JP3238540U - heatstroke prevention hat - Google Patents

Abstract

An object of the present invention is to provide a hat effective against heat stroke. A hat-shaped hat consisting of a crown 5 and a brim 7, and a drooping cloth 8 covering from the root of the brim to the back, and a heat shielding material such as aluminum foil having a high reflectance against radiant heat is applied to the entire hat. and an opening 6 is provided in the brim. [Selection drawing] Fig. 2

Description

The present invention is composed of a hat-shaped hat made of cloth and a sagging cloth hanging from the brim on the back of the hat to the back, and has a heat-shielding structure that reflects sunlight as a whole, and the back of the neck. It is a heat stroke countermeasure hat with a vent on the inside.

Cloth hats are sold in which cloth is hung from the sides to the back to provide shade from the sun.

Problems that ideas are trying to solve

As a result, there were the following problems.
Cloth hats are sold in which cloth is hung from the sides to the back to provide shade from the sun.
Heat stroke is said to be a functional disorder caused by an increase in body temperature. In other words, it is most important to take factors that raise the body temperature as countermeasures against heatstroke.
Radiant heat from the sun is the biggest factor in raising body temperature outdoors, and it can be said that blocking radiant heat is an effective measure against heatstroke.
However, cloth hats transmit most of this radiant heat and cannot prevent body temperature from rising.
The present invention has been made to solve these problems.

Means to solve problems

A hat made of a hat consisting of a crown and a brim, and a sagging cloth with a length from the base of the brim to around the center of the back and a circumference from the side of the face to the back,
An opening that allows air to enter and exit is provided in the center of the sagging cloth that hits the back of the neck,
The overall structure consists of an outer fabric, an air layer, and an inner fabric with an equal width of aluminum foil coated with a highly reflective material on one side and on the sunlight incident side in order from the sunlight incident side. It is a heatstroke countermeasure hat.

Sectional view of crown, brim and sagging cloth Overall cross-sectional view of heatstroke prevention cap

BEST MODE FOR CARRYING OUT THE INVENTION The best mode for carrying out the present invention will be described below.
In recent years, global warming has progressed, and there are days when the temperature in summer exceeds 40°C. On such a hot day, the rise in body temperature due to sunlight is severe for people working under the scorching sun, and there is a high possibility of suffering from heatstroke.
Heat stroke is said to be a functional disorder caused by an increase in body temperature. And although the factor is also influenced by the temperature, the biggest factor is the radiant heat from the sun. Therefore, how to prevent this radiant heat is an important issue.

One more thing, if you surround your body with some kind of material, the heat retention performance will increase, and you will feel the heat. The reason for this is partly due to the effects of heat conduction transmitted from the body, but a larger factor is the radiant heat radiated from the body. In particular, when a reflective material or the like is used around the body, the radiant heat emitted from the body is reflected by the reflective material and returned to the body again, so-called self-heating effect, which makes the person feel hot.
In this way, the main factor that raises body temperature is the radiant heat radiated from the two heat sources of sunlight and the body, and how to treat this heat is important.

The present invention is made of a hat consisting of a crown 5 and a brim 7, and a sagging cloth 8 having a length from the base of the brim 7 to the vicinity of the center of the back and a peripheral length from the side of the face to the rear. with a hat
An opening 6 that allows air to enter and exit is provided in the center of the sagging cloth 8 that hits the back of the neck,
The overall structure consists of an outer cloth 1, an air layer 2, and an inner cloth 4 coated with a material 3 having a high reflectance against radiant heat, such as aluminum foil, on one side and on the sunlight incident side in order from the sunlight incident side. It is a heat stroke countermeasure hat.

This hat has a sag cloth 8 hanging from the bottom of the brim 7 of the hat-shaped cap, around the base of the brim 7, to cover the side of the face to the back of the neck, and about the center of the back. is attached. As a result, not only the head but also the neck, shoulders, and the center of the back can be shaded from sunlight.

