 1, and the gel-like composition thus obtained was used as an intermediate material for an anti-curing cooling sensation mat. did.

  The intermediate material thus produced was used in the same amount as in Example 1, and filled in an anti-curing sensation mat composed of two sheets made of polyester shown in FIG. 1 as described in Example 1. (The edges around the two sheets are sealed with heat). Moreover, each chamber which comprises the mat | matte obtained in this way was comprised and produced so that it might be sealed with heat. Thus, a product was obtained.

  In this comparative example, since the content of the simple substance in the intermediate material was small and the content of the crosslinking agent was large, it was not possible to produce an anti-curing cooling sensation mat that achieves the object of the present invention.

  Further, when using an intermediate material that does not fall within the composition range of the present invention as in the present comparative example, the above-described disadvantages exist.

  More specifically, the middle material composition of this comparative example cannot prevent the curing phenomenon during the circulation process, there is also a risk of product damage, the curing phenomenon of the cooling sensation mat occurs, and the mat is filled. Further, the size of the crystals of the intermediate material was not small and uniform, and a large lump was generated, and the user was not comfortable to sleep. For this reason, the feeling of the cooling mat itself is not soft to the human body lying on the mat, and there is a problem that the body part touching the mat is sufficiently cooled and it is difficult to obtain a satisfactory cooling effect. Since the content of the simple substance is small, there is a tendency that it remains in a liquid state even in a low temperature environment and there is very little crystallization, and there is a tendency that it is difficult to obtain a heat absorption effect.

(Comparative Example 4)
81.0% by weight of the mixture described in Example 1 as a single substance, 1.6% by weight of the compound described in Example 1 as a crosslinking agent, 4.0% by weight of a suspending agent, and 4.5% by weight of a dispersant. The antifungal antibacterial agent is used in an amount of 4.5% by weight and water of 0.9% by weight, and the thickener, the hardener and the compound described in Example 1 and the same weight percent. The gel-like composition thus obtained was mixed according to a process, and used as an intermediate material for an anti-curing cooling sensation mat.

  The intermediate material thus produced was used in the same amount as in Example 1, and filled in an anti-curing sensation mat composed of two sheets made of polyester shown in FIG. 1 as described in Example 1. (The edges around the two sheets are sealed with heat). In addition, each chamber constituting the mat thus obtained has been constructed so as to be sealed with heat. Thus, a product was obtained.

  In this comparative example, since the content of the simple substance in the middle material was large and the water content was small, it was not possible to produce an anti-curing cooling sensation mat that achieves the object of the present invention.

  Further, when using an intermediate material that does not fall within the composition range of the present invention as in the present comparative example, the above-described disadvantages exist.

  More specifically, the middle material composition of this comparative example cannot prevent the curing phenomenon during the circulation process, there is also a risk of product damage, the curing phenomenon of the cooling sensation mat occurs, and the mat is filled. Further, the size of the crystals of the intermediate material was not small and uniform, and a large lump was generated, and the user was not comfortable to sleep. For this reason, the feeling of the cooling mat itself is not soft to the human body lying on the mat, and there is a problem that the body part touching the mat is sufficiently cooled and it is difficult to obtain a satisfactory cooling effect. Further, even when the intermediate material is in a low temperature state, it remains solid and is too hard, so it is not in a crystalline state, becomes sandy, and has a tendency to be uncomfortable. Furthermore, there is a problem that it is difficult to obtain an intermediate material having a preferable viscosity.

(Comparative Example 5)
0.6% by weight of the compound described in Example 1 as a thickener, 8.0% by weight of the compound described in Example 1 as a crosslinking agent, 4.0% by weight of the compound described in Example 1 as a dispersant, 1.9% by weight of water, simple substance, hardener, suspending agent and antifungal antibacterial agent were mixed according to the process described in Example 1 using the compound described in Example 1 and the same weight%, thus obtained. The gel-like composition thus obtained was used as an intermediate material for an anti-curing cold feeling mat.

  The intermediate material thus produced was used in the same amount as in Example 1, and filled in an anti-curing sensation mat composed of two sheets made of polyester shown in FIG. 1 as described in Example 1. (The edges around the two sheets are sealed with heat). In addition, each chamber constituting the mat thus obtained has been constructed and manufactured so as to be sealed with heat. Thus, a product was obtained.

  In this comparative example, since the thickener content in the intermediate material is large, it was not possible to produce an anti-curing cooling sensation mat that achieves the object of the present invention.

  Further, when using an intermediate material that does not fall within the composition range of the present invention as in the present comparative example, the above-described disadvantages exist.

