JP2003003004A - Clothing with shock absorbing pad - Google Patents

Abstract

(57) [Summary] [Problem] Even in people with osteoporosis and healthy people,
Provided is a garment with a shock-absorbing pad for protecting a bruise, a tear, a fracture, and the like due to an impact due to a fall or a collision. SOLUTION: Using pentaerythritol which is a solid at room temperature as a pore-forming material, it is dispersed in a polystyrene-based elastomer or a polyester-based elastomer, or in a polymer substance comprising a polystyrene-based elastomer or a polyester-based elastomer and polyethylene or polypropylene. A molding material is molded, and the obtained molded body is washed with water to elute pentaerythritol to form a porous polymer. This polymer porous body is molded as a flat sheet-shaped, curved sheet-shaped, or bowl-shaped shock-absorbing pad, and attached to the entire surface or a part of the garment.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a garment equipped with a shock absorbing member for reducing or preventing fractures, bruises, lacerations, etc. due to a shock when falling.

[0002]

2. Description of the Related Art As an existing impact absorbing material used for clothes, a simple air bag, a gel-like substance such as silicone, a resin such as polypropylene, a foam of a thermoplastic resin, a foam of polyurethane or rubber, or a baking thereof. Aerated pore bodies are known.

The air bag is suitable as a protective device to be attached to sports clothes and the like, but is not suitable for underwear which is in close contact with the body. Silicone gel is not suitable for attaching to clothing because it is heavy and there is a risk that the gel inside will leak out due to breakage of the containing member. Resin such as polypropylene is not suitable when attached to clothing because it does not follow the body and gives a feeling of strangeness when worn, and gives a person who wears it uncomfortable.

Further, none of these members is breathable, and stuffiness occurs during wearing, which makes washing difficult.
Difficult to wash clothes or underwear is not preferable for repeated use for a long period of time and from the viewpoint of hygiene, and is not suitable as a member to be attached to clothes.

As a means for producing a foam, for example, a resin is mixed with a volatile foaming agent such as carbon dioxide or ammonia gas, or a decomposable foaming agent such as azodicarbondiamide or dinitrosopentamethylenetetramine. There is a method of using a molding material. In this molding material, a foaming agent is volatilized or decomposed during heating to generate a volatile gas to form a foam.

The method of forming pores with a foaming agent is generally unsuitable as a porous body requiring air permeability since a closed cell type porous body is formed. In addition, since the individual pores formed in this method generally tend to be large, the density of the molded porous body is low and the impact absorption is low. Furthermore, not all of the foaming agents foam, and the foaming agents may remain in the porous body.Using a foaming agent that is harmful to the human body, such as ammonia or dinitrosotetramine, makes it difficult for the porous body to come into direct contact with the human body. Not suitable for the body.

Further, as the foam, latex is used.
There are molding materials that contain a foaming agent together with a coagulant, and molding materials that contain a curing reaction catalyst and Freon or water as a foaming agent mixed with a prepolymer. Since the mechanism of formation is the generation of volatile gas from the foaming agent, there are the same problems as described above.

There is also a porous material such as foamed polyethylene which is foamed with a foaming agent and irradiated with an electron beam to crosslink the resin. It is possible to control porosity,
Irradiation with an electron beam causes an increase in production cost. Also,
The problem of residual blowing agent remains.

[0009] The sintered pore body is one in which only the surface layer portion of the polymer granules is melted or is fused with an adjacent polymer by adding a binder, and it is difficult to control the temperature and apply pressure and also to cause thermal deterioration. Therefore, it is difficult to control performance and hygiene, and it becomes expensive.

On the other hand, as a relatively inexpensive manufacturing method capable of predicting and controlling the porosity, a foamed pore-forming material such as sodium chloride or sodium sulfate was added to resin or rubber. There is a method for producing a porous body which comprises molding a molding material and washing the resulting molded body with water to elute the salt which is the pore-forming material to form pores, but the melting point of the pore-forming material is Since it is expensive, it is difficult to use this production method for polymers and the like.

[0011]

DISCLOSURE OF THE INVENTION Problems to be Solved by the Invention In daily life, the femoral neck, upper limbs, etc.
The number of lacerations and fractures in the lower limbs and shoulders has increased. Especially, the number is remarkably increasing in persons such as elderly people who have deteriorated physical functions and wheelchair users.

