JPH0417526Y2 - - Google Patents

Description

[Detailed explanation of the idea]

(b) Industrial application field This invention is particularly useful for clothing worn during cold weather such as life jackets, marine sports suits, diving suits, fishing vests, and ski suits, which can provide heat and can be used underwater. Regarding what can be used. (b) Prior Art Conventionally, clothing worn during cold weather has had an insulating effect from the outside, but has not provided heat to the user. In addition, if you want to receive heat supply, iron powder,
There is a method of using a so-called disposable body warmer, which is made of water, wood flour, activated carbon, salt, etc. and generates heat through oxidation. (c) Problems that the invention aims to solve Life jackets, marine sports suits,
Clothes such as diving work clothes, fishing vests, and ski suits are mainly worn in the cold.
These clothes have excellent insulation properties. but,
Even if clothing has excellent insulation properties, if the user is exposed to the cold for a long time, cold heat will be applied to the user through the clothing, making it impossible to leave the user in the cold for a long time. One way to solve this problem is to wear more layers of underwear under those clothes. However, this method only increases the insulation effect, that is, it only prevents cold heat from being transferred to the body from the outside of the clothing, and does not actively warm the user's body. Furthermore, when a person wears many layers of underwear, the body, mainly the muscles, becomes tightly constricted, making it difficult to move as desired. Furthermore, the above-mentioned method of using a disposable body warmer inside clothing requires oxygen for oxidation to generate heat, and there is a problem that it cannot be used at sea or underwater where oxygen is not available. In addition, the oxidizing material (heat generating material) of disposable body warmers is packed with paper, and there is a problem in that the paper packing dissolves in water and the oxidizing material inside flows out. Therefore, a heat supply means using a latent heat storage material made of a supercooled salt solution is considered as a means for receiving heat supply at sea or underwater. It is conceivable to incorporate this heat supply means into life jackets, marine sports suits, diving workwear, and the like. However, in the conventional heat supply means using a latent heat storage material, the bag that seals the latent heat storage material and the impact tool is mainly made of soft vinyl chloride. Soft vinyl chloride has a problem in that it has poor heat resistance, and when heat is supplied to the latent heat storage material by boiling, it may become excessively soft and difficult to handle, or it may melt and wet the contents. In addition, soft vinyl chloride has a high moisture permeability, and when the latent heat storage material is boiled or used underwater, water permeates and mixes with the latent heat storage material, reducing the performance of the latent heat storage material. A problem arises. In addition, flexible vinyl chloride has a problem in that its flexibility changes significantly depending on temperature. Therefore, when using the latent heat storage material and the impact tool in a sealed manner, a problem arises in that great care must be taken in handling. Further, in the heat supply means using a latent heat storage material, by operating a trigger which is an impact tool, the state of the latent heat storage material is changed and the stored latent heat is released.
However, in the conventional heat supply means using a latent heat storage material, the trigger is not positioned. Therefore,
If a heat supply means with no positioned trigger is used by attaching it to the inside of a marine sports suit, for example, it takes time and effort to find the trigger, and heat cannot be extracted from the latent heat storage material at the desired timing. A problem arises. Moreover, since marine sports suits, diving work clothes, ski slope suits, etc. are often made of thick and opaque materials, it is more difficult to find the trigger, making the problem even more serious. This idea was made in view of the above circumstances, and it allows you to get warm from the clothes you wear.
