JP2021188571A - Mask periphery cooling device - Google Patents

Abstract

To send air to a periphery of a mask and thereby cool the periphery of the mask to eliminate a possibility that a mask wearer suffers heat stroke when an outdoor temperature etc. increases with the wearer wearing the mask.SOLUTION: A mask periphery cooling device includes: an air sending fan housing 11 formed with an air inlet 31 for suctioning outside air and a passage 3 for guiding the air introduced from the air inlet 31 to an air outlet 32 for exhausting the air to a front surface of a mask 6; and an air sending fan housing base part 12 formed integrally with the air sending fan housing 11. The air sending fan housing 11 has a fan unit 2. Further, the air sending fan housing base part 12 includes a clip 5 for sandwiching a flange part 71 of a hat 7. The air outlet 32 includes an exhaust port adjustment part 33 which adjusts the outside air in a direction of the mask 6.SELECTED DRAWING: Figure 1

Description

The present invention aims to prevent the mask wearer from developing heat stroke when the mask is worn due to an increase in outside air temperature, etc., and cools the mask by sending air to the vicinity of the mask wearer's mask. It relates to a mask peripheral cooling device that prevents the wearer from developing heat stroke.

As a measure against heat stroke, a configuration in which an air supply fan such as an electric fan is conventionally supplied to a part of the body that needs to be cooled has been adopted.

For example, in the hat with a fan described in Patent Document 1, the fan 17 is fixed to the brim 12 of the hat body 13 for the purpose of providing coolness in addition to the sunshade action, and the opening 14 of the hat body 13 is opened. It is a structure that blows air toward the head through it.
The clip-type electric fan described in Patent Document 2 is easy to carry and is used by being fixed to the user's clothes by using a clip, and the wind direction can be selectively controlled as needed, and the inside of the user's clothes can be controlled. It is a clip-type fan that can blow air efficiently.
The helmet & hat fan described in Patent Document 3 has no protrusions such as clips, and can be comfortably attached to either the helmet or the hat as it is, and the position of being sandwiched between the helmet or the hat band can be changed. , Helmet & hat fan that can change the air supply vaporization cooling position to the back of the head up, down, left and right.
The neckband type fan described in Patent Document 4 has a structure that reduces the burden on the body when worn, allows it to be used for a long time, and blows air directly from the air outlet 2 opened from the main body 8 toward the neck and face. Is.

Japanese Unexamined Patent Publication No. 6-173109 Special Table 2018-513932 Japanese Unexamined Patent Publication No. 2013-253590 Japanese Unexamined Patent Publication No. 2019-105266

The hat with a fan described in Patent Document 1 has a structure in which a fan 17 is fixed to the brim 12 of the hat body 13 and blown toward the head through the opening 14 of the hat body 13, so that the mask of the mask wearer Cannot send air to the surrounding area.
The clip-type fan described in Patent Document 2 is intended to efficiently blow air to the inside of the user's clothes, and is not intended to blow air around the mask of the mask wearer. ..
The helmet & hat fan described in Patent Document 3 is intended to change the position of being sandwiched between the helmet and the band of the hat to change the air supply vaporization cooling position to the back of the head up, down, left and right, and is intended for the mask wearer. It is not intended to send air around the mask.
The neckband type fan described in Patent Document 4 has a structure in which air is blown out toward the neck and face from an air outlet 2 opened toward the neck and face, and air is sent to the vicinity of the mask of the mask wearer. It is not the purpose.
As described above, the conventional electric fan or fan aims to cool or blow a part of the body, especially the neck muscle or the back of the face, and cools or blows around the mask by the mask wearer. This is not possible, and there is no effect of suppressing the rise in body temperature around the mask due to wearing the mask, and the purpose is not to prevent the onset of heat stroke due to wearing the mask.

From this point of view, the present invention aims to prevent the mask wearer from developing heat stroke when the mask is worn due to an increase in the outside air temperature, etc., and the mask wearer is in a mask wearing state. An object of the present invention is to propose a mask peripheral cooling device that enables air to be supplied to the mask peripheral area.

In order to solve the above-mentioned problems, the present invention (claim 1) "is a flow path leading to an intake port for sucking external air and an exhaust port for exhausting the air introduced from the intake port to the front surface of the mask. The air supply fan housing is provided with an air supply fan housing formed of the above and an air supply fan housing base integrally formed with the air supply fan housing, and the air supply fan housing is a fan unit that sucks and exhausts external air. The air supply fan housing base is provided with a clip for sandwiching the flange of the hat with the air supply fan housing base, and the exhaust port is provided with the external air in the direction of the mask. It is equipped with an exhaust port adjustment unit for adjustment. "

According to such a structure, by sucking and exhausting the external air by the fan unit, the external air can be sent to the periphery of the mask, so that the periphery of the mask can be cooled. Therefore, when the mask is worn, it is possible to prevent the mask wearer from developing heat stroke as the outside air temperature rises.
Further, by sending the external air to the vicinity of the mask, it is possible to prevent the spectacles from becoming cloudy. Further, the bottom surface of the base of the air supply fan can be firmly and stably fixed on the surface of the collar of the hat by a clip.

