CN107072334B - Integrated air conditioning suit - Google Patents

Integrated air conditioning suit Download PDF

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Publication number
CN107072334B
CN107072334B CN201580014170.8A CN201580014170A CN107072334B CN 107072334 B CN107072334 B CN 107072334B CN 201580014170 A CN201580014170 A CN 201580014170A CN 107072334 B CN107072334 B CN 107072334B
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air
shirt
fan
conditioning suit
garment
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CN107072334A (en
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市谷弘司
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Seft Development Laboratory Co Ltd
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Seft Development Laboratory Co Ltd
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    • AHUMAN NECESSITIES
    • A41WEARING APPAREL
    • A41DOUTERWEAR; PROTECTIVE GARMENTS; ACCESSORIES
    • A41D13/00Professional, industrial or sporting protective garments, e.g. surgeons' gowns or garments protecting against blows or punches
    • A41D13/002Professional, industrial or sporting protective garments, e.g. surgeons' gowns or garments protecting against blows or punches with controlled internal environment

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  • Engineering & Computer Science (AREA)
  • Environmental & Geological Engineering (AREA)
  • Health & Medical Sciences (AREA)
  • General Health & Medical Sciences (AREA)
  • Physical Education & Sports Medicine (AREA)
  • Textile Engineering (AREA)
  • Professional, Industrial, Or Sporting Protective Garments (AREA)

Abstract

The invention provides an integrated air-conditioning suit, which is close to the uniform of own company, does not damage the cooling performance and can be identified as the air-conditioning suit in appearance. The disclosed device is provided with: a fan body (20) housing a helical blade; a garment (300) having a first open hole (314); a shirt (10) which is provided with a second opening hole (14) and is made of a sheet-shaped raw material without air permeability or with small air permeability; a fan body (20) is integrally fixed to a fixing member (23) of the garment (300) and the shirt (10) in such a manner that the garment (300) is on the outside and the shirt (10) is on the inside and the fan body (20) closes the first opening hole (314) and the second opening hole (14), and air is introduced from the outside through the fan body (20) to forcibly generate air flow in a space between the shirt (10) and the body or underwear.

Description

Integrated air conditioning suit
Technical Field
The present invention relates to an integrated air-conditioning suit which integrates a shirt having the performance of an air-conditioning suit worn under the suit and a coat which minimizes the change of the uniform of a user, and which is close to the uniform of the user in appearance without impairing the cooling capability.
Background
In recent years, air-conditioning clothes for cooling the body have become practical and rapidly widespread.
As shown in fig. 9A and 9B, the conventional air-conditioning suit 500 includes: a garment body 510 sewn using a material having low air permeability; two fan bodies 520, 520 attached to the lower side of both side portions of the garment body 510, and including: a power supply device (not shown) for supplying electric power to the two fan bodies 520, 520; and a power supply cable (not shown) for electrically connecting the power supply device to the two fan bodies 520, 520. When the fan bodies 520, 520 are operated, a large amount of air is introduced from the fan bodies 520, 520 into the garment body 510.
The pressure in the garment body 510 is changed to a positive pressure by the air introduced by the fan bodies 520 and 520, and the garment body 510 is expanded, thereby automatically forming a space (air flow passage) for air to flow between the garment body 510 and the body or underwear. The air flows upward along the surface of the body or undergarment in the air flow path, and is discharged from the periphery of the collar, the cuffs, and the outside, for example. Here, the surrounding of the collar and the cuff function as the air discharge part 530. While the air is flowing through the space between the garment body 510 and the body or underwear, the sweat discharged from the body is evaporated, and the body is cooled by the heat of vaporization at the time of evaporation (see, for example, patent document 1).
Recently, a large number of companies mainly in the manufacturing industry have made demands to use uniforms of their own companies as air conditioners. However, in order to make uniform air-conditioning clothes used by companies, there are various problems such as the need to use a material having low air permeability as a fabric used for air-conditioning clothes. Therefore, the introduction of air-conditioning clothes in a large manufacturer who insists on using uniforms designed by own company is almost no progress.
