JP2022142422A - vent cap - Google Patents

Abstract

To provide a cap capable of sufficiently securing coolness.SOLUTION: There is provided a vent cap including: a collar 3; a crown 2; slides 4 provided at least forwardly and laterally; and an air passage 5 formed in front of the crown 2. The air passage 5 includes: a first opening 6 formed by penetrating front and back of the collar 3 ahead of the slide 4; a second opening 7 formed on a front side of the crown and directed from a base 2A of the crown 2 to a top 2B; a covering member 8 covering the first opening 6 and the second opening 7 from a front side; a mesh member 11 covering the second opening 6 from a back side; and an exhaust port 9 formed between the covering member 8 and the crown 2 at a top 8B. The vent cap is structured such that air that has flowed in from the first opening 6 opened on a lower side of the collar 3 is discharged to outside from the exhaust port 9 through the air passage 5.SELECTED DRAWING: Figure 6

Description

TECHNICAL FIELD The present invention relates to a cap, a hat, or a school cap having an air passage through which air is taken in from the lower end of the brim of the cap and discharged from the vicinity of the top end of the crown.

A hat is disclosed in which an air intake is provided on the upper side of the brim and the front part of the crown to draw air into the inside of the hat body (for example, Patent Document 1). This cap is composed of a brim and a crown, and vent holes are provided in the front part of the cap and in the position facing the cap. The respective cut portions are vertically shifted and overlapped, and are formed by not connecting the cut portions to each other. With this cap, the size of the vent provided at the facing position in the front of the cap can be freely adjusted.
There are also hats on the market that take in air from the inside of the slide on the front of the forehead and have an exhaust port at the top of the hat body.

JP 2018-96005 A

As a result, there are the following problems.
In a hat that has an air intake on the front side of the crown above the brim and draws wind into the inside of the hat body, the air intake is provided on a portion of the crown located on the forehead, parallel to the brim. This air intake can only take in the air that flows from the front into the hat body, so if the air flow is fast, you will feel cool, but if the air flow is slow, it will not be very effective. I can't feel it. Furthermore, even if only the wind is passed through, the radiant heat emitted from the outside of the hat body cannot be dealt with, so it cannot be said to be a cool hat.

On the other hand, in a hat that takes in air from the inside of the slide on the front of the forehead and has an exhaust port at the top of the crown, the air that hits the face flows into the hat body from the intake port provided inside the slide, It is designed to flow into the exhaust port. However, there are countless hairs on the head inside the hat body, and the air that has flowed into the hat body is in a turbulent state and cannot be smoothly discharged from the exhaust port. Therefore, the environment inside the hat is a mixture of fresh air and sweat and heat generated from the head.

SUMMARY OF THE INVENTION Accordingly, an object of the present invention is to provide a hat that can sufficiently ensure coolness.

A hat according to the present invention has a brim, a crown, slides provided at least forwardly and laterally of the lower end of the crown, and an air passage formed in front of the crown, and has breathability. , the air passage includes a first opening formed through the front and back of the collar in front of the slide, a second opening formed in front of the crown and extending from the base to the top of the crown, and the first opening. a covering member that covers the portion and the second opening from the front side; a mesh member that covers the second opening from the back side; and an exhaust port formed between the covering member and the crown at the top; The air that has flowed in from the first opening opened to the outside is discharged to the outside from the exhaust port through the air passage.

In the hat according to the present invention, the ventilation path is formed along the outer shape of the crown from the brim to the rear of the top of the crown, the height of the ventilation path gradually decreases toward the top of the crown, and the width of the covering member is reduced to the brim. The covering member is characterized in that all contact portions with the flange and crown other than the exhaust port are sewn.

The hat according to the present invention is characterized in that the sliding has an uneven structure or that the sliding has air permeability.

A hat according to the present invention is characterized in that a plurality of intake ports are provided in the slide or a portion above the slide.

In the hat according to the present invention, a material having a high reflectance to radiant heat such as aluminum foil is attached to the inside of the brim, crown and covering member, and the reflective surface of the material having a high reflectance to radiant heat such as aluminum foil is attached. It is characterized in that it is attached facing the incident light side.

