This application is based upon and claims the benefit of priority from Japanese patent application No. 2020-186916, filed on Nov. 10, 2020, the disclosure of which is incorporated herein in its entirety by reference.
The present disclosure relates to air-conditioning garment.
As a measure for preventing heat strokes, an air-conditioning garment that prevents or reduces a rise in body temperature of a worker working under a high-temperature environment has been known. For example, Patent Literature 1 (Japanese Unexamined Patent Application Publication No. 2020-20056) discloses an air-conditioning garment that cools a body by taking outside air into the inside of a garment main part. This air-conditioning garment is composed of a long-sleeved garment main part that covers the upper body of a user, and two fans attached at or near a waist part of the garment main part. Each of the fans is an axial-flow fan in which rotating blades are covered by a porous case.
It should be noted that a certain wind velocity is required to evaporate sweat. However, in the configuration disclosed in the aforementioned Patent Literature 1, its attention is paid only to taking in outside air into the inside of the garment main part, so that there is room for making it possible to obtain such a required wind velocity more securely by paying attention to this matter.
An object of the present disclosure is to provide a technique for securing a sufficient wind velocity inside a garment main part.
A first exemplary aspect is an air-conditioning garment including: a garment main part adapted to be worn on an upper body of a wearer; and at least one fan attached to a lower part of a back part of the garment main part, the at least one fan being configured to feed outside air into inside of the garment main part, in which the at least one fan includes a fan main body, and a case including at least one air outlet, the case being configured to house the fan main body, and the at least one air outlet is formed so that a blowing direction is restricted to being upward or obliquely upward. According to the above-described configuration, it is possible to secure a sufficient wind velocity up to the shoulders of the wearer.
The at least one air outlet may include two air outlets, and the two air outlets may be formed in such a manner that their blowing directions have an upwardly-opened V-shape. According to the above-described configuration, it is possible to secure a sufficient wind velocity over a wide range in the shoulder-width direction.
The at least one fan may be a centrifugal fan; the case may include a circumferential wall that is opposed to the fan main body in a radial direction; a part of the circumferential wall that is located below a rotation axis of the fan main body may extend in an arc shape centered at the rotation axis; a part of the circumferential wall that is located above the rotation axis of the fan main body may have a shape formed in such a manner that the closer it becomes to a top part of the case, the more it is separated from the rotation axis; the two air outlets may be a first air outlet and a second air outlet, respectively; the first air outlet may be formed, in a first circumferential wall part of the circumferential wall located on one side of a vertical plane including the rotation axis, at a position opposed to the rotation axis in the shoulder-width direction; the second air outlet may be formed, in a second circumferential wall part of the circumferential wall located on the other side of the vertical plane including the rotation axis, at a position located above the rotation axis; and the fan main body may be configured to rotate so that a blade of the fan main body is successively opposed to the first air outlet, the part of the first circumferential wall part located above the rotation axis, and the second air outlet in this order. According to the above-described configuration, it is possible to realize blowing directions having an upwardly-opened V-shape.
The at least one fan may include two fans, and the two fans may be arranged side by side in the shoulder-width direction. According to the above-described configuration, it is possible to secure a sufficient wind velocity in a wider range in the shoulder-width direction. Further, since the blowing directions are restricted to being upward or obliquely upward, winds blown from the two fans do not cancel each other out.
According to the present disclosure, it is possible to secure a sufficient wind velocity up to the shoulders of a wearer.
The above and other objects, features and advantages of the present disclosure will become more fully understood from the detailed description given hereinbelow and the accompanying drawings which are given by way of illustration only, and thus are not to be considered as limiting the present disclosure.
The present disclosure will be explained hereinafter through embodiments according to the present disclosure. However, the below-shown embodiments are not intended to limit the scope of the present disclosure specified in the claims. Further, all the components/structures described in the embodiments are not necessarily indispensable as means for solving the problem. For clarifying the explanation, the following description and the drawings are partially omitted and simplified as appropriate. The same reference numerals (or symbols) are assigned to the same elements throughout the drawings and redundant explanations thereof are omitted as appropriate.
In the lower part of the back part 3 of the garment main part 2, two fan-attaching holes 5 are formed at places that are away from each other in the shoulder-width direction. Specifically, the lower part of the back part 3 is a part of the back part 3 that is opposed to the waist of the wearer or its vicinity. The two fans 4 are arranged so as to respectively correspond to the two fan-attaching holes 5. Each of the fans 4 feeds outside air into the inside of the garment main part 2 through a respective one of the fan-attaching holes 5.
Note that the garment main part 2 may be a short-sleeved garment main part instead of the long-sleeved one, and may be one that covers both the upper and lower bodies at the same time.
In this embodiment, the two fans 4 have shapes identical to each other, and are attached to the garment main part 2 so as to face in the same direction as each other. Therefore, only one of the fans 4 will be described hereinafter while the description of the other fan 4 will be omitted.