Therefore, as described in patent document 2, it is considered to air-condition a uniform of its own company by using a shirt-type air-conditioning suit. That is, by attaching the fan body to the shirt-type air-conditioning suit and forming the uniform portion corresponding to the fan body as a mesh member having a mesh of an appropriate size, the uniform used by the company of own can be used as the air-conditioning suit.
Patent document 1: international publication No. 2005/063065
Patent document 2: japanese patent laid-open publication No. 2006 and 307354
However, when the shirt-type air-conditioning suit described in patent document 2 is used to directly air-condition the own company's uniform, the portion corresponding to the outside air inlet is a net-like member rather than a complete opening, and therefore, air resistance when outside air is introduced through the fan body cannot be ignored, and there is a problem that cooling performance is deteriorated.
Further, since the shirt-type air-conditioning suit cannot be reliably brought into close contact with the uniform as the outer garment, there is a problem that the air in the gap between the shirt-type air-conditioning suit and the outer garment containing moisture due to sweat discharged from the body is introduced through the fan body, not the outside air, and evaporation of the sweat discharged from the body is inhibited, and the cooling performance is lowered.
Disclosure of Invention
The invention provides an integrated air-conditioning suit which can wear the uniform of own company without damaging the cooling performance.
In order to achieve the above object, the present invention provides an integrated air conditioning suit,
the integrated air conditioning suit is provided with:
a fan main body in which a helical blade is housed;
a garment having a first open hole;
a shirt having a second open hole and made of a sheet-like material having no air permeability or low air permeability; and
a fixing member for integrally fixing the fan body to the outer garment and the shirt such that the outer garment is located on the outside and the shirt is located on the inside and the first opening hole and the second opening hole are closed by the fan body,
the air is introduced from the outside by the fan main body, and the flow of the air is forcibly generated in the space between the shirt and the body or underwear.
In the integrated air-conditioning suit according to the present invention, the shirt having the performance as an air-conditioning suit is integrated with the outer garment, air is introduced from the fan body toward the inside of the shirt, the pressure inside the shirt is made positive by the introduced air, and an air flow passage is automatically formed between the shirt and the body or the inner garment, and the body can be cooled by the heat of vaporization when the sweat discharged from the body is vaporized by the air flowing through the air flow passage.
In addition, it is clear to install the fan main body in the outer garment, and thus it is clearly known to be an air-conditioning suit in appearance.
According to the present invention, an integrated air-conditioning suit that can wear the own company uniform without impairing the cooling performance can be realized.
Drawings
Fig. 1A is a schematic front view of the integrated air conditioning suit of the present embodiment.
Fig. 1B is a schematic rear view of the integrated air conditioning suit of the present embodiment.
Fig. 2A is a schematic front view of a shirt of the integrated air conditioning suit according to the present embodiment.
Fig. 2B is a schematic rear view of a shirt of the integrated air conditioning suit of the present embodiment.
Fig. 3A is a schematic rear view of a rear portion of a shirt of the integrated air conditioning suit according to the present embodiment as viewed from the inside.
Fig. 3B is an enlarged schematic view of the rear neck protrusion of the shirt of the integrated air conditioning suit according to the present embodiment.
Fig. 4A is a schematic front view of a fan main body of the integrated air-conditioning suit.
Fig. 4B is a schematic side view of a fan body of the integrated air conditioning suit.
Fig. 5A is a schematic side view of the fan housing.
Fig. 5B is a schematic front view of the locking member.
Fig. 5C is a schematic side view of the locking member.
Fig. 6A is a schematic rear view of a rear surface portion of an outer garment of the integrated air conditioning suit of the present embodiment as viewed from the inside.
Fig. 6B is a schematic side view of the outer garment of the integrated air conditioning suit of the present embodiment.
Fig. 7A is an explanatory view showing a method of manufacturing the fan mounting portion.
Fig. 7B is an explanatory view showing a method of manufacturing the fan mounting portion.
Fig. 7C is an explanatory view showing a method of manufacturing the fan mounting portion.
Fig. 7D is an explanatory diagram illustrating a method of manufacturing the fan mounting portion.
Fig. 8A is an explanatory diagram illustrating a method of mounting the fan main body.
Fig. 8B is an explanatory diagram illustrating a method of mounting the fan main body.
Fig. 8C is an explanatory diagram illustrating a method of mounting the fan main body.