In order to prevent such damage, it is an effective means to wear clothing which absorbs appropriately the shock applied to the body due to a fall or a bruise.

The conditions required for such clothes are:
It is necessary that the garment has a density that can sufficiently absorb the shock applied to the body during an accidental fall or bruise in daily life. Ideally, the garment has a moderate density and a sufficient thickness.

On the other hand, it is important that the wearability is good as a condition required for clothes in daily life. This requires characteristics that are incompatible with the above-described impact absorbing clothing. That is, it must be sufficiently thin, lightweight, and sized to fit the protected area. For this reason, it is preferable that the clothing is underwear.

Next, as a condition for wearing as clothing, especially in the case of underwear, it is necessary to maintain the internal environment during wearing.
That is, heat retention, moisture retention, moisture release and safety must be satisfied. In particular, when clothes are covered with a member having an appropriate density and a sufficient thickness as described above, it is expected that stuffiness will occur due to insufficient air permeability. That is, it is necessary to have appropriate air permeability. Moreover, in order to use it in close contact with the skin, no harmful substances that may cause skin damage should be generated.

Further, the site requiring protection is the femoral neck,
Since it is limited to upper limbs, lower limbs, shoulders, etc., it is more efficient to install this shock absorbing member in a necessary portion than to give the entire clothing a shock absorbing function. The present inventors have found that it is possible to obtain the desired result by attaching a shock absorbing pad that meets the above-mentioned conditions to a garment.

[0017]

DISCLOSURE OF THE INVENTION The present invention provides a shock absorbing member made of a porous body having high shock absorbing properties, breathability, and light weight, which are unprecedented properties. The present invention solves the above-mentioned problems by attaching the garment to at least one part such as the upper limb, the lower limb, and the shoulder. That is, the present invention relates to a garment with a shock absorbing pad, which is formed by mounting a shock absorbing member made of a polymer porous material as a shock absorbing pad on the entire surface or a part of the garment, wherein the polymer porous material is a polystyrene elastomer. Alternatively, a molding material obtained by dispersing pentaerythritol as a water-soluble pore-forming material in a polyester elastomer, or a polymer material composed of a polystyrene-based elastomer or a polyester-based elastomer and polyethylene or polypropylene is molded, and the resulting molded body is treated with water. It is intended to provide a garment with a shock absorbing pad, which is produced by treating and eluting pentaerythritol.

The shock absorbing member according to the present invention comprises a polymer porous body manufactured by the following manufacturing method. The shock absorbing member is shock absorbing, breathable, lightweight, and safe. The workability and flexibility were satisfied.

In the present invention, the shock absorbing property means, as a shock absorbing rate, the shock applied to one side surface of the shock absorbing member and the shock absorbed (the difference between the applied shock and the shock output to the other side surface). ) Ratio. That is, the shock absorption rate = [(shock applied-shock output) / shock applied] × 100 (%).
Generally, the shock absorption rate of the shock absorbing member is set at about 60%. The shock absorption rate of the shock absorbing member according to the present invention is 70% to 85% when the sheet thickness is 8 mm to 15 mm.
It was 73 to 75% at 8 mm thickness, 75 to 77% at 10 mm thickness, and 82 to 84% at 15 mm thickness, and had high impact absorption. Further, the thickness of the shock absorbing member according to the present invention may be such that the shock absorption rate is 60% or more, for example, 0.1 m.
m or more, preferably 2 mm to 15 mm in order to avoid the thickness when worn on clothes and to maintain a good wearing feeling.
The degree.

The polymeric porous material according to the present invention is a pentameric substance which is solid at room temperature as a pore-forming material in a polymeric substance composed of a polystyrene-based elastomer or a polyester-based elastomer, or a polystyrene-based elastomer or a polyester-based elastomer and polyethylene or polypropylene. It is produced by molding a molding material in which erythritol is dispersed at a temperature of 180 ° C to 230 ° C to prepare a molded body, and then treating the molded body with water or warm water to elute the pentaerythritol.

