CLOTHES STRUCTURE WITH TEMPERATURE FALLING DEVICE

Abstract

A clothes structure with temperature falling device is provided, which has a fan provided in a low-permeability layer outside a clothes major body, and an air delivery space provided between the low-permeability layer and a lining layer inside. When the fan sucks the air from the outside of the clothes major body through air intake end and delivers the air to the inside of the clothes major body, air will flow uniformly in the air delivery space and to everywhere in the clothes major body. Then proper quantity of uniform air flow is output from an inner lining layer with meshes to everywhere of user's body to make user feeling cool and comfortable.

Description

BACKGROUND OF INVENTION

1. Field of the Invention

The present invention relates to a clothes structure with temperature falling device, more particularly to a clothes structure with temperature falling device in which air delivered by a fan assembled in the clothes major body can be blew uniformly to everywhere of user's body.

2. Brief Description of the Prior Art

Clothes with fan mounted inside is developed by concerned industries. The fan sucks air outside the clothes through the air intake end and blows the air through the air delivery end inside the clothes to user's body so as to make user feeling comfortable. However, the current clothes with fan mounted inside has following disadvantages found in practical implementation.

1. When the fan blows the air from its air delivery end to the inside of clothes, the wind delivered out from the fan is only concentrated around the fan and fails to distribute it uniformly to everywhere of user's body, resulting in physical sultry that is difficult to be improved.

2. As the wind blew out from the fan is only concentrated around the fan, the portion of clothes opposite to the air-blow from the fan is locally inflated due to wind pressure, leaving the deficiency in orderliness and beauty when the clothes is worn.

3. In the current clothes with fan mounted inside, the air flow is maintained at a fixed level, or is regulated by a built-in program instead of regulating by user himself according to his own need, causing inconvenience in implementation.

SUMMARY OF THE INVENTION

The present invention relates to a clothes structure with temperature falling device, the main object of which is to allow the air coming from the fan assembled in the clothes major body to be blew uniformly to everywhere of user's body, and to avoid the clothes major body from inflating locally due to the concentrated air pressure, and to allow user regulating the air flow himself according to user's need, and to enable separation of the fan from the clothes major body for cleaning purpose.

BRIEF DESCRIPTION OF ACCOMPANYING DRAWINGS

FIG. 1 is a perspective view of the present invention;

FIG. 2 is a view showing the inside of the clothes major body of the present invention;

FIG. 3 is a sectional view of the present invention;

DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS

The objects, the technical contents and the expected effectiveness of the present invention will become more apparent from the detailed description of a preferred embodiment in conjunction with the accompanying drawings.

Firstly referring to FIG. 1, the clothes structure with temperature falling device of the present invention mainly comprises a clothes major body 1, at least one fan 2 and an air flow control switch 3.

The clothes major body 1 is formed by stitching a low-permeability layer 11 located outside the clothes major body 1 and an inner lining layer 12 located inside the clothes major body 1 together in such a manner that an air delivery space 13 is formed between the low-permeability layer 11 and the inner lining layer 12. The inner lining layer 12 is a wind proof fabric; and the inner lining layer 12 is composed of, sequentially from outside to inside, a coarse mesh layer 121, a high-permeability layer 122 and a porous mesh layer 123, in which the coarse mesh layer 121 is a knitting fabric having coarse meshes, the porous mesh layer 123 is a knitting layer having tiny meshes and the high-permeability layer 122 is filament interlaced between the coarse mesh layer 121 and the porous layer 123. Furthermore, at least one fan assembly hole 14 is provided on the low-permeability layer 11 outside the clothes major body 1. In a preferred embodiment of the present invention, two fan assembly holes 14 are respectively provided on left and right sides of the low-permeability layer 11 outside the clothes major body 1. Moreover, a low-permeability layer 15 corresponding to the fan assembly hole 14 is provided on the inside of the clothes major body 1, and the low-permeability layer 15 is stitched at the seam together with the adjacent inner lining layer 12 located inside of the clothes major body 1. However, a part of seam between the low-permeability layer 15 and the inner lining layer 12 is not stitched together, and instead, a fastener such as a zipper is used for connection in the unstitched part. Further, the inner lining layer 12 is stitched with a bag body 17 at a place aside the fan assembly hole 14, and the bag body 17 is provided with an aperture.