Fig. 9A is a schematic front view of a conventional air-conditioning suit.
Fig. 9B is a schematic rear view of a conventional air-conditioning suit.
Detailed Description
Hereinafter, embodiments for carrying out the invention of the present application will be described with reference to the drawings. The scope of the invention is not limited to the examples of the figures, however.
(embodiment mode)
The shirt 10 is made of a sheet-like material having lower air permeability or no air permeability than the outer garment described later. Here, as the sheet-like raw material, a fine-meshed material made of polyester is used. In the present embodiment, as shown in fig. 1A, 1B, 2A, and 2B, the shirt 10 is formed into a shape covering the upper body of the body, specifically, a half-sleeve garment shape. Further, a slide fastener (opening/closing portion) 11 is provided at the front portion of the shirt 10. The zipper 11 is used to open and close the front of the shirt 10 when the integrated air-conditioning suit 1 is worn.
A stretchable member such as rubber is provided on the hem 12 of the shirt 10. As a result, the skirt portion 12 of the shirt 10 is in close contact with the body, and therefore, air inside the shirt 10 can be prevented from leaking outward from the skirt portion 12. That is, the stretchable member provided in the skirt portion 12 of the shirt 10 is an air leakage prevention portion.
Further, a back neck protrusion 13 is formed inside the back neck portion of the shirt 10, and the back neck protrusion 13 ensures a space for discharging the air inside the shirt 10 from the back neck portion to the outside. Specifically, as shown in fig. 3A and 3B, a strong cloth pad 131 is attached to the inside of the back collar portion, and then the cloth pad 131 is sewn to the back collar portion in a state where the cloth pad 131 protrudes toward the inside of the back collar portion, thereby forming the back collar protruding portion 13.
However, in the formation of the back neck protrusion 13, the back neck portion is projected outward by sewing (good feeling) the cloth pad 131 to the inside of the back neck portion, and an air discharge portion is formed between the cloth pad 131 in contact with the nape portion and the projected back neck portion, and the cloth pad 131 itself does not need strength. Therefore, when the outer garment 300 is worn heavily, the back neck protrusion 13 may collapse due to the collar of the outer garment 300, which may reduce the air discharge portion, and may increase the strength of the back neck protrusion 13. In this case, in order to prevent the neckline stretch 13 from sagging due to the outer garment 300, a thin cylindrical reinforcement member RF31 made of plastic, for example, may be disposed between the neckline portion of the shirt 10 and the tarpaulin 131 as shown in fig. 3B.
Further, as shown in fig. 2B, the shirt opening holes 14 are formed in the upper side portion and the left and right rear side end portions of the hem portion of the shirt 10. The fan body 20 is mounted in the opening hole 14 of the shirt 10. That is, the portion of the shirt 10 around the opening hole 14 of the shirt is a fan attachment portion.
The fan body 20 introduces air, and forcibly generates a flow of air in a space between the shirt 10 and the body or underwear. The fan body 20 is detachably mounted to the fan mounting portion.
The fan body 20 is a so-called helical blade fan having helical blades, and as shown in fig. 4A and 4B, includes a helical blade 21, a motor (not shown) that drives the helical blade 21, a fan housing 22 that houses the helical blade 21 and the motor, and an annular locking member 23 that is attached to the fan housing 22. Here, the diameter of the helical blade 21 is about 80 mm.
As shown in fig. 5A, the fan housing portion 22 includes a hollow cylindrical portion 221, a finger guard 222 provided at an upper end of the cylindrical portion 221, and a flange portion 223 protruding from the upper end of the cylindrical portion 221 in a direction substantially perpendicular to a side surface of the cylindrical portion 221. The cylindrical portion 221 has a circular cross-section when cut along a plane perpendicular to the central axis.
Here, the outer diameter of the cylindrical portion 221 is, for example, about 85 mm. As shown in fig. 4A and 4B, the finger protector 222 includes a circular central base portion 222a, a plurality of rod-shaped portions 222B radially extending from the central base portion 222a, and a ring-shaped portion 222c centered on the central base portion 222 a.
With this configuration, the finger protector 222 has sufficient air permeability, and can introduce air into the inside when the screw blade 21 rotates. Therefore, the finger protector 222 functions as an air inlet for introducing air into the fan main body 20, in addition to a function of protecting fingers from entering from the outside with respect to the rotating spiral blade 21.