As shown in
The lower circumferential wall part 17 extends in an arc shape centered at the rotation axis P when the main case 11 is viewed along the rotation axis P. The lower circumferential wall part 17 extends in a semicircular shape centered at the rotation axis P as if protruding downward.
The upper circumferential wall part 18 has a shape formed in such a manner that the closer it becomes to the top part 11a of the main case 11, the more it is separated from the rotation axis P when the main case 11 is viewed along the rotation axis P. That is, a distance 11D from the rotation axis P to the upper circumferential wall part 18 increases as it becomes closer to the top part 11a.
Therefore, the circumferential wall 15 of the main case 11 is formed so that it has roughly an egg-like shape when the main case 11 is viewed along the rotation axis P. Further, each of the fans 4 is attached to the back part 3 of the garment main part 2 so that the sharply protruding part of the egg shape thereof points upward.
As shown in
The side air outlet 21 is an example of the first air outlet. The side air outlet 21 is formed, in a right-side circumferential wall part 15R of the circumferential wall 15 located on the right side of a vertical reference plane Q, which is a vertical plane including the rotation axis P, at a position opposed to the rotation axis P in the shoulder-width direction. An angle A1 between a line segment L1 connecting the upper end 21a of the side air outlet 21 with the rotation axis P, and a line segment L2 connecting the lower end 21b of the side air outlet 21 with the rotation axis P is in a range of 70 to 90 degrees. Further, the angle A1 is preferably in a range of 75 to 85 degrees, and is 81 degrees in this embodiment. The side air outlet 21 is formed so that an angle between a horizontal reference line Ph, which is a line extending from the rotation axis P in a rightward direction parallel to the shoulder-width direction, and the line segment L1 becomes roughly equal to an angle between the horizontal reference line Ph and the line segment L2.
The upper air outlet 22 is an example of the second air outlet. The upper air outlet 22 is formed at a position located above the rotation axis P in a left-side circumferential wall part 15L located on the left side of the vertical reference plane Q. The angle A2 between a line segment L3 connecting the upper end 22a of the upper air outlet 22 with the rotation axis P, and a line segment L4 connecting the lower end 22b of the upper air outlet 22 with the rotation axis P is in a range of 70 to 90 degrees. The angle A2 is preferably in a range of 75 to 85 degrees, and is 81 degrees in this embodiment. The upper end 22a of the upper air outlet 22 coincides with the top part 11a of the main case 11.
The right-side circumferential wall part 15R includes a right-side upper part 15Ru as a part thereof located above the side air outlet 21.
Further, the fan main body 8 rotates so that each of the blades 7 constituting the fan main body 8 is successively opposed, in the radial direction, to the side air outlet 21, the right-side upper part 15Ru, and the upper air outlet 22 in this order. That is, in
Therefore, the direction in which air is blown from the side air outlet 21 roughly coincides with the tangential direction of the circumferential wall 15 at the lower end 21b of the side air outlet 21, and is a rightward-inclined upward direction. Meanwhile, the direction in which air is blown from the upper air outlet 22 roughly coincides with the direction in which the right-side upper part 15Ru extends, and is a leftward-inclined upward direction. Therefore, the two air outlets 20 are formed in such a manner that their blowing directions have an upwardly-opened V-shape. Further, the two air outlets 20 are formed so that their blowing directions are restricted to obliquely upward.
Since the blowing directions are restricted to obliquely upward as described above, it is possible to secure a sufficient wind velocity up to the shoulders of the wearer. Note that even when the blowing directions are restricted to upward, it is possible to secure a sufficient wind velocity up to the shoulders of the wearer as in the case of the above-described blowing directions.
Further, since the two air outlets 20 are formed in such a manner that their blowing directions have the upwardly-opened V-shape, it is possible to secure a sufficient wind velocity over a wide range in the shoulder-width direction.
Further, since the two fans 4 are arranged side by side in the shoulder-width direction as shown in
A preferred embodiment according to the present disclosure has been described above, and the above-described embodiment has the following features.
As shown in
Note that although the air-conditioning garment 1 includes two fans 4 in the above-described embodiment, the air-conditioning garment 1 may include only one fan 4. Further, although each of the fans 4 includes two air outlets 20 in the embodiment, each of the fans 4 may include only one air outlet 20.
Further, as shown in
Further, as shown in
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Further, the above-described embodiment can be modified as described below.
That is, as shown in
From the disclosure thus described, it will be obvious that the embodiments of the disclosure may be varied in many ways. Such variations are not to be regarded as a departure from the spirit and scope of the disclosure, and all such modifications as would be obvious to one skilled in the art are intended for inclusion within the scope of the following claims.
Number | Date | Country | Kind |
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2020-186916 | Nov 2020 | JP | national |