The headgear according to the present invention has ventilation including a brim, a crown, a slide, and an air passage formed in front of the crown, and the air passage is formed through the front and back of the brim in front of the slide. and an exhaust port formed between the top of the crown and the crown. It is discharged outside from the mouth. As a result, the air that has flowed in from the first opening flows into the ventilation path and moves along the rounded shape of the head while rising inside the ventilation path. At this time, centrifugal force acts on the air, which flows at high speed inside the air passage and is not easily affected by hair, so the air is discharged from the exhaust port in a laminar flow state, creating a cool environment for the wearer's head.

In addition, in the hat according to the present invention, a material having a high reflectance to radiant heat such as aluminum foil is attached to the inside of the brim, the crown and the covering member, and the material having a high reflectance to radiant heat such as aluminum foil reflects The face is mounted facing the sunlight side. Therefore, most of the radiant heat can be blocked, and the heat applied to the head is greatly reduced, which is effective in preventing heatstroke.

It is a front view of a hat concerning an embodiment of the present invention. 1 is a perspective view of a hat according to an embodiment of the invention; FIG. It is a bottom view of a hat concerning an embodiment of the present invention. It is a side view of a hat concerning an embodiment of the present invention. FIG. 5 is a cross-sectional view (cross-sectional view taken along line AA in FIG. 4) of the hat according to the embodiment of the present invention; (a) to (d) respectively show ventilation paths with different shapes. It is a figure for demonstrating the effect|action of the hat which concerns on embodiment of this invention.

BEST MODE FOR CARRYING OUT THE INVENTION The best mode for carrying out the present invention will be described below with reference to FIGS. 1 to 5. FIG.
A hat consists of a crown and a brim, and is used for the purpose of blocking sunlight and creating a shade to relieve the heat of the head and face. However, in recent years, the temperature has risen sharply, and the head is more hot and stuffy than before, and the comfort of wearing a hat is impaired.

The greatest factor in the heat of hats is radiant heat from the sun. Radiant heat includes ultraviolet, visible light, and infrared regions. Among these, the visible light that we can see does not have a large amount of heat, and the infrared light that we cannot see is the cause of the heat. Therefore, just because it looks like it's in the shade doesn't mean it's cool.

When the radiant heat from the sun hits the cloth on the outside of the hat, it generates heat, and the temperature of the cloth is further increased by the outside air temperature. This heat is applied to the head as secondary radiant heat to generate heat again, so humans feel hot.
On the other hand, the radiant heat transmitted through the cloth is directly applied to the head as primary radiant heat. Since both the primary radiant heat and the secondary radiant heat are applied to the head, we feel even hotter.
Therefore, in order to eliminate the heat inside the hat, it is most important to prevent radiant heat from the outside.

In order to deal with the heat inside the hat body, it is important to discharge the heat and sweat generated from the head, which is another heat source. In order to achieve this, it is necessary to ventilate the inside of the hat body. It doesn't solve the problem. What is important is that the air inside the cap should be discharged in a laminar flow.

A cap (ventilated cap) 1 according to the present invention, as shown in FIGS. It is equipped with an air passage 5 and has air permeability. In the hat 1, the air passage 5 is formed forwardly of the slide 4 (in the front-rear direction X) through a first opening 6 formed through the front and back of the brim 3 and from the front side of the crown 2 and from the base 2A of the crown 2. The second opening 7 formed toward the top 2B, the covering member 8 covering the first opening 6 and the second opening 7 from the front side, the mesh member 11 covering the second opening 7 from the back side, and the top It has an exhaust port 9 formed between the covering member 8 and the crown 2 in the vicinity of 2B. The air passage 5 is formed to protrude outward (forward in the front-rear direction X) from the crown 2 .
In the hat 1, the air that has flowed in from the first opening 6 that is opened on the lower side (rear side) of the brim 3 is discharged to the outside from the exhaust port 9 via the ventilation path 5. - 特許庁
Note that the slides 4 may be provided at least forwardly and laterally of the lower end of the crown 2 . The mesh member 11 is fixed by being sewn to the crown 2 around the second opening 7 and covers the entire second opening 7 .