In addition, during heat storage using a latent heat storage material as a heat source, there is little thermal effect such as softening during boiling, and the performance of the latent heat storage material can be ensured by strongly suppressing the contamination of moisture. To provide heating clothing in which the influence of flexibility on heat of a bag housing a bag is kept small, and in addition, a trigger for generating heat is easy to handle. (d) Means for solving the problem This invention is based on a heat supply means equipped with a latent heat storage material that stores heat as latent heat inside the clothing body, and a heat supply means that is equipped with a latent heat storage material that stores heat as latent heat. This is a heating garment in which a bag for storing an impacting device for release is made of a specific synthetic resin, and the impacting device is positioned and arranged with respect to the bag. The detailed structure consists of a clothing body such as a life jacket, marine sports suit, diving suit, fishing vest, ski slope suit, etc., and a heat supply means attached to the clothing body. , consisting of a latent heat storage material, an impacting device thereof, and a bag for storing the latent heat storage material and impacting device in a sealed state, and the bag has (a) blocks at both ends made of a polymer of an aromatic vinyl compound; The end blocks of a block copolymer consisting of an intermediate block made of a conjugated diene polymer are 10 to 40% by weight of the copolymer, and 10% or less of the copolymer is hydrogenated, and the intermediate block is hydrogenated.
90% or more hydrogenated block copolymer; 30% to 90% by weight; (b) Isotaxic polypropylene with a melting point of 150°C or higher or a copolymer containing it as a component; 5% to 40% by weight , and (c) an ethylene-acrylate copolymer with an acrylate content of 5% or more, or an ethylene-vinyl ester copolymer with a vinyl ester content of 5% or more; 5% to 40% by weight
This heating garment is made of a resin composition consisting of the following, and has a positioning portion formed on the inner wall of the bag body for positioning the impact device. For example, when heat is applied to a latent heat storage material, it melts from a solid crystalline state to a liquid state, and by maintaining this liquid state, it stores the applied heat as latent heat, and when subjected to a shock after cooling naturally, it melts and becomes a liquid state. It returns to its original state from a liquid state to a solid crystalline state, and releases the accumulated latent heat. Specifically preferred is crystallization of sodium acetate trihydrate (hydrate CH ₃ COONa・3H ₂ O).
Examples include salt solutions. In addition, the bag body of this invention has (a) heat resistance because it is boiled to store latent heat in the latent heat storage material, (b) moisture barrier property because water does not get mixed in the latent heat storage material, and (c) body protection. (d) It is desirable to have flexibility so as not to hinder the movement of the impact device, and (d) transparency to make it easy to find the impact device. Component a) in the mixed resin serving as the base resin of the bag of this invention is an intermediate block (90 to 60% by weight) consisting of a conjugated diene copolymer.
This is a hydrogenated block copolymer obtained by hydrogenating a block copolymer consisting of a block copolymer and a block copolymer at both ends (10 to 40% by weight) consisting of a polymer of an aromatic vinyl compound at both ends. Examples of polymers of aromatic vinyl compounds constituting the above-mentioned both-end blocks include styrene polymers such as polystyrene, poly-α-methylstyrene, poly-p-methylstyrene, and polychlorostyrene, but their molecular weights are Those having an average molecular weight of 5,000 to 125,000 are suitable, and polystyrene is most preferred. On the other hand, the conjugated diene polymer constituting the intermediate block includes polybutadiene, polyisoprene, polychloroprene, etc., but a number average molecular weight of 10,000 to 300,000 is suitable, and polybutadiene is particularly preferable. and polyisoprene. The block copolymer used in the bag of this invention can be obtained by hydrogenating the above block copolymer. In this case, the hydrogenation ratio of both end blocks is 10%.