The locking member 23 (fixing member) is a special member for attaching the fan housing 22 to the fan attachment portion of the shirt 10 and the outer garment 300. The locking member 23 is formed in an annular shape, and as shown in fig. 5B, the inner diameter of the locking member 23 is slightly larger than the outer diameter of the cylindrical portion 221.
As shown in fig. 5A, two recesses 224 are provided outside two predetermined portions of the cylindrical portion 221 of the fan housing portion 22 that face each other. On the other hand, a protrusion 231 is provided on the inner surface of the locking member 23, and the protrusion 231 is engaged with the recess 224 to fix the locking member 23 to the outer surface of the cylindrical portion 221.
Therefore, by fitting the locking member 23 outside the cylindrical portion 221 and fitting the recess 224 of the cylindrical portion 221 to the protrusion 231 of the locking member 23, the locking member 23 can be easily attached to the fan housing portion 22 in a state facing the flange portion 223, as shown in fig. 4B.
The power supply device 40 supplies electric power to the two fan main bodies 20, 20. The power supply device 40 incorporates a battery, for example. As shown in fig. 1B, the power supply device 40 is electrically connected to the two fan main bodies 20, 20 via a power supply cable 50.
The air discharge unit 30 discharges air flowing through a space (air flow path) between the shirt 10 and the body or underwear. Specifically, as shown in fig. 2A, the front collar portion, the rear collar portion (rear collar extension 13), and the half-sleeve cuff portion of the shirt 10 function as the air discharge unit 30.
Next, the garment 300 will be described. As shown in fig. 1B, the outer garment 300 is similar to the normal outer garment 300 except that the outer garment 300 has an opening 314 formed therein in the same manner as the shirt 10 and the upper end of the air flow path blocking sheet 301 is sewn to the blank inside the portion corresponding to the back as shown in fig. 6A, and in this embodiment, a long-sleeved jacket-type outer garment 300 is used.
Next, the operation of the air flow path blocking sheet 301 of the outer garment 300 will be described.
Generally, a uniform for summer use used by a user uses a cloth having high air permeability. The outer garment 300 having the same appearance as the air-conditioning garment manufactured in this manner may be misunderstood as a main body of the air-conditioning garment by the user. When the fan body 20 is attached to the outer garment 300 without using the shirt 10 by mistake, since the air permeability of the outer garment 300 is very high, the outside air introduced by the fan body 20 leaks from the cloth having high air permeability, and the performance as the air conditioning clothes is hardly exhibited.
However, there is a concern that a user who erroneously uses the electronic device may continue to use the electronic device in a state where the electronic device is poor in performance due to a feeling of cooling. By attaching the air flow blocking sheet 301, for example, although a part of the introduced air AR61 moves upward, the lower end portion of the light-weight air flow path blocking sheet 301 that is not sewn is rolled up as shown in fig. 6B by the pressure of the air AR62, and the air AR63 can be prevented from flowing further upward.
This makes it possible to notice the abnormality to the user with little cooling effect. Further, the surface of the air flow path blocking sheet 301 is marked with a use notice for preventing erroneous use, thereby further preventing erroneous use.
In addition, when formally used as the integrated air conditioning suit 1, the air flow path blocking sheet 301 is sandwiched between the outer garment 300 and the shirt 10, and therefore, the cooling effect is not impaired at all.
Next, the opening 314 of the garment and the opening 14 of the shirt, which are the fan attaching portions, will be described. First, the essential elements of the fan mounting portion will be explained. Both the shirt 10 and the outer garment 300 use a normal fabric, but the fabric does not serve as a fan attachment portion by simply forming holes in the fabric.
The first reason is that: since the fabric shrinks, even if the fan main body 20 is attached, the fan 20 is detached when a slight force is applied to the fan main body 20. The second reason is that: if the woven fabric is cut, the woven fabric is unraveled, and therefore, the unraveling prevention processing is necessarily performed. In the conventional air-conditioning suit, the opening hole of one blank is sandwiched between the fan housing portion and the locking member, but as will be described later, in the integrated air-conditioning suit 1 of the present invention, the opening holes of two blanks, i.e., the opening hole 14 of the shirt and the opening hole 314 of the outer garment, need to be sandwiched, and the edge reinforcement treatment is not performed with much thickness. Therefore, the present embodiment adopts the following method. The fan attachment portion is configured similarly to the shirt 10 and the outer garment 300.