The present invention (claim 2) is characterized by "providing a transparent body holding portion on the lower surface of the clip, which is movable in the front-rear direction of the clip and has a transparent body detachably configured".

According to such a structure, by sucking and exhausting the external air by the fan unit, when the external air is sent to the vicinity of the mask, dry eye due to direct injection of the outside air to the eyes is prevented. can do. Further, since the transparent body holding portion is movable in the front-rear direction of the clip, the distance from the eyes can be adjusted, and the transparent body is detachably configured, so that the transparent body can be attached as needed. It can be installed.

According to the present invention (claim 3), "a filter layer capable of removing harmful substances contained in the external air is detachably installed in an intake port, a flow path, an exhaust port, or an exhaust port adjusting portion". It is characterized by.

According to such a structure, when the fan unit sucks and exhausts the external air, the harmful substances contained in the external air can be removed by the filter layer. A known filter layer containing known infectious disease viruses, bacteria, pollen, and PM21 and capable of removing the harmful substances can be used as the harmful substances. Further, when it is necessary to remove the harmful substances other than the above, a known filter layer for the harmful substances required to be removed can be used.

The present invention (claim 4) is characterized in that "the intake port, the flow path, the exhaust port, or the exhaust port adjusting portion is provided with a detachable cooling unit for cooling the external air". There is.

According to such a structure, when the fan unit sucks and exhausts the external air, the temperature of the external air can be cooled by the cooling unit. A known cooling unit can be used as the cooling unit.

According to the present invention (claim 5), "a fan unit formed in the air supply fan housing for sucking and exhausting external air has blades vertically and cylindrically arranged on the collar of a hat. The swirling flow generated by the centrifugal force of the blade is sent to the exhaust port through the flow path. "

According to such a structure, the fan unit can send the external air above the flange portion of the cap to the flow path as a swirling flow in which the directional force and the pressure generated by the centrifugal force of the blades are also increased. ..

The present invention (claim 6) is "a blade in which the fan unit formed in the air supply fan housing for sucking and exhausting the external air is horizontally and cylindrically arranged on the flange portion of the cap. The swirling flow generated by the centrifugal force of the cylindrical blade, which is long in the horizontal direction, has a wide air flow and is sent to the exhaust port by the flow path.

According to such a structure, the fan unit causes the external air parallel to the collar of the cap, and the swirling flow generated by the centrifugal force of the horizontally long cylindrical blade to reduce the width of the air supply. Can be widely sent to the flow path.

The mask peripheral cooling device of the present invention can accurately send the external air above the collar portion of the hat to the mask peripheral area, and prevent the mask wearer from developing heat stroke. In addition to preventing the glasses from becoming cloudy, the base of the air supply fan housing can be firmly and stably fixed to the collar of the hat with a clip.
Since the transparent body is detachably configured, it is possible to prevent dry eye caused by direct injection of outside air into the eyes. Further, by detachably installing a filter layer capable of removing harmful substances at a required location in the flow path, it is possible to remove harmful substances contained in the external air, and the cooling unit is provided in the flow path. The outside air can be cooled by detachably installing it at a required place.
Further, by arranging the fan unit vertically and cylindrically on the collar of the hat, the external air can be sent to the flow path as a swirling flow having increased directional and pressure.
Further, by arranging the fan unit horizontally and cylindrically on the flange portion of the hat, the outside air can be blown to the flow path with a wide air supply width.

It is a figure which shows the state which the mask wearer wears the mask peripheral cooling device in Example 1. FIG. It is a figure which shows the state which the mask wearer wears the mask peripheral cooling device in Example 2. FIG. The mask peripheral cooling device according to the first embodiment, (a) is an elevation view, (b) is a plan view, and (c) is a side view. The mask peripheral cooling device according to the second embodiment, (a) is an elevation view, (b) is a plan view, and (c) is a side view.

In the present invention, the mask peripheral cooling device is a device for cooling by sending air to the vicinity of the mask of the mask wearer by a fan unit 2 placed on the flange 71 of the hat 7 worn by the mask wearer. Is. The hat 7 includes a hat 7 having the collar portion 71 all around or partially. Further, the hat 7 includes a helmet that protects the head and a hat that protects the head from external harmful substances, that is, a so-called head covering.

The mask peripheral cooling device of the present invention includes a charging battery (not shown), and as an example, by charging from a USB type charging connection unit 23, the motor 22 is rotated by a switch (not shown), and the fan unit 2 A known small electric transfer air mechanism that sends air by rotation of the air is adopted.

The mask peripheral cooling device of the present invention adopts a structure that is easy to process, lightweight, inexpensive, can be formed of, for example, a known synthetic resin material, and is easy to assemble and disassemble.
Further, the clip 5 for firmly and stably fixing the air supply fan housing base 12 to the flange 71 of the hat 7 has a known structure having a strong holding force corresponding to the load of the mask peripheral cooling device. adopt.
Further, if necessary, a known connection fixing mechanism such as a belt or a double-sided fastener that firmly connects the air supply fan housing base 12 and the flange 71 of the hat 7 is adopted.