Hereinafter, the hydrogenation ratio in the intermediate block must be 90% or more. In particular, the hydrogenation ratio in the intermediate block is preferably 95% or more. This means that, for example, if the intermediate block is polybutadiene, the hydrogenated product will have an ethylene-butylene copolymer structure, and if the intermediate block is polyisoprene, the hydrogenated product will have an ethylene-propylene copolymer structure, and the entire structure will be ethylene-propylene copolymer. This is because the heat resistance and weather resistance are improved, and in particular, the bag of this invention has excellent heat resistance (high temperature strength). The content of the blocks at both ends is preferably 15 to 25% by weight. Block copolymer a) used in the bag of this invention
are easily available under names such as Kraton G-1650, Kraton G-1652, Kraton G-1657, and Kraton G-1658 (all manufactured by Shell Chemical). Moreover, these block copolymers are not limited to one type, but may be used in combination of two or more types. Next, the polypropylene component (b) used in the bag of this invention is an isotactic polypropylene with a melting point of 150°C or higher, or a copolymer mainly composed of it, and can be used as is, which is generally used as a molding material. be. Block copolymers and random copolymers of propylene and α-olefins such as ethylene and 1-butene can be used as copolymers, but in order to maintain the flexibility of the bag composition of this invention, a flexible one is required. Preference is given to random copolymers. Next, the ethylene-acrylate copolymer (component c) used in the bag of this invention must have an acrylate content of 5% or more. If the acrylate content is less than 5%, the transparency of the composition itself decreases and the flexibility of the composition is insufficient. Acrylates used in the ethylene-acrylate copolymer used in the bag of this invention include methyl acrylate, ethyl acrylate, butyl acrylate, 2-ethylhexyl acrylate, and methacrylic acid esters corresponding to these are also included. Most preferred are methyl acrylate and ethyl acrylate. On the other hand, as component c), an ethylene-vinyl ester copolymer having a vinyl ester content of 5% or more can also be used. Vinyl esters in such ethylene-vinyl ester copolymers include vinyl formate, vinyl acetate, vinyl propionate, vinyl butyrate, vinyl stearate, etc., but vinyl acetate is most preferred. The maximum content of these acrylates or vinyl esters in the copolymer is not particularly limited, but is suitably up to about 30%. In addition, it is particularly preferable to use an ethylene-acrylate copolymer in terms of low-temperature flexibility, high-temperature strength, stability, and the like. In addition to the above-mentioned essential main resin components, the mixed resin used for the bag of this invention may contain various plasticizers in an amount that does not impair flexibility, transparency, high-temperature strength, moldability, and safety. , an antiblocking agent, a sealing property improver, a heat stabilizer, an antioxidant, an ultraviolet absorber, a lubricant, a crystal nucleating agent, a coloring agent, and the like can also be contained. (E) Effect The heat supply means is a heating element that supplies heat to the user, and the heat generation is due to a change in state and does not require oxygen. The bag that houses the latent heat storage material of the heat supply means and the impact tool is made of a specific synthetic resin, which has a melting point of 120°C or higher, a water absorption rate of 0, and a moisture permeability of 0.6% ( (at room temperature for 12 days)
It has a good moisture barrier rate, and when it is boiled for heat storage or used underwater, there is almost no chance of moisture getting mixed into the latent heat storage material, and the rate of change in flexibility due to temperature changes is extremely low. small. In other words, the inventor of this invention believed that if the container containing the heat storage material is made of the specific resin composition described above instead of the commonly used soft vinyl chloride resin, the heat storage performance of the heat storage material will be less likely to deteriorate. This is what we discovered. The reason why the deterioration of heat storage performance can be reduced is that the specific resin composition mentioned above has an extremely low moisture permeability compared to soft vinyl chloride resin, which prevents moisture from entering the heat storage material. It is thought that this is because Since the impact tool is positioned, the user can operate the impact tool at a reliable timing without damaging the impact tool. (f) Examples This invention will be described in detail based on examples shown in FIGS. 1 to 12. However, this invention is not limited thereby. FIG. 1 is an overall perspective view of a life jacket 1, which is a heating garment, from the front, and FIG. 2 is a rear view of the life jacket 1. The jacket body 2 has a bag structure, and is equipped with an air supply means (not shown) for supplying air into the bag structure and an exhaust valve (not shown) for extracting the supplied air. There is. 12 is a belt for keeping the front opening 13 and 14 open, and the belt 12 and front opening 13 are