The hat 1 is a cloth hat consisting of a brim 3, a crown 2 and an air passage 5, and the slide 4 is a normal hat, and the circumferential direction Z of the brim 3 in contact with the forehead and the brim 3 perpendicular thereto. The first opening 6 provided in the front direction of the and the crown 2 facing this first opening 6 are provided with the same length as the opening width in the circumferential direction Z of the flange 3, and the gouge portion 2C to the top portion 2B. A second opening from the tip of the first opening 6 of the flange 3 to the top 2B of the crown 2 so as to cover the first opening 6 and the second opening 7 from the upper side (front side). A ventilation path 5 is provided that extends slightly rearward from the portion 7 .

A hat 1 according to the present invention is mainly composed of three members: a brim 3, an air passage 5, and a crown 2. As shown in FIG. The most important member is the air passage 5. Outside air is drawn in (sucked in) from the lower side of the flange 3 and flows in a laminar state inside the air passage 5 protruding to the outside of the crown 2. It is discharged from the discharge port 9 formed slightly behind. By protruding the air passage 5 to the outside of the crown 2, it becomes a structure as if an exhaust duct is provided outside the crown 2, and since countless hairs hardly affect the air passage 5, the inhaled outside air is formed. can be smoothly discharged from the exhaust port 9 in a laminar flow state.

The hat 1 according to the invention has two openings.
One is a first opening 6 of 60 mm to 80 mm in the circumferential direction Z and 8 mm to 15 mm in the front-rear direction X in contact with the head of the flange 3 on the surface of the flange 3 in contact with the crown 2 . This first opening 6 is formed for the purpose of inhaling air from the outdoors.
Furthermore, in the gouge portion 2C of the crown 2 facing the first opening 6, the bottom is the same width of 60 mm to 80 mm as the first opening 6, and the top 2B is the second opening 7 provided with an opening of about 50 mm. be. This second opening 7 is formed for the purpose of discharging heat and water vapor generated from the head.
Moreover, the dimensions of the first opening 6 and the second opening 7 may be determined according to the size of the hat and the type of the hat, and are not limited to the dimensions described above.

In the cap 1 according to the present invention, the air passage 5 is provided along the outer shape of the crown 2 from the tip of the brim 3 to slightly behind the top 2B of the crown 2, and the height H of the air passage 5 is the base of the crown 2. It gradually decreases from 2A to the top 2B (Fig. 4). Also, the width W of the covering member 8 is formed to be gradually narrowed from the flange 3 toward the top portion 2B of the crown 2 (Fig. 1). The covering member 8 is sewn at all contact portions with the flange 3 and the crown 2 except for the portion forming the exhaust port 9 .

The air passage 5 has a shape protruding forward (in the front-rear direction X) from the crown 2, and when viewed from the side of the cap 1, the tip of the opening of the brim 3 is 8 mm to 15 mm, and the top 2B of the crown 2 is 3 mm to 15 mm. The protruding height (width) of the air passage 5 is reduced toward 5 mm and the top portion 2B. When the air passage 5 is viewed from the top, the width W of the covering member 8 is 60 mm to 80 mm at the tip of the opening of the flange 3, but is 50 mm to 60 mm at the top 2B of the crown 2. has a trapezoidal shape.
That is, the cross-sectional area of the air passage 5 gradually decreases from the first opening 6 as the intake port toward the exhaust port 9 . The reduction in the cross-sectional area is a structure in which the flow velocity of the air flowing in from the first opening 6 increases as it approaches the exhaust port 9 .
Furthermore, as the flow velocity of the air increases, the pressure of the air passing through the air passage 5 decreases, and the high-temperature and high-pressure air with heat and water vapor generated from the head is taken in and discharged from the discharge port 9. .

Moreover, the sliding 4 of the hat 1 according to the present invention may have an uneven structure or have air permeability. Further, a plurality of intake ports (not shown) penetrating from the front and back may be provided in the slide 4 or in a portion above the slide 4 (immediately above the slide 4).

The intake port is located on the side of the crown 2, and it is important to provide it below the crown 2 as much as possible to make the side of the head feel cool. In other words, the air flows in a laminar state inside the ventilation passage 5 at the top of the head, and the atmospheric pressure is also negative. Therefore, when air flows in from the lower end of the crown 2, the air tends to flow from the lower side of the head toward the air passage 5 in a laminar flow state. As a result, a slight air flow is felt in the temporal region, which promotes coolness. As a method of air intake for this side surface, it is preferable to use a slippery surface 4 having irregularities or fibrous material that facilitates ventilation (permeable).
There is also a method of attaching a plurality of holes just above the slide. A general cap is provided with a holing from the center to the top of the cap body, which is used to discharge heat from the cap body. do.
In any case, the important thing is to inhale from the lower end of the cap 1 as much as possible.