FIG. 1 is a diagram showing a state in which a mask wearer wears the mask peripheral cooling device according to the first embodiment.
The mask wearer wears a hat 7, wears a mask 6, and wears eyeglasses 8 on the eyes 9 as needed. An air supply fan housing base 12A integrally formed with the air supply fan housing 11A is placed on the upper surface of the collar 71 of the hat 7, and the collar 71 of the hat 7 is mounted on the air supply fan. A clip 5 is provided to be sandwiched between the housing base 12A and the housing base 12A.
The air supply fan housing 11A has a fan unit 2A that sucks and exhausts external air, and the fan unit 2A sucks and flows external air from an intake port 31A that sucks external air. The air is guided to the exhaust port 32A that passes through the path 3A and is exhausted to the front surface of the mask 6, and the external air is adjusted in the direction of the mask 6 by the exhaust port adjusting unit 33A, and the air is adjusted to the mask. By supplying air 35A around the mask of the wearer, the mask 6 is cooled to prevent the mask wearer from developing heat stroke.

3A and 3B are mask peripheral cooling devices according to the first embodiment, where FIG. 3A is an elevation view, FIG. 3B is a plan view, and FIG. 3C is a side view.
In the side view of FIG. 3C, a configuration is described in which a transparent body holding portion 41 is provided on the lower surface of the clip 5 so as to be movable in the front-rear direction of the clip and the transparent body 4 is detachably configured. ing.
The transparent body 4 is composed of a transparent synthetic resin having a known rigidity, for example, an acrylic synthetic resin sheet, so that when external air is sent to the periphery of the mask 6, the outside air is sent to the eyes 9. It is possible to prevent dry eye due to direct injection.
Further, the transparent body holding portion 41 is composed of a known moving mechanism, for example, a rail or a groove-shaped runway and a runway holding body capable of moving the runway, in the front-rear direction of the clip 5. The distance to 9 can be adjusted.
Further, the transparent body 4 is provided with a known detachable mechanism, for example, a plug-in type, so that the transparent body 4 can be mounted as needed.

As shown in FIGS. 3A, 3B, and 3C, external air is taken in from the intake port 31A, passes through the flow path 3A, the exhaust port 32A, and the exhaust port adjusting portion 33A, and goes around the mask 6. Be inhaled.
Then, a known filter layer (not shown) for removing harmful substances contained in the external air is detachably installed in the intake port 31A, the flow path 3A, the exhaust port 32A, or the exhaust adjustment unit 33A. do. The installation location is appropriately selected according to the structure of the fan unit 2A, the suction / discharge pressure, and the flow path structure. When the fan unit 2A sucks and exhausts the external air, the harmful substances contained in the external air can be removed by the filter layer. The harmful substance includes a known infectious disease virus, bacteria, pollen or PM21, and a known filter layer capable of removing the harmful substance can be used. If it is necessary to remove the harmful substances other than the above, a known filter layer for the harmful substances required to be removed can be used.

As shown in FIGS. 3A, 3B, and 3C, the external air is taken in from the intake port 31A, passes through the flow path 3A, the exhaust port 32A, and the exhaust port adjusting portion 33A, and goes around the mask 6. Be inhaled.
Then, a cooling unit (not shown) for cooling the external air is detachably installed in the intake port 31A, the flow path 3A, the exhaust port 32A, or the exhaust port adjusting unit 33A. The installation location is appropriately selected according to the structure of the fan unit 2A, the suction / discharge pressure, and the flow path structure. According to such a structure, when the fan unit 2A sucks and exhausts the external air, the temperature of the external air can be cooled by the cooling unit. As the cooling unit, a known cooling unit can be used. As an example, a known cooling pipe is used at an appropriate location in the flow path 3A (3B in FIG. 4 of Example 2), and as an example, an exhaust port 32A (Example 2) of the flow path 3A (3B in FIG. 4 of Example 2). In FIG. 4, it can be installed so as to cross the flow path at the position immediately before 32B).

The fan unit 2A shown in FIGS. 3A, 3B and 3C has blades 21A arranged vertically and cylindrically, and the swirling flow generated by the centrifugal force of the blades 21A is passed through the flow path 3A. It is a so-called blower characterized by supplying air to the exhaust port 32A. The centrifugal force of the runners of the forward-facing blades arranged in a cylindrical shape creates a swirling flow in a direction substantially perpendicular to the motor rotation axis, and the generated swirling flow is generated by the scroll of the cylindrical air supply fan housing 11 on the outer circumference of the blade 21A. Since it is rectified in one direction and the pressure is also rising, it is rectified in a fixed direction from the exhaust port 32A even through the flow path 3A by the exhaust port adjusting section 33A whose direction can be freely adjusted by the exhaust port adjusting section rotating section 34A as an example. The air supply 35A can be concentrated and the area around the mask 6 can be locally cooled.
In the first embodiment, two fan units 2A are arranged in parallel to secure a wide range in the width direction of the air supply 35A, but one unit or three or more units can be appropriately selected.