The open state is maintained by the engagement of the magic tape (registered trademark) 15 attached to the holder. The fabric of the clothing body 2 is made of a certain flexible synthetic resin. As shown in FIGS. 1 and 2, the garment body 2 is provided with a pocket 4 on its inner surface for storing and holding a heat supply means 3. As shown in FIG. 3, the pocket 4 is provided with a flap 6 for closing the pocket opening 5 and preventing the heat supply means 3 from flying out from the pocket 4 when the heat supply means 3 is housed and held. 7 is a magic tape (registered trademark) for keeping the flap 6 closed. As shown in FIGS. 4 to 8, the heat supply means 3 is a bag body 8 made of synthetic resin in which a latent heat storage material 9 and a trigger 10, which is an impact device, are enclosed. Note that 16 and 17 are heat-sealed parts of the bag body 8. The synthetic resin constituting the bag 8 is a specific resin composition, and more specifically, it is obtained by mixing a compound having the following composition in a blender and then extruding it in an extruder. (a) Kraton G-1650 (manufactured by Schiel Chemical) 25% by weight (b) Kraton G-1657 (manufactured by Schiel Chemical) 25 〃 (c) Polypropylene random copolymer with a melting point of 165°C 25 〃 (However, ethylene content of about 5% Random copolymer) (d) DPDJ−6182 25 〃 (Nippon Unicar 15% ethyl acrylate)
EEA copolymer) (e) Stearic acid 0.2 parts per 100 parts of the above resin (f) Synthetic rosin 3 parts per 100 parts of the above resin For reference, the resin composition related to this invention and the plasticizer 0.4mm of soft polyvinyl chloride containing 52 parts of 2-ethylhexyl phthalate
The measurement results of the physical properties of the thick sheet are shown below.

[Table] As shown in the physical property comparison table above, the resin composition used for the bag 8 of this invention has a high tensile strength, a small change in elastic modulus with respect to temperature changes, and a high resistance to moisture permeation. It is excellent in that it does not absorb. The latent heat storage material 9 is a supercooled salt solution,
Specifically, when it crystallizes, it becomes sodium acetate trihydrate (CH ₃ COONa.3H ₂ O). The latent heat storage material 9 melts and changes state when heat is applied, and stores a part of the applied heat in the form of latent heat. The latent heat stored in the latent heat storage material 9 is transferred to the trigger 10 which is an impact tool (specifically, for example,
501414, Japanese Patent Application Laid-Open No. 60-251189), the state changes from liquid to solid (crystal) and releases latent heat. Reference numeral 11 denotes a positioning part for positioning the trigger 10 within a certain position of the bag body 8, and is formed integrally with the bag body 8 to protrude (more specifically, it is formed integrally with the bag body 8 by injection molding, for example). The method of using the jacket will be explained below.Before using the jacket, first, place the heat supply means 3 in hot water and boil it for about 10 minutes, so that the latent heat storage material 9 The state changes from solid to liquid, and latent heat is stored in the latent heat storage material 9. At this time, when the latent heat storage material 9 is stored, it changes from a solid crystalline white color to a liquid transparent state.
From this, the user knows that latent heat has been stored. Also, since the bag body 8 is made of the above-mentioned synthetic resin, it will not excessively soften or melt during the boiling process, even at a temperature of 100°C, which is the boiling point of water. , not thermally affected. Therefore, for example, when the heat supply means 3 is removed from a boiling state, problems such as the bag body 8 being greatly stretched, expanded, or torn do not occur. Incidentally, when the bag body 8 is made of polyethylene resin, a problem arises in that it melts when boiled and the latent heat storage material inside the bag flows out to the outside. Furthermore, since the bag body 8 is transparent, the state change of the latent heat storage material 9, that is, the change from the white crystallized state to the transparent liquid state, can be easily seen and the position of the trigger 10 can be easily found. . The user cools the heat supply means 3 by natural cooling until it reaches approximately human skin temperature. As shown in FIG. 3, the cooled heat supply means 3 is gently slipped into the pocket 4 from the pocket opening 5 of the pocket 4 provided in the garment body 2 in the direction of arrow C without giving a shock. Next, the pocket opening 5 is closed by rotating the flap 6 in the direction of arrow D, and the magic tape 7 is engaged to house and hold the heat supply means 3. The closed state of the flap 6 is maintained by the magic tape (registered trademark) 7, and the engagement of the magic tape (registered trademark) 7 requires only an extremely light force.