In the hat 1 according to the present invention, a material (heat shielding material) 10 having a high reflectance against radiant heat such as aluminum foil is attached to the inside of the brim 3, the crown 2 and the covering member 8, and the aluminum foil etc. against radiant heat A reflective surface of a highly reflective material 10 is attached facing the sunlight side.

As I mentioned before, the biggest factor that makes the head hot is the radiant heat from the sun.
Inside the cap 1, in principle, a material 10 having a high reflectance against radiant heat, such as aluminum foil, is used on the entire surface, and all reflecting surfaces are attached facing the sunlight side.
The material 10 having a high reflectance with respect to radiant heat includes various materials such as those using aluminum foil and those vapor-deposited on cloth, resin film, or the like. A material with a high reflectance of 10 against radiant heat should have a high reflectance, but many of the hats 1 are rounded, and if it is difficult to use aluminum foil, etc., a heat shield material made by vapor-depositing aluminum can also be used. It is possible.
In this embodiment, considering flexibility and air permeability, a cloth with aluminum deposited on one side thereof is used. Since the material 10 having a high reflectance to radiant heat has a thickness of about 0.2 mm, the wearer of the hat 1 does not feel uncomfortable even if it is used inside the hat body. A material having a reflectance of about 75% to 93% is used as the highly reflective material 10 for radiant heat.

As shown in FIG. 4, the brim 3 is made up of a cloth 3A, a material 10 having a high reflectance to radiant heat, a plastic plate 3B, and a cloth 3A. A plastic plate 10 is used for the flange 3 because of its strength. However, the plastic plate 3B is not necessary if the cloth 3A provides rigidity.
The plastic plate 3B is less likely to transmit the primary radiant heat and has much less heat than the cap body. In some cases, the material 10 having a high reflectance to the radiant heat is not used due to costs and the like.

The crown 2 is composed of a cloth and a material 10 having a high reflectance to radiant heat attached inside the cloth. In some cases, a decorative cloth or net is attached to make the inside look beautiful.

The air passage 5 is fixed to the crown 2 by stitching or the like from the first opening 6 of the collar 3 to the vicinity of the top 2B of the crown 2 except for the exhaust port 9 . Moreover, as shown in FIG. 4, the structure includes a cloth 8A, a material 10 having a high reflectance to radiant heat, a plastic plate 8B, and a cloth 8A. In this case, too, the plastic plate 8B may not be used when the strong cloth 8A is used or when the cap body is required to be flexible. Also, in order to improve the flow of air inside the cap body, it is possible to omit the cloth under the plastic plate 10. - 特許庁

As shown in FIGS. 5(a) to 5(d), the shape of the air passage 5 can be various shapes such as U-shaped, triangular, and circular. By changing the shape and size of the ventilation path 5, the flow of air inside the ventilation path 5 and the amount of air discharged from the exhaust port 9 are changed, so the coolness inside the hat 1 is also changed.

Next, the mechanism and effects of the hat 1 according to the present invention will be described in detail with reference to FIG.

The main components of the cap 1 of the present invention are a brim 3, an air passage 5, a crown 2, and a material 10 having a high reflectance against radiant heat, such as aluminum foil.
Functionally, there is a first opening 6 functioning as an intake port provided in the brim 3, an exhaust port 9 formed near the top 2B of the crown 2, and a slide 4 and a hole disposed at the lower end of the hat body. Air inlets such as cliffs are important.