Next, a method of manufacturing the fan mounting portion will be described.
First step of
As shown in fig. 7A, a hole HL71 smaller than the inner diameter of the cylindrical portion 221 of the fan housing 22 is opened.
Second step of
As shown in fig. 7B, the cut CT71 is formed from the opened hole to a portion indicated by a broken line that is substantially the same as or slightly larger than the outer diameter of the cylindrical portion 221 of the fan housing 22.
Third Process
As shown in fig. 7B, a cylindrical jig having an outer diameter substantially equal to the outer diameter of the cylindrical portion 221 of the fan housing portion 22 is passed through the opening of the cloth, and a portion PT71 indicated by oblique lines is pasted with paste in a circular shape by a pen-shaped glue stick, and as shown in fig. 7C, the cut-out portion 224 is folded and temporarily fixed with paste.
The fourth step
As shown in fig. 7D, an annular plastic reinforcing plate 225 having an inner diameter substantially equal to the outer diameter of the cylindrical portion 221 of the fan housing portion 22 is placed on the temporarily fixed cut portion.
The fifth step
Finally, the reinforcing plate 225 and the cut-out portion 224 are sewn with a thread along the cylindrical jig using a sewing machine as shown by a two-dot chain line in fig. 7D.
Since the fan attachment portion is manufactured as described above, the fan attachment portion is completed which has no opening of the cloth, has an inner diameter slightly larger than the outer diameter of the cylindrical portion 221 of the fan housing portion 22, and has a thickness of the two base cloths and the reinforcing plate 225.
Specifically, the reinforcing panel 225 has a thickness of 0.5mm, and a cloth having a thickness of 0.2mm is used as a raw cloth of the shirt 10, thereby forming a thickness of 0.9mm, and a cloth having a thickness of 1.1mm is used as a raw cloth of the outer garment 300, thereby forming a thickness of 0.3 mm.
In the case where a sheet-like material having low stretchability and being free from thread breakage is used as the material for the shirt 10, the above-described step is not required for the opening hole, and only a hole having substantially the same outer diameter as the cylindrical portion 221 of the fan housing portion 22 may be opened. The same is true for garment 300.
Next, a method of integrating the shirt 10 with the outer garment 300 using the fan body 20 and the snap (integration portion) will be described.
As described above, the shirt 10 is manufactured so as to be aligned with the fan attachment portion of the outer garment 300, and as shown in fig. 1B and 2B, the two snaps 60 attached to the inner side of the blank of the outer garment 300 are manufactured so as to be aligned with the snaps 61 attached to the outer side of the shirt 10.
As shown in fig. 8A, the fan attachment portion (opening hole 314) of the garment 300 is first inserted into the cylindrical portion 221 of the fan housing 22, and as shown in fig. 8B, the fan attachment portion (opening hole 14) of the shirt 10 is inserted. Finally, as shown in fig. 8C, the locking member 23 is inserted into the cylindrical portion 221 of the fan housing 22, and the fan housing 22 is fitted to the locking member 23.
At this time, the thickness of the edge of the fan attachment portion of the outer garment 300 is 1.1mm, the thickness of the shirt 10 is 0.9mm, the total thickness is 2mm, and a fitting margin of, for example, 2.2mm is provided between the lower surface of the flange portion 223 of the fan housing portion 22 and the upper surface of the locking member 23 at the time of fitting of the fan housing portion 22 and the locking member 23, so that the fan attachment portion of the shirt 10 and the outer garment 300 can be sandwiched. In other words, the fan housing 22 and the locking member 23 fasten the opening hole 14 of the shirt and the fan mounting portion, which is the edge of the opening hole 314 of the garment.
Subsequently, the shirt 10 and the outer garment 300 are integrated by coupling the two snaps 60 of the outer garment 300 and the two snaps 61 of the shirt 10 facing each other, and coupling the two fan bodies 20 and the two snaps 60 and 61 at four places. The air flow path blocking sheet 301 is sandwiched between the shirt 10 and the outer garment 300 and stored flat.