FIG. 2 is a diagram showing a state in which the mask peripheral cooling device according to the second embodiment is worn by the mask wearer.
The mask wearer wears a hat 7, wears a mask 6, and wears eyeglasses 8 on the eyes 9 as needed. An air supply fan housing base 12B integrally formed with the air supply fan housing 11B is placed on the upper surface of the collar 71 of the hat 7, and the collar 71 of the hat 7 is mounted on the air supply fan. A clip 5 is provided to be sandwiched between the housing base 12B and the housing base 12B.
The air supply fan housing 11B has a fan unit 2B that sucks and exhausts external air, and the fan unit 2B sucks and flows external air from an intake port 31B that sucks external air. The air is guided to the exhaust port 32B that passes through the path 3B and is exhausted to the front surface of the mask 6, and the external air is adjusted in the direction of the mask 6 by the exhaust port adjusting unit 33B, and the air is adjusted to the mask. By blowing air 35B around the mask of the wearer, the mask 6 is cooled to prevent the mask wearer from developing heat stroke.

4A and 4B are mask peripheral cooling devices according to the second embodiment, where FIG. 4A is an elevation view, FIG. 4B is a plan view, and FIG. 4C is a side view.
The description of the members having the same reference numerals as those in FIG. 3 will be omitted.
Further, regarding a known filter layer (not shown) for removing harmful substances contained in the outside air and a cooling unit (not shown) for cooling the outside air, FIG. 3 (a) of Example 1 is provided. , (B) and (c) are similarly adopted in the second embodiment.

The fan unit 2B shown in FIGS. 4A, 4B and 4C has blades 21B arranged horizontally and cylindrically, and is generated by the centrifugal force of the horizontally long cylindrical blades 21B. It is characterized in that the swirling flow is widened in the width of the air supply and is supplied to the exhaust port 32B by the flow path 3B. It has a runner with blades 21B similar to a blower, but since both sides are covered with side plates, there is no inflow of external air from the axial direction. Therefore, it is a so-called cross-flow fan in which a once-through flow that passes through the runner of the blade 21B is generated and the width of the air supply can be widened.
Then, a uniform air supply is obtained in which the air supply is blown downward along the circumference of the runner of the blade 21B, and the direction can be adjusted from the exhaust port 32B even through the flow path 3B by, for example, the exhaust port adjusting unit rotating portion 34B. The free exhaust port adjusting unit 33B can concentrate the air supply 35B in a certain direction and locally cool the area around the mask 6.

In the mask peripheral cooling device of the present invention, air is sent to the vicinity of the mask of the mask wearer by a fan unit 2 that can be easily placed on the collar 71 of the hat 7 worn by the mask wearer by the clip 5. Can be cooled by.
The so-called head includes a hat 7 having a collar 71 all around or partially, and the hat 7 includes a helmet that protects the head and a head that protects the head from external harmful substances. It can be easily and inexpensively applied to something that covers a part.

1,1A, 1B Air supply fan 11, 11A, 11B Air supply fan housing 12, 12A, 12B Air supply fan housing base 2, 2A, 2B Fan unit 21, 21A, 21B Fan 22, 22A, 22B Motor 23, 23A, 23B Charging connection 3, 3A, 3B Flow path 31, 31A, 31B Intake port 32, 32A, 32B Exhaust port 33, 33A, 33B Exhaust port adjustment part 34, 34A, 34B Exhaust port adjustment part Rotating part 35, 35A , 35B Air supply 4 Transparent body 41 Transparent body holding part 5 Clip 6 Mask 7 Hat 71 Collar 8 Eyes 9th

An object of the present invention is to prevent a mask wearer from developing heat stroke when a mask covering the nose and mouth of the wearer (hereinafter referred to as a mask) is worn due to an increase in outside air temperature or the like. It relates to a mask peripheral cooling device that cools the wearer by sending air around the mask and prevents the wearer from developing heat stroke.

As a measure against heat stroke, a configuration in which an air supply fan such as an electric fan is conventionally supplied to a part of the body that needs to be cooled has been adopted.

For example, in the hat with a fan described in Patent Document 1, the fan 17 is fixed to the brim 12 of the hat body 13 for the purpose of providing coolness in addition to the sunshade action, and the opening 14 of the hat body 13 is opened. It is a structure that blows air toward the head through it.
The clip-type electric fan described in Patent Document 2 is easy to carry and is used by being fixed to the user's clothes by using a clip, and the wind direction can be selectively controlled as needed, and the inside of the user's clothes can be controlled. It is a clip-type fan that can blow air efficiently.
The helmet & hat fan described in Patent Document 3 has no protrusions such as clips, and can be comfortably attached to either the helmet or the hat as it is, and the position of being sandwiched between the helmet or the hat band can be changed. , Helmet & hat fan that can change the air supply vaporization cooling position to the back of the head up, down, left and right.
The neckband type fan described in Patent Document 4 has a structure that reduces the burden on the body when worn, allows it to be used for a long time, and blows air directly from the air outlet 2 opened from the main body 8 toward the neck and face. Is.