An intake port (first opening 6 ) for air that flows in due to wind from the front or running is provided to open below the flange 3 . The face is most exposed to the wind when the wind blows or when walking. The face has a large area and easily receives air. Moreover, the air that hits the face tends to rise and is easily sucked into the hat body. The faster you walk, the greater the amount. That is, it can be said that the amount of air passing through the inside of the cap body is proportional to the wind speed or walking speed.
As shown in FIG. 6, the air sucked from the intake port (first opening 6) flows into the ventilation passage 5 provided on the outside of the crown 2. move along. At this time, centrifugal force acts on the air, which flows inside the air passage 5 at high speed and is not easily affected by hair, so the air is discharged from the exhaust port 9 in a laminar flow state.
In addition, by covering the second opening 7 with the mesh member 11, it is possible to prevent hair from entering the air passage 5, maintain a state in which the air can easily flow inside the air passage 5, and prevent the air from entering from the head. Heat can easily flow to the ventilation path 5 . By fixing the mesh member 11 to the crown 2 on the periphery of the second opening 6, the hemispherical shape of the crown 2 can be maintained. Since the shape of the crown 2 can be maintained, the hat 1 can be manufactured easily and the wearer can easily wear it.
Furthermore, in the hat 1 of the present invention, the closer the exhaust port 9 is, the smaller the cross-sectional area is, so the flow velocity of the air in the air passage 5 increases. As a result, the pressure on the head side of the air passage 5 becomes negative.

On the other hand, the air inside the crown 2 expands due to the heat and water vapor generated from the head, and the pressure also increases, so that the air flows into the air passage 5 with a low atmospheric pressure.
As a result, the air inside the ventilation path 5 further increases its speed and is discharged to the outside (outside) from the exhaust port 9 . The slide 4 at the lower end of the side of the crown 2 is made of unevenness or fiber, or a hole is provided directly above the slide 4 to make it easy for outdoor air to flow in. there is
As a result, the air that has flowed in from the lower end of the side of the crown 2 flows around the head in a laminar flow toward the air passage 5 with negative pressure, and the heat and water vapor generated from the head are discharged, creating a cool environment. can get.

It is said that the air intake and exhaust ports are attached to the hat body, but it is said that it does not feel cool. The hat 1 according to the invention completely overcomes this problem.
In addition, all the members facing the sun such as the brim 3, the air passage 5, and the crown 2 are fitted with heat shielding materials to block radiant heat. Therefore, the hat 1 of the present invention can be said to be an epoch-making hat against heatstroke, heat, etc., because cool air flows under the super shade.

The characteristics of the hat 1 according to the present invention are summarized as follows.
First, since the material 10 with a high reflectance to the radiant heat is contained on the entire surface, most of the radiant heat can be blocked, and the heat applied to the head can be greatly reduced, so it is effective against heatstroke. .
In other words, by wearing the hat 1, it is possible to create a situation in which the wearer's head is super shaded.

Secondly, since the material 10 with a high reflectance to radiant heat is used, it can block ultraviolet rays and is gentle on the skin.

Thirdly, even when the wearer is standing still, the air around the face thermally expands due to the influence of body temperature and rises, passing through the air passage 5 from the first opening 6 (intake port) of the brim 3 to the head. flow. This means that there is no obstruction such as hair in the passage from the first opening 6 of the air passage 5 to the exhaust port 9, and the air can flow very easily.

Fourth, as the walking speed of the wearer increases, or as the amount of air flowing from the front increases, the amount of air hitting the face increases, and this air vigorously flows from the first opening 6 of the brim 3 into the air passage 5. Since it passes through and is exhausted from the exhaust port 9 of the top part, it can feel very cool.

Fifth, the cross-sectional area of the air passage 5 becomes smaller toward the top of the crown 2 . That is, since the speed of the air flowing through the air passage 5 increases, comfort in the vicinity of the head is further improved.

Sixth, the higher the speed of the air passing through the airway 5, the higher the dynamic pressure inside the airway 5 and the lower the static pressure around it. As a result, the air on the sides of the head moves so as to be drawn toward the head. For this reason, it is preferable to have a structure in which air can easily flow into the hat body from an intake port such as a slide 4 or a hole at the lower side of the crown 2 .

Seventh, when the wearer moves, the temperature of the head becomes high, and the slide 4 in contact with the forehead is likely to sweat. Since the air flows on the brim 3 side of the slide 4 that contacts the forehead, the slide 4 is also cooled and the forehead is less likely to sweat.

[Test 1]
He wore a hat on his head and stood in a windless room with a temperature of 22°C. In this state, a burning incense stick was brought close to the exhaust port at the top of the hat.

[Result 1]
The smoke from the incense drifted backwards from the vent at the top of the hat.