Since the integrated air-conditioning suit 1 of the present embodiment is configured as described above, when the integrated air-conditioning suit 1 is worn and the power is turned on, the external air is introduced into the shirt 10 by the fan body 20 as in the case of a normal air-conditioning suit, an air flow passage is automatically formed between the underwear or the body by the pressure of the introduced air, the air moves upward in the air flow passage, and is discharged toward the sleeves of the outer garment 300 from the air discharge portions 30 provided in the front and rear collar portions and the half-sleeves of the shirt 10, and the cooling effect can be exhibited as in the case of a normal air-conditioning suit.
In addition, a part of the air discharged to the sleeves of the outer garment 300 is discharged from the raw fabric of the sleeves having excellent air permeability, and a part of the air is discharged from the cuffs of the outer garment 300 to the outside. Therefore, the air outlets corresponding to the air outlets of the cuffs of the normal long-sleeve air-conditioning suit are the portions of the sleeves of the outer garment 300 that are forward of the cuffs of the shirt 10. Further, since the fan body 20 is also attached to the outer garment 300, it becomes clear in appearance to wear the air conditioning garment of the company's own specifications.
The integrated air-conditioning suit according to the present embodiment is configured as described above, and therefore has many advantages. That is, the shirt 10 can be provided as an air conditioning suit which is very inexpensive and excellent in performance for the following reasons.
(1) Since the shirt 10 can be manufactured in one type according to the size, mass production is effective.
(2) The shirt 10 does not need to be provided with a pocket or the like, and thus is simple to manufacture.
(3) Since the shirt 10 does not need to be valued in appearance, an inexpensive cloth can be used.
(4) It is sufficient that the shirt 10 is half-sleeved, so that the amount of cloth used can be reduced.
(5) The shirt 10 is made of a fabric with less air leakage, and has a sufficient effect as an air-conditioning suit because it is devised for the air discharge portion around the collar.
In addition, when the outer garment 300 is manufactured, the manufacturing method of the fan mounting portion is taught to a manufacturer who manufactures an existing uniform, and the reinforcing plate 225, the air flow path blocking sheet 301 printed with instructions for use, and the like are provided, so that the manufacturing can be easily performed.
Thus, as described above, it is possible to provide an air-conditioning suit having an external appearance in the user specification at low cost without impairing the performance. Further, the company delivered to the manufacturer who manufactures the garment 300 and the user thereof may be an existing company, and thus there is little problem for the user, and the popularization of the air-conditioning suit can be promoted.
Of course, the outer garment 300 can be separated from the shirt 10 by detaching the fan body 20 and releasing the fit state of the outer garment 300 and the shirt 10 by the locking member 23, and therefore, the outer garment 300 and the shirt 10 can be easily cleaned as needed.
The present invention is not limited to the above embodiments, and various modifications can be made without departing from the scope of the invention.
In the present embodiment, a jacket-type coat with long sleeves is exemplified as the coat 300, but the present invention can also be applied to clothes such as work clothes, military uniforms, and bath clothes. In particular, military uniforms require durability, and therefore, use of thick cloth and cloth having low air permeability cannot be handled, and therefore, it is effective to apply the integrated air-conditioning suit according to the present invention.
The method of locking the fan body 20 and the locking member 23 by the fan body 20 and the locking member 23 is not limited to the method of the embodiment, and various general methods can be used. For example, a spiral groove may be formed in the outer wall of the cylindrical portion 221 of the fan body 20, a protrusion corresponding to the groove may be formed in the inner wall of the locking member 23, and the protrusion of the locking member 23 may be screwed into the groove of the cylindrical portion 221 of the fan body 20.
Further, in some cases, the power supply cable 50 connecting the power supply device 40 and the two fan bodies 20 is inserted in a state where the terminals on the side of the power supply device 40 and the terminals on the side of the fan bodies 20 are mistaken, and a load is applied to the power supply cable 50, which causes disconnection.
Therefore, the positive electrode of the plug on the side of the power supply cable 50 connected to the power supply device 40 is connected to the negative electrode of the plug on the side connected to the fan main body 20, and the negative electrode of the plug on the side connected to the power supply device 40 is connected to the positive electrode of the plug on the side connected to the fan main body 20.