Japanese Unexamined Patent Publication No. 6-173109 Special Table 2018-513932 Japanese Unexamined Patent Publication No. 2013-253590 Japanese Unexamined Patent Publication No. 2019-105266

The hat with a fan described in Patent Document 1 has a structure in which a fan 17 is fixed to the brim 12 of the hat body 13 and blown toward the head through the opening 14 of the hat body 13, so that the mask of the mask wearer Cannot send air to the surrounding area.
The clip-type fan described in Patent Document 2 is intended to efficiently blow air to the inside of the user's clothes, and is not intended to blow air around the mask of the mask wearer. ..
The helmet & hat fan described in Patent Document 3 is intended to change the position of being sandwiched between the helmet and the band of the hat to change the air supply vaporization cooling position to the back of the head up, down, left and right, and is intended for the mask wearer. It is not intended to send air around the mask.
The neckband type fan described in Patent Document 4 has a structure in which air is blown out toward the neck and face from an air outlet 2 opened toward the neck and face, and air is sent to the vicinity of the mask of the mask wearer. It is not the purpose.
As described above, the conventional electric fan or fan aims to cool or blow a part of the body, especially the neck muscle or the back of the face, and cools or blows around the mask by the mask wearer. This is not possible, and there is no effect of suppressing the rise in body temperature around the mask due to wearing the mask, and the purpose is not to prevent the onset of heat stroke due to wearing the mask.

From this point of view, the present invention aims to prevent the mask wearer from developing heat stroke when the mask is worn due to an increase in the outside air temperature, etc., and the mask wearer is in a mask wearing state. An object of the present invention is to propose a mask peripheral cooling device that enables air to be supplied to the mask peripheral area.

In order to solve the above problems, the present invention (Claim 1), "an intake port for sucking the external air, the mounting of the mask the air introduced from the intake port to cover the nose and mouth of the wearer An air supply fan housing having a flow path leading to an exhaust port on the front surface opposite to the face side of the person and an air supply fan housing base integrally formed with the air supply fan housing. The air supply fan housing has a fan unit that sucks and exhausts external air, and the air supply fan housing base is mounted on the upper surface of the flange of the hat, and the air supply fan housing base is provided. to include a clip for clamping the collar portion of the hat and the air blower housing base,
The exhaust port is provided with an exhaust port adjusting unit that adjusts the external air toward the front surface of the mask.
The fan unit that sucks and exhausts the external air formed in the air supply fan housing has blades that are vertically and cylindrically arranged on the collar portion of the cap, and is generated by the centrifugal force of the blades. The generated swirling flow is sent to the exhaust port by the flow path . "

According to such a structure, by sucking and exhausting the external air by the fan unit, the external air can be sent to the periphery of the mask, so that the periphery of the mask can be cooled. Therefore, when the mask is worn, it is possible to prevent the mask wearer from developing heat stroke as the outside air temperature rises.
Further, by sending the external air to the vicinity of the mask, it is possible to prevent the spectacles from becoming cloudy. Further, the bottom surface of the base of the air supply fan can be firmly and stably fixed on the surface of the collar of the hat by a clip.
Further, according to such a structure, the fan unit sends the external air above the collar portion of the cap to the flow path as a swirling flow in which the directionality and pressure generated by the centrifugal force of the blades are also increased. I can feel it.

The present invention (claim 2 ) is "on the side opposite to the face side of the wearer having an intake port for sucking external air and a mask covering the wearer's nose and mouth with the air introduced from the intake port. The air supply fan housing is provided with an air supply fan housing formed with a flow path leading to an exhaust port to be exhausted on a certain front surface, and an air supply fan housing base integrally formed with the air supply fan housing. has a fan unit for suction and exhaust the air outside, the air blower housing base placed on the upper surface of the flange portion of the hat, the air in the fan housing base, the flange portion of the hat With a clip to hold the air supply fan housing with the base of the air supply fan
The exhaust port is provided with an exhaust port adjusting unit that adjusts the external air toward the front surface of the mask.
The fan unit that sucks and exhausts the external air formed in the air supply fan housing has blades that are horizontally and cylindrically arranged on the collar of the cap, and has a long cylindrical shape in the horizontal direction. The swirling flow generated by the centrifugal force of the blade is widened in the width of the air supply and is sent to the exhaust port by the flow path . "

According to such a structure, by sucking and exhausting the external air by the fan unit, the external air can be sent to the periphery of the mask, so that the periphery of the mask can be cooled. Therefore, when the mask is worn, it is possible to prevent the mask wearer from developing heat stroke as the outside air temperature rises.
Further, by sending the external air to the vicinity of the mask, it is possible to prevent the spectacles from becoming cloudy. Further, the bottom surface of the base of the air supply fan can be firmly and stably fixed on the surface of the collar of the hat by a clip.
Further, according to such a structure, the fan unit sends the external air parallel to the collar of the cap, and the swirling flow generated by the centrifugal force of the horizontally long cylindrical blades to the air. It has a wide width and can be sent to the flow path.