In the present invention, since the impact absorbing member made of a porous polymer is used by being attached to clothes, it is desirable that the pore-forming material does not remain in the porous polymer. In the present invention, pentaerythritol is used as a pore-forming material, and when the molding material is molded at a temperature of 180 ° C to 230 ° C, the pentaerythritol is melted and deformed, and adjacent pentaerythritol is continuously connected. Since the pores are formed, pentaerythritol is easily extracted, and the residual amount of the pore-forming material in the obtained polymer porous body is small. The residual rate of pentaerythritol in the porous polymer according to the present invention is 0.01% or less. In addition, the melting phenomenon of pentaerythritol occurs in a wide range of 180 to 250 ° C., and in many cases, the polymer substance softens or melts to lower the viscosity in this temperature range. Therefore, when pentaerythritol is used as a pore-forming material. , It is easy to take a wide tolerance in the optimum kneading temperature setting. The most important feature of the porous polymer according to the present invention is that the residual amount of the pore-forming material is small as described above, so that the safety is high and that the continuous pores are formed and thus the air permeability is good. The water vapor transmission amount of the polymer porous material according to the present invention is 1000 g / m ² · 24 hours or more, preferably 2000 g / m ² · 24 hours or more.

Further, in the present invention, by using a polystyrene type elastomer or a polyester type elastomer as the polymer substance, it is possible to obtain a polymer porous body exhibiting elasticity characterized by mechanical properties. For example, when force is applied and strain is applied, delayed recovery is performed. This means that the shock absorbing member has excellent properties as a shock absorbing member having a high viscosity (a large loss coefficient) with respect to a shock having a large acceleration.

Further, as the polymer substance according to the present invention,
More preferably, a polystyrene-based elastomer or a polyester-based elastomer and a polymer substance obtained by mixing polyethylene or polypropylene, preferably polypropylene, can be used, whereby a porous body having any porosity can be stably obtained. it can. If the porosity is too high, the pores may be collapsed due to the shrinkage of the polymer or the like after the extraction of the pore-forming material. However, it is possible to obtain an appropriate porosity by mixing polyethylene or polypropylene.

The preferred polymeric substance in the present invention is 100 parts by weight of polystyrene elastomer and 5 to 70 parts by weight of polyethylene or polypropylene, preferably 5 to 50 parts by weight, more preferably 5 parts by weight.
To 35 parts by weight, and 100 parts by weight of polyester elastomer and 0 to 70 parts by weight of polyethylene or polypropylene, preferably 0 to 50 parts by weight.
A polymer substance consisting of 1 part by weight, and more preferably 0 to 30 parts by weight, may be mentioned. A preferable polymer substance is a polyester elastomer alone, and more preferably, a polymer substance composed of 100 parts by weight of a polystyrene elastomer and 10 parts by weight of polypropylene.

Further, in the porous polymer, desired physical characteristics can be obtained by appropriately selecting the compounding ratio and the compounding amount of the polymer substance and the pore-forming material and the particle size of pentaerythritol.

In the present invention, the blending amount of pentaerythritol with respect to 100 parts by weight of the polymer substance is 200 to 90.
It is 0 part by weight, preferably 210 to 800 parts by weight, and more preferably 220 to 700 parts by weight. The particle size of pentaerythritol is 0.01 mm to 0.60 mm, preferably 0.02 mm to 0.55 mm,
More preferably, it is 0.03 to 0.50 mm. The density of the porous polymer is 0.1 g / cm ^{3 to} 0.6 g / cm
³ and preferably 0.15 g / cm ^{3 to} 0.5 g
/ Cm ³ , and more preferably 0.2 g / cm ^3.
~ 0.4 g / cm ³ . Therefore, the impact absorbing member made of the polymeric porous material according to the present invention is a material that is light in weight and therefore has little discomfort when worn.

Since the polymer porous material according to the present invention can be molded by injection molding or extrusion molding, a pad suitable for the shape of the body part can be produced.

Since the impact absorbing member made of the polymer porous material according to the present invention can be washed, it can be repeatedly used, and can be washed even if it is removed from the clothes or attached to the clothes.

The shock absorbing pad according to the present invention may be attached to the back side of the garment so as to be in direct contact with the skin, or another cloth such as a garment may be interposed between the pad and the skin. You may attach it. As a means of mounting, the shock absorbing pad may be sewn directly to the cloth, or may be housed in a bag-shaped member. Depending on the body part, it is also possible to appropriately cut the flat sheet member without molding and use a plurality of them in combination as described above. This is suitable for a site where flexibility is particularly required.