  More specifically, the middle material composition of this comparative example cannot prevent the curing phenomenon during the circulation process, there is also a risk of product damage, the curing phenomenon of the cooling sensation mat occurs, and the mat is filled. Further, the size of the crystals of the intermediate material was not small and uniform, and a large lump was generated, and the user was not comfortable to sleep. For this reason, the feeling of the cooling mat itself is not soft to the human body lying on the mat, and there is a problem that the body part touching the mat is sufficiently cooled and it is difficult to obtain a satisfactory cooling effect.

(Comparative Example 6)
As a simple substance, the mixture described in Example 1 was 80.0% by weight, the thickener was 0.1% by weight, the curing agent was 0.9% by weight, the crosslinking agent was 2.8% by weight, and the mold antibacterial agent was 5%. .2. Mixing according to the process described in Example 1 using the compound and weight% described in Example 1 as a weight, suspending agent, dispersant and water, and preventing the gel-like composition thus obtained from curing It was used as a medium material for a cold feeling mat.

  The intermediate material thus produced was used in the same amount as in Example 1, and filled in an anti-curing sensation mat composed of two sheets made of polyester shown in FIG. 1 as described in Example 1. (The edges around the two sheets are sealed with heat). Moreover, each chamber which comprises the mat | matte obtained in this way was comprised and produced so that it might be sealed with heat. Thus, a product was obtained.

  In this comparative example, since the content of the anti-hardening agent in the intermediate material was low and the anti-fungal anti-bacterial agent content was high, it was not possible to produce an anti-hardening cooling sensation mat that achieves the object of the present invention.

  Further, when using an intermediate material that does not fall within the composition range of the present invention as in the present comparative example, the above-described disadvantages exist.

  More specifically, the middle material composition of this comparative example cannot prevent the curing phenomenon during the circulation process, there is also a risk of product damage, the curing phenomenon of the cooling sensation mat occurs, and the mat is filled. Further, the size of the crystals of the intermediate material was not small and uniform, and a large lump was generated, and the user was not comfortable to sleep. For this reason, the feeling of the cooling mat itself is not soft to the human body lying on the mat, and there is a problem that the body part touching the mat is sufficiently cooled and it is difficult to obtain a satisfactory cooling effect. Further, even when the intermediate material is in a low temperature state, it remains solid and is too hard, so it is not in a crystalline state, becomes sandy, and has a tendency to be uncomfortable.

(Comparative Example 7)
As a simple substance, the mixture described in Example 1 was 82.7% by weight, the curing agent was 0.9% by weight and the crosslinking agent was 0.9% by weight, a thickener, a suspending agent, a dispersant, an antifungal antibacterial agent, and As the water, the compound described in Example 1 and the same weight% were mixed according to the process described in Example 1, and the gel-like composition thus obtained was used as an intermediate material for an anti-curing cooling sensation mat.

  The intermediate material thus produced was used in the same amount as in Example 1, and filled in an anti-curing sensation mat composed of two sheets made of polyester shown in FIG. 1 as described in Example 1. (The edges around the two sheets are sealed with heat). Moreover, each chamber which comprises the mat | matte obtained in this way was comprised and produced so that it might be sealed with heat. Thus, a product was obtained.

  In this comparative example, since the content of the simple substance in the intermediate material was large, the content of the hardener was low, and the content of the crosslinking agent was low, it was not possible to produce an anti-hardening cooling sensation mat that achieves the object of the present invention.

  Further, when using an intermediate material that does not fall within the composition range of the present invention as in the present comparative example, the above-described disadvantages exist.

  More specifically, the middle material composition of this comparative example cannot prevent the curing phenomenon during the circulation process, there is also a risk of product damage, the curing phenomenon of the cooling sensation mat occurs, and the mat is filled. Further, the size of the crystals of the intermediate material was not small and uniform, and a large lump was generated, and the user was not comfortable to sleep. For this reason, the feeling of the cooling mat itself is not soft to the human body lying on the mat, and there is a problem that the body part touching the mat is sufficiently cooled and it is difficult to obtain a satisfactory cooling effect. Further, even when the intermediate material is in a low temperature state, it remains solid and is too hard, so it is not in a crystalline state, becomes sandy, and has a tendency to be uncomfortable.

  In the comparative example, it was not possible to produce an anti-curing cooling sensation mat that could not achieve the object of the present invention.

  The component contents (wt%) of Examples 1 to 9 and Comparative Examples 1 to 7 are summarized in Table 1 below.