According to the present invention (claim 3 ), "a transparent body (hereinafter referred to as a transparent body) having a shape that is movable in the front-rear direction of the clip and that protects the wearer's eyes is detachably configured on the lower surface of the clip. , Equipped with a transparent body holding part. "

According to such a structure, by sucking and exhausting the external air by the fan unit, when the external air is sent to the vicinity of the mask, dry eye due to direct injection of the outside air to the eyes is prevented. can do. Further, since the transparent body holding portion is movable in the front-rear direction of the clip, the distance from the eyes can be adjusted, and the transparent body is detachably configured, so that the transparent body can be attached as needed. It can be installed.

According to the present invention (claim 4 ), "a filter layer capable of removing harmful substances contained in the external air is detachably installed in an intake port, a flow path, an exhaust port, or an exhaust port adjusting portion". It is characterized by.

According to such a structure, when the fan unit sucks and exhausts the external air, the harmful substances contained in the external air can be removed by the filter layer. A known filter layer containing known infectious disease viruses, bacteria, pollen, and PM21 and capable of removing the harmful substances can be used as the harmful substances. Further, when it is necessary to remove the harmful substances other than the above, a known filter layer for the harmful substances required to be removed can be used.

The present invention (claim 5 ) is characterized in that "the intake port, the flow path, the exhaust port, or the exhaust port adjusting portion is provided with a detachable cooling unit for cooling the external air". There is.

According to such a structure, when the fan unit sucks and exhausts the external air, the temperature of the external air can be cooled by the cooling unit. A known cooling unit can be used as the cooling unit.

The mask peripheral cooling device of the present invention can accurately send the external air above the collar portion of the hat to the mask peripheral area, and prevent the mask wearer from developing heat stroke. In addition to preventing the glasses from becoming cloudy, the base of the air supply fan housing can be firmly and stably fixed to the collar of the hat with a clip.
Since the transparent body is detachably configured, it is possible to prevent dry eye caused by direct injection of outside air into the eyes. Further, by detachably installing a filter layer capable of removing harmful substances at a required location in the flow path, it is possible to remove harmful substances contained in the external air, and the cooling unit is provided in the flow path. The outside air can be cooled by detachably installing it at a required place.
Further, by arranging the fan unit vertically and cylindrically on the collar of the hat, the external air can be sent to the flow path as a swirling flow having increased directional and pressure.
Further, by arranging the fan unit horizontally and cylindrically on the flange portion of the hat, the outside air can be blown to the flow path with a wide air supply width.

It is a figure which shows the state which the mask wearer wears the mask peripheral cooling device in Example 1. FIG. It is a figure which shows the state which the mask wearer wears the mask peripheral cooling device in Example 2. FIG. The mask peripheral cooling device according to the first embodiment, (a) is an elevation view, (b) is a plan view, and (c) is a side view. The mask peripheral cooling device according to the second embodiment, (a) is an elevation view, (b) is a plan view, and (c) is a side view.

In the present invention, the mask peripheral cooling device is a device for cooling by sending air to the vicinity of the mask of the mask wearer by a fan unit 2 placed on the flange 71 of the hat 7 worn by the mask wearer. Is. The hat 7 includes a hat 7 having the collar portion 71 all around or partially. Further, the hat 7 includes a helmet that protects the head and a hat that protects the head from external harmful substances, that is, a so-called head covering.

The mask peripheral cooling device of the present invention includes a charging battery (not shown), and as an example, by charging from a USB type charging connection unit 23, the motor 22 is rotated by a switch (not shown), and the fan unit 2 A known small electric transfer air mechanism that sends air by rotation of the air is adopted.

The mask peripheral cooling device of the present invention adopts a structure that is easy to process, lightweight, inexpensive, can be formed of, for example, a known synthetic resin material, and is easy to assemble and disassemble.
Further, the clip 5 for firmly and stably fixing the air supply fan housing base 12 to the flange 71 of the hat 7 has a known structure having a strong holding force corresponding to the load of the mask peripheral cooling device. adopt.
Further, if necessary, a known connection fixing mechanism such as a belt or a double-sided fastener that firmly connects the air supply fan housing base 12 and the flange 71 of the hat 7 is adopted.