There is no problem of accidentally pressing the trigger 10 of the heat supply means 3 and releasing the accumulated latent heat. After storing and holding the heat supply means 3 in all the pockets 4 provided in the jacket body 2, the user puts on the jacket. Here, if the user is forced to enter seawater and needs to use the life jacket 1, the user operates the air supply means described above to remove the life jacket 1, which has a bag structure. Air is pumped inside to create buoyancy. A user wearing the life jacket 1 enters seawater. If you feel cold due to cold heat from the cold seawater while submerging in the water, or if you feel that your ability to maintain body temperature is affected, press the trigger 10 (of the heat supply means 3) from the outside of the clothing body 2. ). Here, the trigger 10 is the latent heat storage material 9
It changes its state from a liquid state to a solid (crystalline) state and releases latent heat. The user can receive the stored latent heat from the latent heat storage material 9 and keep warm. The user who has gained warmth can warm up his body, relieve the cold, and maintain his body temperature. When the user cools down his body again due to the cold heat from the seawater and feels a strong cold or finds it difficult to maintain his body temperature, he sequentially installs the other heat supply means 3 attached to the suit body 2 in the necessary number as described above. Release latent heat. This allows the user to gain warmth, relieve the cold, and continue to maintain body temperature. In addition, in releasing the latent heat of the heat supply means 3, the trigger 10 is positioned at the positioning portion 11 with respect to the bag body 8.
Since the installation position is determined by the trigger 10, the user can easily find the trigger 10 and operate it reliably and in a timely manner as needed. Therefore, the user can get warm from the heat supply means 3 whenever desired. In particular, with the heat supply means 3 disposed on the back side, it is very easy to find the trigger 10, and it is possible to heat the user's back in a timely manner. Note that since the operating body of the trigger 10 is provided inside the periphery of the operating opening of the storage case, malfunction can be prevented. Furthermore, since the bag body 8 of the heat supply means 3 is made of the above-mentioned synthetic resin, even during boiling and diving to provide latent heat, water seeps into the inside of the bag body 8 and the latent heat storage material 9 It can be said that there is almost no chance of mixing with the latent heat storage material 9, and therefore the performance of the latent heat storage material 9 will not be impaired. or,
The plasticity of the synthetic resin forming the bag body 8 does not deteriorate significantly at low temperatures.
Therefore, even if the heat supply means 3 is used in cold seawater, the flexibility of the bag body 8 is ensured, and the problem of putting pressure on the user's movements does not occur. Incidentally, when the bag body 8 is made of polypropylene resin, there arises a problem that the bag body 8 does not lose its flexibility significantly at low temperatures, which puts pressure on the user and hinders the user's movement. Furthermore, the life jacket has an active effect of generating heat rather than a passive effect of keeping warm, so it can raise the user's body temperature.