In the case of such a connection (so-called cross cable), when the plug on the side connected to the fan main body 20 is erroneously connected to the power supply device 40, one of the remaining two plugs is reversed in polarity and the fan main body 20 is rotated in the reverse direction, and air is discharged from the inside of the integrated air-conditioning suit, so that the user can notice the erroneous connection of the power supply cable 50.
In the above-described embodiment, the case where two fan bodies 20 are provided in the integrated air-conditioning suit 1 has been described, but three or more fan bodies may be provided. Further, only one fan main body may be provided.
In the above-described embodiments, the case where a jacket-type garment is used as a garment has been described, but in the integrated air-conditioning suit using the shirt of the present invention, the shirt itself functions as an air-conditioning suit, and therefore, the shirt can be used as a garment to be worn regardless of the type of garment.
In the above-described embodiment, the case where the stretchable member (air leakage preventing portion) such as rubber is provided at the hem portion 12 of the shirt 10 so as to prevent the air in the shirt 10 from leaking outward from the hem portion 12 has been described, but even in the case where the shirt 10 is of a shirt type, the air can be prevented from leaking outward from the hem portion 12 by tucking the hem portion 12 of the shirt 10 into pants. That is, in this case, the insertion of the skirt portion 12 of the shirt 10 into the pants itself can be regarded as the air leakage prevention portion.
In the above-described embodiment, the structure in which the battery is incorporated as the power supply device 40 has been described, but according to the application of the integrated air-conditioning suit 1 of the present invention, an AC adapter, a solar battery, or the like can be used as the power supply device 40.
Further, if power can be supplied from the outside of the integrated air conditioning suit 1 to the fan main body 20, the power supply device 40 and the power supply cable 50 are not essential components.
In the above-described embodiment, the case where the back neck protrusion 13 for securing a space for discharging air in the shirt 10 from the back neck portion by sewing the cloth liner 131 to the inside of the back neck portion of the shirt 10 is formed in the back neck portion has been described, but the method of forming the back neck protrusion 13 is not limited to the method using the cloth liner 131, and various methods can be used.
Further, the air discharge from the air discharge part 30 of the shirt 10 to the outside also includes the air discharge to the sleeves of the outer garment 300.
In the above embodiment, the finger protector 222 is formed at the upper end of the cylindrical portion 221, but is not necessarily the upper end of the cylindrical portion 221.
In the above-described embodiment, the cylindrical portion 221 of the fan body 20 is inserted into the opening 314 of the outer garment 300 from the (outer) side of the outer garment 300, but it is needless to say that the cylindrical portion 221 of the fan body 20 may be inserted into the opening 14 of the shirt 10 from the (inner) side of the shirt 10 to integrate the shirt 10 with the outer garment 300.
In the above-described embodiment, the shirt 10 is shaped like a half-sleeve garment, but may be a long-sleeve, a seven-part sleeve, or a sleeveless sleeve other than a half-sleeve.
Industrial applicability of the invention
As described above, the integrated air-conditioning suit according to the present invention is suitable for use as an air-conditioning suit, in particular, a uniform of a company of own.
Description of reference numerals:
1: an integrated air conditioning suit; 10: a shirt; 11: a zipper; 12: a lower hem portion; 13: a back collar projection; 131: laying cloth; 14: an open hole (second open hole); 20: a fan main body; 21: a helical blade; 22: a fan housing section; 221: a cylindrical portion; 222: a finger protector; 222 a: a central base; 222 b: a rod-shaped portion; 222 c: a loop portion; 223: a flange portion; 224: a cut-out portion; 225: a reinforcing plate; 23: a locking member (fixing member); 231: a protrusion portion; 30: an air discharge portion; 40: a power supply device; 50: a power cable; 60. 61: a snap (integral portion); 300: a garment; 301: an air flow path partition sheet; 314: an open hole (first open hole); 500: air conditioning clothes; 510: a garment body; 520: a fan main body; 530: an air discharge portion.