FIG. 1 is a diagram showing a state in which a mask wearer wears the mask peripheral cooling device according to the first embodiment.
The mask wearer wears a hat 7, wears a mask 6, and wears eyeglasses 8 on the eyes 9 as needed. An air supply fan housing base 12A integrally formed with the air supply fan housing 11A is placed on the upper surface of the collar 71 of the hat 7, and the collar 71 of the hat 7 is mounted on the air supply fan. A clip 5 is provided which is sandwiched between the housing base 12A and the housing base 12A.
The air supply fan housing 11A has a fan unit 2A that sucks and exhausts external air, and the fan unit 2A sucks and flows external air from an intake port 31A that sucks external air. The air passes through the road 3A and is guided to the exhaust port 32A that exhausts the air to the front surface opposite to the face side of the wearer of the mask 6, and the external air is directed to the mask 6 by the exhaust port adjusting unit 33A. The mask 6 is cooled by blowing air 35A around the mask of the mask wearer, thereby preventing the mask wearer from developing heat stroke.

3A and 3B are mask peripheral cooling devices according to the first embodiment, where FIG. 3A is an elevation view, FIG. 3B is a plan view, and FIG. 3C is a side view.
In the side view of FIG. 3C, a configuration is described in which a transparent body holding portion 41 is provided on the lower surface of the clip 5 so as to be movable in the front-rear direction of the clip and the transparent body 4 is detachably configured. ing.
The transparent body 4 is composed of a transparent synthetic resin having a known rigidity, for example, an acrylic synthetic resin sheet, so that when external air is sent to the periphery of the mask 6, the outside air is sent to the eyes 9. It is possible to prevent dry eye due to direct injection.
Further, the transparent body holding portion 41 is composed of a known moving mechanism, for example, a rail or a groove-shaped runway and a runway holding body capable of moving the runway, in the front-rear direction of the clip 5. The distance to 9 can be adjusted.
Further, the transparent body 4 is provided with a known detachable mechanism, for example, a plug-in type, so that the transparent body 4 can be mounted as needed.

As shown in FIGS. 3A, 3B, and 3C, external air is taken in from the intake port 31A, passes through the flow path 3A, the exhaust port 32A, and the exhaust port adjusting portion 33A, and goes around the mask 6. Be inhaled.
Then, a known filter layer (not shown) for removing harmful substances contained in the external air is detachably installed in the intake port 31A, the flow path 3A, the exhaust port 32A, or the exhaust adjustment unit 33A. do. The installation location is appropriately selected according to the structure of the fan unit 2A, the suction / discharge pressure, and the flow path structure. When the fan unit 2A sucks and exhausts the external air, the harmful substances contained in the external air can be removed by the filter layer. The harmful substance includes a known infectious disease virus, bacteria, pollen or PM21, and a known filter layer capable of removing the harmful substance can be used. If it is necessary to remove the harmful substances other than the above, a known filter layer for the harmful substances required to be removed can be used.

As shown in FIGS. 3A, 3B, and 3C, external air is taken in from the intake port 31A, passes through the flow path 3A, the exhaust port 32A, and the exhaust port adjusting portion 33A, and goes around the mask 6. Be inhaled.
Then, a cooling unit (not shown) for cooling the external air is detachably installed in the intake port 31A, the flow path 3A, the exhaust port 32A, or the exhaust port adjusting unit 33A. The installation location is appropriately selected according to the structure of the fan unit 2A, the suction / discharge pressure, and the flow path structure. According to such a structure, when the fan unit 2A sucks and exhausts the external air, the temperature of the external air can be cooled by the cooling unit. As the cooling unit, a known cooling unit can be used. As an example, a known cooling pipe is used at an appropriate location in the flow path 3A (3B in FIG. 4 of Example 2), and as an example, an exhaust port 32A (Example 2) of the flow path 3A (3B in FIG. 4 of Example 2). In FIG. 4, it can be installed so as to cross the flow path at the position immediately before 32B).

The fan unit 2A shown in FIGS. 3A, 3B and 3C has blades 21A arranged vertically and cylindrically, and the swirling flow generated by the centrifugal force of the blades 21A is passed through the flow path 3A. It is a so-called blower characterized by supplying air to the exhaust port 32A. The centrifugal force of the runners of the forward-facing blades arranged in a cylindrical shape creates a swirling flow in a direction substantially perpendicular to the motor rotation axis, and the generated swirling flow is generated by the scroll of the cylindrical air supply fan housing 11 on the outer circumference of the blade 21A. Since it is rectified in one direction and the pressure is also rising, it is rectified in a fixed direction from the exhaust port 32A even through the flow path 3A by the exhaust port adjusting section 33A whose direction can be freely adjusted by the exhaust port adjusting section rotating section 34A as an example. The air supply 35A can be concentrated and the area around the mask 6 can be locally cooled.
In the first embodiment, two fan units 2A are arranged in parallel to secure a wide range in the width direction of the air supply 35A, but one unit or three or more units can be appropriately selected.