[0030]

BEST MODE FOR CARRYING OUT THE INVENTION According to the present invention, pentaerythritol is dispersed as a water-soluble pore-forming material in a polystyrene-based elastomer or polyester-based elastomer, or a polymer substance composed of a polystyrene-based elastomer or polyester-based elastomer and polyethylene or polypropylene. By molding a molding material and wearing a garment equipped with a shock absorbing member made of a polymer porous body produced by treating the resulting molded body with water to elute pentaerythritol, osteoporosis patients and It prevents the elderly, wheelchair users from suffering accidental falls such as fractures, bruises and lacerations.

[0031]

The present invention will be described in more detail with reference to examples, but the present invention is not limited to these examples.

Example 1 A polymer porous body was prepared by the following method using a polystyrene-based thermoplastic elastomer as the polymer substance of the matrix of the impact absorbing member. 100 parts by weight of polystyrene-based thermoplastic elastomer (“High Blur 7125” manufactured by Kuraray Co., Ltd.) as a polymer substance, and pentaerythritol (“Pentaerythritol” manufactured by Mitsui Chemicals, Inc., melting start temperature: about 185 ° C.) as a fusible pore-forming material. 300 parts by weight were uniformly mixed with a mixer, and the mixture was kneaded with a twin-screw extruder at 210 ° C., and then pelletized with a pelletizer. The volume ratio (volume%) of the pore forming material was 66%. Injection molding at 210 ° C using the produced pellets,
A molded body was produced. After cooling, this molded body was thoroughly washed with water, and pentaerythritol in the molded body was eluted to prepare a porous body. The porosity of the porous body was 58%. When the state of pores was observed with an electron microscope, it was observed that pores of 7 to 10 μm were uniformly distributed and the pores were connected to form continuous pores. The shock absorption rate is about 70 when the sheet thickness is 8 mm.
%, About 73% when the sheet thickness was 10 mm, and about 79% when the sheet thickness was 15 mm.

The moisture permeability was measured to evaluate the air permeability. The evaluation was made with a thickness of 5 mm. For comparison, general polyurethane foam was also evaluated. 1600 g / for general polyurethane foam
While it was m ² · 24 hours, the porous body obtained by using the thermoplastic polystyrene-based elastomer of Example 1 was 2900 g / m ² · 24 hours, and the porous body of Example 1 was It had a moisture permeability of about 1.8 times.

The elution amount with respect to water was evaluated by the following titration method of potassium permanganate. The amount of 0.01N potassium permanganate solution was evaluated with respect to 100 ml of the test solution which was added with 10 times amount of water to the sample and treated at 121 ° C. (under high-pressure steam) for 1 hour. 5 ml for the porous body using the thermoplastic polystyrene-based elastomer of Example 1
Met. This was about 1/10 of that of general polyurethane foam. It has a density of 0.3 g / cm ³ and is also light in weight.

Example 2 A polymer porous body was prepared by the following method using polystyrene base thermoplastic elastomer to which polyethylene was added as the base polymer material of the impact absorbing member. 100 parts by weight of polystyrene-based thermoplastic elastomer (“High Blur 7125” manufactured by Kuraray Co., Ltd.) and 20 parts by weight of polyethylene (Suntech HD manufactured by Asahi Kasei Co., Ltd.) as polymer substances
J300) and 350 parts by weight of pentaerythritol (“Pentaerythritol” manufactured by Mitsui Chemicals, Inc., melting start temperature: about 185 ° C.) as a pore-forming material are uniformly mixed with a mixer, and this mixture is mixed with a twin-screw extruder. 210 ° C
After kneading with, pelletized with a pelletizer. The volume ratio (volume%) of the pore forming material was 66%. Using the produced pellets, injection molding was performed at 210 ° C. to produce a molded body. After cooling, this molded body was thoroughly washed with water, and pentaerythritol in the molded body was eluted to prepare a porous body. The porosity of the porous body was 62%. When the state of pores was observed with an electron microscope, it was observed that pores of 7 to 10 μm were uniformly distributed and the pores were connected to form continuous pores. The shock absorption rate is about 73% when the sheet thickness is 8 mm and the sheet thickness is 10
It was about 75% in mm and about 82% in sheet thickness of 15 mm.