  As a simple substance, an inorganic phase transfer agent selected from sodium sulfate, anhydrous sodium sulfate, polyethylene glycol, paraffin, sodium chloride, and ammonium chloride (however, excluding the examples in Examples 1 to 9), and as a thickener, polyacrylic acid A compound selected from sodium, pralidoxime methyl iodide, carboxymethylcellulose, and carbomer (carboxyvinyl polymer) (except for the examples in Examples 1 to 9), and borax, N, N′- Methylenebisacrylamide, aminopropyltriethoxysilane, glycidoxycarbonyltrimethoxysilane, methacryloxypropylmethoxysilane, vinyltriethoxysilane, indolepropyltrimethoxysilane, ethylenediaminepropyltriethoxysilane, and ethyl As a silane coupling agent selected from diaminepropylmethyldimethoxysilane (except for the examples in Examples 1 to 9), a hardener, sodium aluminosilicate, a precipitation inhibitor, fumed silica, and a dispersant. , Phosphates, (hexa) metaphosphates, sodium polymetaphosphates, silicates, and carbonates (except for the examples in Examples 1 to 9), and as antifungal antibacterial agents, oxidation Zinc and water are mixed according to the process described in Example 1, and the gel-like composition thus obtained is used as an intermediate material for an anti-curing cooling sensation mat.

  The intermediate material thus produced is used in the same amount as in Example 1, and filled in the inside of an anti-curing cooling sensation mat composed of two sheets made of polyester shown in FIG. 1 as described in Example 1. (The edges around the two sheets are sealed with heat). Further, each chamber constituting the mat thus obtained is constructed and manufactured so as to be sealed with heat. Thus, you get a product. For these products, the same results as in the examples are obtained.

  The anti-curing sensation mat according to the present invention is used in summer, mainly for sleeping of humans and pets, at the time of taking a nap, resting, and for a wide range of use for recovery from fatigue in summer, resting after sports, etc. It can be used for various purposes, and can be used effectively in various fields because it can be used for sleep of a human body or the like and for recovery from fatigue.

101 Anti-curing sensation mat 102 Divide boundary (horizontal)
103 District boundary (vertical)
104 Chamber 201 Upper sheet 202 Lower sheet 203 Middle material

Claims (12)

Two sheets of the same size in a polygonal shape overlap, the outer peripheral edge of the polygonal shape is fixed, and a space is formed inside, and between the upper sheet and the lower sheet A plurality of divided chambers are formed, and in each of these chambers, a gel composition composed of a simple substance, a thickener, a curing agent, a crosslinking agent, a suspending agent, a dispersing agent, a fungicide antibacterial agent, and water is contained. An anti-curing cooling sensation mat characterized by being filled as a material. The intermediate material is composed of 70.0 to 80.0% by weight of a simple substance, 0.1 to 0.5% by weight of a thickener, 1.0 to 5.0% by weight of a hardener, and 1.0 to 10% of a crosslinking agent. 0% by weight, 1.0 to 5.0% by weight of a suspending agent, 1.0 to 5.0% by weight of a dispersant, 1.0 to 5.0% by weight of a fungicide antibacterial agent, and 1.0 to 5% of water The anti-curing cooling sensation mat according to claim 1, comprising 0.0% by weight. The anti-curing cooling sensation mat according to claim 1 or 2, wherein the simple substance is an inorganic phase transfer agent or a mixture of an inorganic phase transfer agent and sodium chloride. The anti-setting cooling sensation mat according to any one of claims 1 to 3, wherein the simple substance is a mixture of sodium sulfate decahydrate, polyethylene glycol, sodium chloride and paraffin wax. The said thickener consists of at least 1 sort (s) chosen from sodium polyacrylate, pralidoxime methyl iodide, carboxymethylcellulose, and carbomer, The hardening of any one of Claims 1-4 characterized by the above-mentioned. Prevent cold feeling mat. The said crosslinking agent consists of at least 1 sort (s) chosen from borax, N, N'-methylenebisacrylamide, and a silane coupling agent, The any one of Claims 1-5 characterized by the above-mentioned. Anti-curing cold feeling mat. The said hardening agent consists of at least 1 sort (s) chosen from the aluminosilicate, The hardening prevention cold feeling mat | matte of any one of Claims 1-6 characterized by the above-mentioned. The anti-curing sensation mat according to claim 7, wherein the aluminosilicate is sodium aluminosilicate. The anti-setting cooling sensation mat according to any one of claims 1 to 8, wherein the suspending agent comprises fumed silica. The anti-curing sensation mat according to any one of claims 1 to 9, wherein the dispersant is a powdered inorganic material. The anti-curing sensation mat according to claim 10, wherein the powdery inorganic material is made of sodium polymetaphosphate. The anti-hardening cooling sensation mat according to any one of claims 1 to 11, wherein the antifungal antibacterial agent comprises zinc oxide.