The first important point here is that hats made of commercially available cloth have a slight shading effect, but most of the radiant heat is transmitted, so it is hardly effective against heat stroke. The hat has a double structure including the crown 5, the brim 7, and the sagging cloth 8, and the material 3, such as aluminum foil, which has a high reflectance against the radiant heat, is applied on the inside.
On the sunlight side, there is a commonly used outer fabric 1. - 特許庁Although polyester fabric is used in the present invention, any type of fabric is acceptable.
What is important is that, inside the outer cloth 1, there is an inner cloth 4 on one side of which a material 3 having a high reflectance against radiant heat, such as aluminum foil, is applied. Moreover, the material 3 having a high reflectance against radiant heat, such as aluminum foil, is applied to the inner cloth 4 on the sunlight side.
Although the outer cloth 1 and the inner cloth 4 are overlapped, there is an air layer 2 in most of the parts, so that the structure is such that the radiant heat is easily reflected.
That is, most of the radiant heat transmitted through the outer cloth 1 is reflected by the material 3 having a high reflectance to the radiant heat, such as aluminum foil applied to the surface of the inner cloth 4, and emitted to the outside.
In addition, the heat of the human body, which is the second heat source, is present in the hat. Heat from the head is radiated to the inner cloth 4 of the hat, but there is no reflective material on the head side of the inner cloth 4, and conversely there is the inner cloth 4 that absorbs the radiant heat well. Most of the radiant heat is absorbed by the inner cloth 4 and becomes conductive heat, but the conductive heat has little effect on increasing the temperature of the human body, and is transmitted to the air and diffuses into the outside air as convection heat, so it is a factor of heat. hard to become
In the present invention, an aluminum deposition layer is used as the material 3 having a high reflectance against radiant heat such as aluminum foil.
A relatively high reflectance of 79 to 93% is used for the aluminum deposited layer. Of course, it can be said that the higher the reflectance, the more effective the measures against heatstroke.

The second important point is that an opening 6 through which air flows is provided in the sagging cloth 8 located directly behind the neck. The size of the opening 6 is generally about 10 cm wide and 5 cm high, but can be freely determined according to the size of the hat.
With this design, the opening 6 is located behind the neck and below the base of the brim 7, so when viewed from the back, the slightly drooping brim 7 makes the opening 6 invisible. That is, the opening 6 is always in a shaded position when viewed from the sun side, and the sunlight with the highest heat is not irradiated through the opening 6 to the neck or the like.
Furthermore, the opening 6 is not visible even when the entire hat is viewed from the rear, and there is no sense of incongruity in terms of fashion.
In the present invention, the opening 6 is located at one place on the back side of the neck, but there is no problem if it is made at a plurality of places and the shape may be circular or triangular.
Also, if the sagging cloth 8 is detachable from the hat, usage can be diversified.