Example 3 100 parts by weight of a thermoplastic polystyrene-based elastomer (“High Blur 7125” manufactured by Kuraray Co., Ltd.) as a polymer substance and 10 parts by weight of polypropylene (Tokuyama PN670 manufactured by Tokuyama), and pentaerythritol (Mitsui Chemicals) as a pore-forming material. "Pentaerythritol",
(Melting start temperature: about 185 ° C.) 400 parts by weight are uniformly mixed by a mixer, and the mixture is heated to 210 using a twin-screw extruder.
After kneading at ℃, it was pelletized with a pelletizer. The volume ratio (volume%) of the pore forming material was 70%. Using the produced pellets, injection molding was performed at 210 ° C. to produce a molded body. After cooling, this molded body was thoroughly washed with water, and pentaerythritol in the molded body was eluted to prepare a porous body. The porosity of the porous body was 67%. When observing the pore state with an electron microscope, 7-10 μm pores are uniformly distributed,
It was observed that the holes were connected to form continuous holes.
Shock absorption rate is about 75% at a sheet thickness of 8 mm, sheet thickness 1
It was about 77% at 0 mm and about 84% at a sheet thickness of 15 mm.

Example 4 Examples of pants, under pants, and undershirts equipped with the shock absorbing pad according to the present invention will be described below with reference to FIGS. 1 to 5.

1 to 3 show an example of wearing on pants.
Reference numeral 1 denotes a pants body made of a stretchable knitted fabric, and comprises front and rear or right and left body parts 3. The shock-absorbing pad 5 obtained by three-dimensionally molding the shock-absorbing member obtained in Example 1 so as to fit into a three-dimensional shape of a flat sheet or body part is housed in the pad housing cloth 4, and the edge of the pad housing cloth 4 is It is sewn on the front side of the body 3 so as to go around once. Since the shock absorbing pad 5 has sufficient flexibility, it can be sewn directly to the body 3. Further, when the shock absorbing pad 5 is sewn to the body 3 together with the pad housing cloth 4, the pad housing cloth 4 fits better in the body 3 and the shock absorbing pad 5 inside the pad housing cloth 4 is moved by movement of the body. The movement of the pad storage cloth 4 is prevented from wrinkling, and
The fit to the body is improved and the appearance as clothing is also improved. As for the mounting site of the shock absorbing pad, in the case of pants, it is basically mounted around the site corresponding to the neck 10 of the femur 11 as shown in FIG. 2, but it is arbitrarily determined according to the condition of the wearer. May be. Further, a plurality of shock absorbing pads 5 may be used to attach the entire waist area over a wide range.

FIG. 4 shows an example of wearing under pants. When applied under pants, it is necessary to protect at least one of the knee and shin regions in addition to the femoral neck region. A waist impact absorption pad 22 is mounted around the site corresponding to the femoral neck 11 of the femur 10, and a knee impact absorption pad 23 is installed around the site corresponding to the front part of the knee joint. The sewing can be performed at any part in the same manner as in FIGS. 1 and 2.

FIG. 5 shows an example of attachment to an undershirt. For the upper body, the shoulders, especially the scapula and clavicle, are often injured and need to be applied to undershirts. At least the front and rear parts of both shoulders and the outside of both shoulders may be protected. In FIG. 5, the shoulder impact absorbing pads 31 are straddled so as to protect the front and back of the shoulder, centering on the portions corresponding to both shoulders. Furthermore, in order to absorb the impact in the body side direction, a sleeve attachment shock absorbing pad 37 is also mounted near the sleeve attachment top. As for the shoulder part, the deformation of the shock absorbing pad due to the movement of the body is great, so it is desirable to attach it separately to multiple parts. Sewing can be performed at any part in the same manner as in FIGS. 1 and 2.

As described above, the garment with a shock absorbing pad of the present invention has excellent shock absorbing characteristics, and therefore, it is possible to sufficiently absorb the shock acting on the femoral neck and other parts when the person falls down. You can Further, since the polymer porous material used is a continuous pore foam, it has high water vapor permeability,
It prevents stuffiness when worn and fully satisfies the required functions as clothing. Furthermore, since it is flexible, it can follow the movements of the human body sufficiently, and it is comfortable to wear without any discomfort. Furthermore, since the polymer porous material according to the present invention has a high porosity, it is lightweight, has no feeling of fatigue during wearing, and is suitable for caring for the elderly when worn on underwear. Finally, the polymeric porous material according to the present invention can be molded according to the shape of the body part by injection molding, so that it is possible to provide clothing having an excellent design.

[Brief description of drawings]

FIG. 1 is a front view of a pair of pants equipped with an impact absorbing pad of the present invention.

FIG. 2 is a side view of the pants of FIG.

3 is a cross-sectional view taken along the line AA of FIG.