FIG. 2 is a diagram showing a state in which the mask peripheral cooling device according to the second embodiment is worn by the mask wearer.
The mask wearer wears a hat 7, wears a mask 6, and wears eyeglasses 8 on the eyes 9 as needed. An air supply fan housing base 12B integrally formed with the air supply fan housing 11B is placed on the upper surface of the collar 71 of the hat 7, and the collar 71 of the hat 7 is mounted on the air supply fan. A clip 5 is provided to be sandwiched between the housing base 12B and the housing base 12B.
The air supply fan housing 11B has a fan unit 2B that sucks and exhausts external air, and the fan unit 2B sucks and flows external air from an intake port 31B that sucks external air. The air is guided to the exhaust port 32B which passes through the road 3B and is exhausted to the front surface opposite to the face side of the wearer of the mask 6, and the external air is directed to the mask 6 by the exhaust port adjusting portion 33B. The mask 6 is cooled by blowing air 35B around the mask of the mask wearer, thereby preventing the mask wearer from developing heat stroke.

4A and 4B are mask peripheral cooling devices according to the second embodiment, where FIG. 4A is an elevation view, FIG. 4B is a plan view, and FIG. 4C is a side view.
The description of the members having the same reference numerals as those in FIG. 3 will be omitted.
Further, regarding a known filter layer (not shown) for removing harmful substances contained in the outside air and a cooling unit (not shown) for cooling the outside air, FIG. 3 (a) of Example 1 is provided. , (B) and (c) are similarly adopted in the second embodiment.

The fan unit 2B shown in FIGS. 4A, 4B and 4C has blades 21B arranged horizontally and cylindrically, and is generated by the centrifugal force of the horizontally long cylindrical blades 21B. It is characterized in that the swirling flow is widened in the width of the air supply and is supplied to the exhaust port 32B by the flow path 3B. It has a runner with blades 21B similar to a blower, but since both sides are covered with side plates, there is no inflow of external air from the axial direction. Therefore, it is a so-called cross-flow fan in which a once-through flow that passes through the runner of the blade 21B is generated and the width of the air supply can be widened.
Then, a uniform air supply is obtained in which the air supply is blown downward along the circumference of the runner of the blade 21B, and the direction can be adjusted from the exhaust port 32B even through the flow path 3B by, for example, the exhaust port adjusting unit rotating portion 34B. The free exhaust port adjusting unit 33B can concentrate the air supply 35B in a certain direction and locally cool the area around the mask 6.

In the mask peripheral cooling device of the present invention, air is sent to the vicinity of the mask of the mask wearer by a fan unit 2 that can be easily placed on the collar 71 of the hat 7 worn by the mask wearer by the clip 5. Can be cooled by.
The so-called head includes a hat 7 having a collar 71 all around or partially, and the hat 7 includes a helmet that protects the head and a head that protects the head from external harmful substances. It can be easily and inexpensively applied to something that covers a part.

1,1A, 1B Air supply fan 11, 11A, 11B Air supply fan housing 12, 12A, 12B Air supply fan housing base 2, 2A, 2B Fan unit 21, 21A, 21B Fan 22, 22A, 22B Motor 23, 23A, 23B Charging connection 3, 3A, 3B Flow path 31, 31A, 31B Intake port 32, 32A, 32B Exhaust port 33, 33A, 33B Exhaust port adjustment part 34, 34A, 34B Exhaust port adjustment part Rotating part 35, 35A , 35B Air supply 4 Transparent body 41 Transparent body holding part 5 Clip 6 Mask 7 Hat 71 Collar 8 Eyes 9th

Claims (6)

An air supply fan housing in which an intake port for sucking external air and a flow path for guiding the air introduced from the intake port to an exhaust port for exhausting the air to the front surface of the mask are formed, and the air supply fan housing. Equipped with an air supply fan housing base integrally formed with
The air supply fan housing has a fan unit that sucks and exhausts external air.
The air supply fan housing base is provided with a clip for sandwiching the collar of the hat with the air supply fan housing base.
The mask peripheral cooling device is characterized in that the exhaust port is provided with an exhaust port adjusting unit that adjusts the external air in the direction of the mask. The mask peripheral cooling device according to claim 1, wherein the lower surface of the clip is provided with a transparent body holding portion which is movable in the front-rear direction of the clip and has a transparent body detachable. 1. Item 2. The mask peripheral cooling device according to item 2. One of claims 1 to 3, wherein the intake port, the flow path, the exhaust port, or the exhaust port adjusting portion is provided with a cooling unit for cooling the external air in a detachable manner. The mask peripheral cooling device described. The fan unit that sucks and exhausts the external air formed in the air supply fan housing has blades that are vertically and cylindrically arranged on the collar portion of the cap, and is generated by the centrifugal force of the blades. The mask peripheral cooling device according to any one of claims 1 to 4, wherein the generated swirling flow is sent to the exhaust port by the flow path. The fan unit formed in the air supply fan housing for sucking and exhausting the external air has blades horizontally and cylindrically arranged on the flange of the cap, and has a long cylindrical shape in the horizontal direction. The periphery of the mask according to any one of claims 1 to 4, wherein the swirling flow generated by the centrifugal force of the blade is widened in the width of the air supply and is supplied to the exhaust port by the flow path. Cooling system.

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