Claims (8)

1. An integrated air conditioning suit is characterized by comprising:
a fan main body in which a helical blade is housed;
a garment; and
the shirt is characterized in that the shirt is provided with a shirt body,
the garment is provided with a first open hole,
the shirt is provided with a second opening hole and is made of a sheet-shaped raw material without air permeability or with low air permeability,
further comprising a fixing member for integrally fixing the fan body to the outer garment and the shirt such that the outer garment is positioned on the outside and the shirt is positioned on the inside and the first opening hole and the second opening hole are closed by the fan body,
the air is introduced from the outside by the fan main body, and the flow of the air is forcibly generated in the space between the shirt and the body or underwear.
2. The one-piece air-conditioning suit of claim 1,
the fan main body includes: a cylindrical portion in which the helical blade is housed; and a flange portion formed at one end of the cylindrical portion,
the fan body is fixed by sandwiching the outer garment and the shirt between the flange portion and the fixing member.
3. The integrated air-conditioning suit of claim 2,
and reinforcing at least one of the edge of the first opening hole and the edge of the second opening hole.
4. The one-piece air-conditioning suit of claim 3,
in the reinforcement treatment, a notch is formed in an edge portion of the opening hole from an inner hole smaller than an outer diameter of the cylindrical portion to a diameter equal to the outer diameter of the cylindrical portion, a hole equal to the outer diameter of the cylindrical portion is opened by folding a portion of the notch, an inner diameter of a reinforcing plate having an inner diameter larger than the outer diameter of the cylindrical portion is aligned with the folded portion, and the reinforcing plate and an outer side of the opening hole are fastened with a wire.
5. The one-piece air-conditioning suit of claim 1 or 2,
an air discharge part for discharging air is formed at the back collar of the shirt.
6. The one-piece air-conditioning suit of claim 1 or 2,
an air flow path blocking sheet is arranged on the inner surface of the coat.
7. The one-piece air-conditioning suit of claim 1 or 2,
the integrated air conditioning suit is provided with:
a power supply device that supplies power to the fan main body; and
a power supply cable having a plug connected to the power supply device and the fan main body,
the positive electrode of the plug on the side connected to the power supply device is connected to the negative electrode of the plug on the side connected to the fan main body, and the negative electrode of the plug on the side connected to the power supply device is connected to the positive electrode of the plug on the side connected to the fan main body.
8. The one-piece air-conditioning suit of claim 1 or 2,
one or more integrated parts for integrating the shirt and the coat are arranged at a position separated from a position corresponding to the fan body.
CN201580014170.8A 2015-07-09 2015-07-09 Integrated air conditioning suit Active CN107072334B (en)

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CN107048524A (en) * 2017-02-21 2017-08-18 上海工程技术大学 A kind of cool-down garments
JP6966067B2 (en) * 2017-09-08 2021-11-10 株式会社セフト研究所 Blower
JP2019113062A (en) * 2017-12-25 2019-07-11 ミドリ安全株式会社 Fan for garment
JP2019199667A (en) * 2018-05-17 2019-11-21 有限会社伊藤組 Garment having cool feeling function
JP7352056B2 (en) * 2019-01-31 2023-09-28 株式会社アーヴァン clothes
JP7190961B2 (en) * 2019-03-14 2022-12-16 東洋紡株式会社 cooling clothes
JP6587270B1 (en) * 2019-03-26 2019-10-09 合同会社I・K Kendo
CN110269294B (en) * 2019-04-22 2020-12-18 温州啃途电子科技有限公司 Face guard that rainy day used
CN110313659A (en) * 2019-07-11 2019-10-11 牟斌 A kind of fan air conditioner clothes
JPWO2021059760A1 (en) 2019-09-26 2021-04-01
JP7018669B1 (en) * 2020-11-09 2022-02-14 株式会社Acb Blower and air conditioning clothing

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JP4329118B2 (en) * 2003-08-01 2009-09-09 株式会社セフト研究所 Cooling clothing
JP2006233370A (en) * 2005-02-25 2006-09-07 Seft Dev Lab Co Ltd Air-conditioning garment
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JP2006307354A (en) * 2005-04-26 2006-11-09 Seft Dev Lab Co Ltd Air-conditioning garment
JP4996305B2 (en) * 2007-03-29 2012-08-08 本田技研工業株式会社 Breathable clothing
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