Therefore, it is not necessary to wear a lot of underwear to block heat from the outside (seawater), and it is not necessary to wear a lot of underwear to avoid the feeling of pressure on the body and the resulting slowness of movement. does not occur. In addition, the heat supply device 3 generates heat using latent heat and does not require oxygen, so it can be used underwater, and even when used underwater, the heat source is not influenced by the water. I have never experienced a situation where it leaked outside. In addition, when the life jacket 1 is used in the summer, such as at the sea where the water temperature is high, it is preferable to wear only the clothing body 2 without attaching the heat supply device 3. 9 to 11 show other embodiments of this invention. As shown in FIG. 9, a marine dry suit 1a, which is a heating garment, is composed of a vest 2a and a suit body 2b. A pocket 4a for storing and holding a heat supply means 3a is provided at the front of the vest 2a. After putting on the vest 2a, the user stores and holds the heat supply means 3a in which latent heat is stored in the pocket 4a (see FIG. 10). Further, as shown in FIG. 11, the user wears the suit body 2b over the vest 2a. At this time, care must be taken not to apply pressure to the trigger 10a and cause the heat supply means 3a to erroneously release the stored heat. Users go into the sea wearing Marine Dry Suit 1a and engage in marine sports, diving, ocean research, etc., and if their bodies become cold due to the cold heat from the sea water and need to warm up, they should do so at the right time. Trigger 10 from above suit body 2b
By pressing a, the heat stored in the heat supply means 3a can be released to keep warm. In addition to the above two embodiments, the heating clothing of this invention can also be used as a fishing vest whose main body is a vest type, a ski suit that is a jumpsuit type or a separate type, and furthermore, a life jacket, diving work clothes, mountain climbing clothes, etc. Good too. Note that, although not clothes, the above-mentioned heat supply means can also be attached to a lifeboat. (g) Effects of the invention This invention is capable of obtaining heat even in places where there is no oxygen such as seawater by attaching a heat supply means that can release latent heat accumulated due to state changes inside the suit body. Moreover, the latent heat storage material that provides that heat is housed in a container made of a specific synthetic resin that is extremely resistant to moisture permeability, so there is no problem of performance deterioration because moisture does not get mixed in. In addition, since the user does not need to wear a lot of underwear, the user does not have to put pressure on his body and slow his movements, so he can keep warm when diving in low-temperature seawater, etc. This is a heating suit for marine sports that allows you to warm up in a timely manner because the impact device is in a fixed position to release latent heat.

[Brief explanation of the drawing]

Fig. 1 is a perspective view showing one embodiment of this invention, Fig. 2 is a rear view of this embodiment, Fig. 3 is a perspective view of the main part explaining the installation of the heat supply means of this embodiment,
The figure is a plan view of the heat supply means of this embodiment, FIG. 5 is a front view of this heat supply means, FIG. 6 is a side view of this heat supply means, and FIG. 7 is a sectional view taken along line AA in FIG. , FIG. 8 is a sectional view taken along line B-B in FIG. 4, FIG. 9 is an exploded perspective view of another embodiment of this invention, and FIG. 10 is an explanation of the main parts of another embodiment showing how the vest is worn. 11A and 11B are structural explanatory diagrams, including partial cutouts and omissions, showing the wearing condition of another embodiment. 1... Life jacket (warming clothing), 2... Clothing body, 3... Heat supply means, 4... Pocket, 7...
...Magic tape (registered trademark), 8...Bag body, 9
...Latent heat storage material, 10...Trigger (impact tool),
11...Positioning section.

Claims (1)

[Scope of Claim for Utility Model Registration] 1 Consists of a clothing body such as a life jacket, marine sports suit, diving suit, fishing vest, ski slope suit, etc., and a heat supply means attached to the clothing body, The supply means consists of a latent heat storage material made of a supercooled salt solution, an impacting device that starts crystallization of the salt solution, and a bag body that stores the latent heat storage material and the impacting device in a sealed state, The bag is composed of (a) a block copolymer consisting of both end blocks made of a polymer of an aromatic vinyl compound and an intermediate block made of a conjugated diene polymer; A block copolymer in which 10% or less is hydrogenated and the intermediate block is 90% or more hydrogenated; 30% to 90% by weight, (b) isotaxic polypropylene with a melting point of 150°C or higher or a component thereof 5% to 40% by weight, and (c) an ethylene-acrylate copolymer with an acrylate content of 5% or more, or an ethylene-vinyl ester copolymer with a vinyl ester content of 5% or more; 5% by weight. 1. A heating garment, characterized in that it is formed from a resin composition comprising ~40% by weight, and a positioning portion for positioning the impact device is formed on the inner wall of the bag. 2. The heating garment according to claim 1, wherein the heat supply means is removably disposed on the user's body side of the garment body.