FIG. 4 is a front view of a pair of pants under which the shock absorbing pad of the present invention is attached.

FIG. 5 is a front view of an undershirt equipped with the shock absorbing pad of the present invention.

[Explanation of symbols]

1 pants body 2 waist rubber part 3 body 4 shock absorbing pad storage cloth 5 shock absorption pad 6 Pressing thread 10 femur 11 femoral neck 20 Body under pants 21 waist rubber part 22 Lumbar impact absorption pad 23 Knee impact absorbing pad 24 body 25 hem 26 Front space 30 Undershirt body 31 Shoulder shock absorption pad 32 sleeves 33 body 34 Hem 35 neck tape 36 Pressing thread 37 Shock absorbing pad on sleeve

─────────────────────────────────────────────────── ─── Continuation of front page (51) Int.Cl. ⁷ Identification code FI theme code (reference) A41D 27/26 A41D 27/26 B // C08L 25:04 C08L 25:04 67:00 67:00 (72 ) Inventor Toshiyuki Shimizu 262 Sou, Miyazu City, Kyoto Prefecture Gunze Co., Ltd. Apparel Business Headquarters (72) Inventor Kazuhisa Takagi 1 Izumizaki, Bozukubo, Izumizaki-mura, Nishishirakawa-gun, Fukushima Prefecture (72) Inventor Masashi Nemoto 2-7-2 Dote-cho, Saitama City, Saitama Prefecture Asahi Rubber Co., Ltd. (72) Ayako Meguro 2-7-2, Dote-cho Saitama City, Saitama Prefecture F-term (Reference) 3B011 AA01 in Asahi Rubber Co., Ltd. AA05 AB00 AC04 AC18 3B035 AA21 AB05 AB06 AB15 AB18 AC03 AD09 4F074 AA17 AA24 AA32 AA65 CB03 CB16 CB27 DA02 DA10 DA13 DA23 DA24 DA33 DA38

Claims (11)

[Claims] 1. A garment with a shock-absorbing pad, which comprises a shock-absorbing member made of a porous polymer as a shock-absorbing pad mounted on the entire surface or a part of the garment, wherein the porous polymer is a polystyrene elastomer or A molding material obtained by dispersing pentaerythritol as a water-soluble pore-forming material in a polyester-based elastomer, or a polymer material composed of a polystyrene-based elastomer or a polyester-based elastomer and polyethylene or polypropylene is molded, and the resulting molded body is treated with water. A garment with a shock absorbing pad, which is manufactured by washing and eluting pentaerythritol. 2. The high molecular substance comprises 100 parts by weight of a polystyrene elastomer and polyethylene or polypropylene 5.
The garment with an impact absorbing pad according to claim 1, wherein the garment is a polymeric substance composed of about 70 parts by weight. 3. The polymer material comprises 100 parts by weight of a polyester elastomer and polyethylene or polypropylene.
The garment with an impact absorbing pad according to claim 1, wherein the garment is a polymeric substance composed of about 70 parts by weight. 4. The shock absorbing member has a shock absorption rate of 70% to 8%.
The garment with an impact absorbing pad according to any one of claims 1 to 3, which is 5%. 5. The garment with an impact absorbing pad according to claim 1, wherein the particle size of pentaerythritol is 0.01 mm to 0.60 mm. 6. The garment with an impact absorbing pad according to claim 1, wherein the blending amount of pentaerythritol is 200 to 900 parts by weight with respect to 100 parts by weight of the polymer substance. 7. The density of the porous polymer is 0.1 g / cm ^3.
~ 0.6 g / cm < ³ > The garment with an impact absorbing pad according to any one of claims 1 to 6. 8. The porous polymer has a water vapor transmission rate of 1000.
g / m ² · 24 hours or more, any one of claims 1 to 7.
Clothing with a shock absorbing pad according to the item. 9. The maximum thickness of the polymer porous body is 2 mm to 15
The garment with an impact absorbing pad according to any one of claims 1 to 8, which has a size of mm. 10. The shock absorbing member is a shoulder, an upper arm elbow, a waist,
The garment with an impact absorbing pad according to any one of claims 1 to 9, wherein the garment is mounted so as to abut at least one site of a buttocks, a femoral neck, a knee joint, or a shin. 11. The garment with a shock absorbing pad according to claim 1, wherein the shock absorbing member is a pad having at least one of a flat sheet shape, a curved sheet shape, and a bowl shape.