[Discussion 1]
It can be seen that even when there is no wind, the air flows through the head from the intake port (first opening) opened on the lower side of the brim and from the exhaust port at the top. This is because the air around the face is heated by the body temperature, increases buoyancy and rises, and is further thermally expanded by the heat of the head, increasing the flow velocity and being discharged from the exhaust port. In other words, this hat is proof that it is very breathable.

[Test 2]
In front of an 800W far-infrared heater, place a cap with heat shielding material vapor-deposited on the inside of the cap and a normal cap at a position about 30 cm from the heater so that the top of the cap is on the heater side. placed in The vapor-deposited heat-shielding material was oriented so that the vapor-deposited surface faced the top end of the cap body. Surface temperature was measured by thermography. The room temperature at this time was 26°C.

[Result 2]
b) When the surface of the hat body is measured with a thermography from the heater side, the temperature is 51.5°C for the hat without the heat shielding material, and 55.4°C for the hat with the heat shielding material inside. The temperature of the provided cap was 3.9°C higher.
b) At this time, the inside temperature was 53.1°C for the hat without the heat shielding material and 43.5°C for the hat with the heat shielding material. It was 6°C lower.

[Discussion 2]
b) The surface temperature of the heater side of the hat body is heated by being directly irradiated with radiant heat, and once transmitted through the hat body, reflected by the heat shielding material inside the hat body, and returned to the hat body again to become heat. There are two things. In other words, the temperature of the cap directly irradiated from the heater and raised is 51.5° C. of the cap without the heat insulating material. Further, the heat was transmitted through the hat body, reflected by the heat shielding material, returned to the hat body, and turned into heat at 55.4°C. In other words, the 3.9°C higher temperature means that radiant heat is not applied to the head due to the reflection of the heat shield material.
b) The internal temperature of the hat is the temperature actually applied to the head. The fact that the hat with the heat shielding material is 9.6°C lower means that the heat shielding effect itself means that the head is cooler due to the heat shielding material.

As described above, the present embodiment has been described, but in addition to this, it is possible to select the configurations mentioned in the above embodiments or to change them to other configurations as appropriate without departing from the gist of the present invention. . For example, in the present embodiment, in the cap 1, the height H of the ventilation passage 5 is formed so as to gradually decrease toward the top portion 2B, but in the vicinity of the discharge port 9, by increasing the height, The air passing through the ventilation path 5 can be discharged smoothly.

1 hat (breathable cap)
2 Crown 2A Base 2B Top 2C Hook 3 Collar 3A Cloth 3B Plastic plate 4 Sliding 5 Air passage 6 First opening 7 Second opening 8 Covering member 8A Cloth 8B Plastic plate 9 Outlet 10 Against radiant heat such as aluminum foil High reflectance material 11 Mesh member H height (height of ventilation path)
W width (width of covering member)
X Front-back direction Y Vertical direction Z Circumferential direction

Claims (5)

A breathable hat comprising a brim, a crown, slides provided at least forwardly and laterally of the lower end of the crown, and an air passage formed in front of the crown,
The air passage includes a first opening formed through the front and back of the collar in front of the slide, and a second opening formed in front of the crown and from the base to the top of the crown. , a covering member that covers the first opening and the second opening from the front side, a mesh member that covers the second opening from the back side, and an exhaust formed between the covering member and the crown at the top having a mouth and
Air that has flowed in from the first opening that opens below the collar is discharged to the outside from the exhaust port through the ventilation path,
A hat characterized by: The air passage is formed from the brim to the rear of the top of the crown along the contour of the crown,
the height of the air passage tapers toward the top of the crown;
The width of the covering member gradually narrows from the brim to the top of the crown,
In the covering member, all contact portions with the flange and the crown other than the exhaust port are sewn,
2. The hat according to claim 1, characterized in that: The sliding has an uneven structure or the sliding has air permeability,
3. The hat according to claim 1 or 2, characterized in that: A plurality of intake ports are provided in the slide or a portion directly above the slide,
4. The hat according to any one of claims 1 to 3, characterized in that: A material having a high reflectance against radiant heat, such as aluminum foil, is attached to the inner side of the collar, the crown, and the covering member, and the reflective surface of the material having a high reflectance against radiant heat, such as aluminum foil, is exposed to sunlight. mounted facing the side,
5. The hat according to any one of claims 1 to 4, characterized in that:

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