The mechanism of the present invention will be explained in detail.
Radiant heat has the property of generating heat when it hits an object.
In the summer, the temperature is 25°C, which is much lower than the body temperature, but when you go outside, you feel the heat that makes you sweat.
In other words, it is very important to block the radiant heat in order to eliminate the heat factor, and it can be said that the material 3 having a high reflectance against the radiant heat, such as aluminum foil, is effective for this purpose. In the present invention, an inner cloth 4 having an alum deposited layer on one side is used as the material.
In the present invention, the crown 5, the brim 7, and the sagging cloth 8 are all used by stacking two cloths. From the sun side, there is an outer cloth 1 made of polyester which is generally sold, and an inner cloth 4 made of polyester having an aluminum deposition layer on the inside. The inner cloth 4 is provided with an aluminum deposition layer only on one side.
As a result, the hat of the present invention consists of a polyester outer cloth 1, an air layer 2, an aluminum deposition layer 3, and a polyester inner cloth 4 from the sunlight side. What is important here is that since there is an air layer 2 on the sun side, which is the outside of the aluminum deposition layer, the structure is such that the radiant heat from the sun is easily reflected.
Furthermore, the temperature of the inner cloth 4 is lowered when the radiant heat from the sun is reflected by the aluminum deposition layer. Then, radiant heat radiated from the human body, which is another heat source, goes outside. However, since the inner cloth 4 has almost no reflective performance, most of the radiant heat is absorbed by the inner cloth 4 and becomes conductive heat. Therefore, the amount of radiant heat from the human body that is reflected again and returned to the human body is extremely small, and this effect does not make the body hot.
As a result, the inner side of the crown 5, brim 7, and sagging cloth 8 becomes a very shaded environment.
Furthermore, a hanging cloth 8 is attached from the base of the brim 7 on the back side of the neck to the vicinity of the back. A brim 7 on the back side of the neck is provided with an opening 6 through which air flows.
The point is that this sagging cloth 8 is like a wall between the human body and the outside, and if there is a temperature difference between the two, the air will always flow from either side.
For example, if the air temperature is 25°C, the outside air temperature is 25°C, and the inside temperature is 36.5°C, so the air flows from the inside of the hat to the outside. Also, if the air temperature is as high as 40°C, the outside temperature will be 40°C and the inside temperature will be 36.5°C, and air will flow from the outside to the neck. The air at 40°C feels hot, but just as a fan cools you down at 40°C, when the wind blows you don't feel that much heat. Furthermore, since the nape of the neck is sensitive to temperature, it can be said that flowing air to this position is very effective.
A more detailed description will be given.
When the radiant heat from the sun strikes the outer cloth 1, a few percent is reflected, but most of it is transmitted and radiated to the head. However, there is an air layer 2 between the outer cloth 1 and the inner cloth 4, and the inner cloth 4 is provided with an aluminum deposition layer on the sunlight side. Therefore, it can be said that the radiant heat from the outdoors is reflected by this vapor-deposited aluminum layer, and the amount of radiant heat that is emitted to the outdoors again and applied to the head is extremely small.
Furthermore, the heat absorbed by the outer cloth 1 is radiated to the head side as secondary radiant heat, but this radiant heat is also reflected by the aluminum vapor deposition layer, and most of it is radiated to the outside.
In this way, most of the radiant heat emitted from the sun to the head is cut.
However, when the internal temperature drops, radiant heat is radiated outward from the human body, which is the second heat source. However, the reflectance of the inner cloth 4 is only a few percent, and most of it is discharged outside as conductive heat or convective heat.

[Test 1]
A commercially available hat and a heatstroke countermeasure hat of the present invention were set in front of an 800 W far-infrared heater so that the crown faced the heater. Then, the temperature inside the crown was measured by thermography.
At this time, the room temperature was 25°C.

[Result 1]
(1) Commercial hat: 50.7°C
(2) Heat stroke protection cap: 31.4°C

[Discussion 1]
(1) While the commercially available hat is 50.5°C, the heat stroke prevention hat of the present invention is 31.4°C, a difference of 19.3°C, which is a surprising difference.
(2) Although only the crown was tested in this test, a sagging cloth has the same effect, so safety can be expected even when working under the scorching sun.

Effect of idea

The temperature inside the hat rarely exceeds the body temperature, so it is very effective against heatstroke.

1 outer cloth 2 air layer 3 aluminum foil etc. 4 inner cloth 5 crown 6 opening 7 brim 8 sauce cloth

Claims (1)

A hat made of a hat consisting of a crown and a brim, and a sagging cloth with a length from the base of the brim to around the center of the back and a circumference from the side of the face to the back,
An opening that allows air to enter and exit is provided in the center of the sagging cloth that hits the back of the neck,
The overall structure consists of an outer fabric, an air layer, and an inner fabric with a material with high reflectance against radiant heat, such as aluminum foil, applied on one side and on the sunlight incident side in order from the sunlight incident side. countermeasure hat

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