The fan 2 includes a fan body 21 and a retaining ring 22. The fan body 21 is assembled in the fan assembly hole 14 of the clothes major body 1 with its air intake end facing toward the outside of the clothes major body 1, and with its air delivery end facing toward the inside of the clothes major body 1. Furthermore, the fan body 21 has a power socket, and a flange 211 provided on the periphery thereof for abutting against the peripheral edge of the fan assembly hole 14. The retaining ring 22 has its central bore 221 fitted on the fan body 21, and the retaining ring 22 is thus fitted inside the periphery edge of the fan assembly hole 14, so as to cooperate with the flange 211 of the fan body 21 to hold the periphery edge of the fan assembly hole 14 in position.

The air flow control switch 3 is assembled on the low-permeability layer 11 outside the clothes major body 1. The air flow control switch 3 is provided with a circuit for controlling ON-OFF and regulating the air flow. Furthermore, the air flow control switch 3 is connected with one end of a power supply cord 31 and the other end of the power supply cord 31 has a battery plug 311 attached therewith. The power supply cord 31 and the battery plug 311 pass through the aperture of the bag body 17 into the bag body 17. Moreover, the air flow control switch 3 is connected with one end of a lead wire 32 and the other end of the lead wire 32 is connected with at least one extension lead wire 321, depending on the number of fan installed. In the preferred embodiment of the present invention, the number of the extension lead wire 321 is two. The terminal of each extension lead wire 321 has a plug 322 for engaging with the power socket of the fan body 21.

When in use according to above configuration, a power supply battery 4 such as a mobile power is placed within the bag body 17 provided inside the clothes major body 1, then the battery plug 311 on the power supply cord 31 of the air flow controlling switch 3 is engaged with the socket of the battery 4. Next, user can wear the clothes major body 1 of the present invention and then pushes on the air flow control switch 3 so as to start the fan body 21. At this moment, the fan body 21 sucks the ambient air from the air intake end and blows the air from its air delivery end toward the inside of the clothes major body, and the air is blew firstly toward the low-permeability layer 15 provided correspondingly to the fan 2 inside the clothes major body 1. Blocking by the low-permeability layer 15, the air blew out can be avoided from dissipated quickly.

Next, the air blocked as above flows into the air delivery space 13 formed between the outer low-permeability layer 11 and the inner lining layer 12. In the air delivery space 13 formed as abovementioned, the air can flow easily through the meshes of the coarse mesh layer 121 into the high-permeability layer 122, and then the air is throttled under the limitation by the pores of the porous mesh layer 123 so that appropriate air-flow can be delivered out in stable manner. The air which is not exhausted from the porous layer 123 remains flowing in the high-permeability layer 122 so that air can flow more uniformly to everywhere of user's body through the high-permeability layer 122 to make user's body feeling comfortable. In addition, the air blew out from the air delivery end of the fan body 21 can flow uniformly to everywhere in the clothes major body 1, and is exhausted slowly from everywhere of the clothes major body 1. Therefore, the clothes major body 1 does not produce local inflation so as to keep neat and beauty after wearing.

When user feels the air flow is not enough or too large, he can push the air flow control switch 3 to drive the air flow regulating circuit so as to regulate the current sent to the fan body 21. In this manner, the air flow can be regulated by user according to user's own need. Furthermore, when the clothes major body 1 is to be cleaned by user, the battery 4 is taken out from the bag body 17 of the clothes major body 1 and then a zipper type fastener 16 provided at the seam between the low-permeability layer 11 and the inner lining layer 12 is pulled to open so as to bring the fan body 21 out. In turn, the lead wires 32 engaged with the fan body 21 is dismantled and then the retaining ring 22 of the fan body 21 is removed, so that the fan body 21 can be removed from the fan assembly hole 14 of the clothes major body 1. Therefore, cleaning of the clothes major body 1 can be facilitated.

The above embodiment and figures are not to limit the implementation aspect of the clothes structure with temperature falling device of the present invention. For example, non-permeable layers can also be used to substitute for the low-permeability layers 15, 11 located at inside and outside of the clothes major body 1. According to the set-up of the non-permeable layers, the air blew out from the air delivery end of the fan body 21 can be further prevented from dissipating quickly, and then the air flow efficiency within the air delivery space 13 can be further enhanced.

It is apparent from the above structure and implementation method, the present invention has the following advantages:

1. According to the present invention, the air blew out from the air delivery end of the fan bodies is allowed to flow in the air delivery space between the inner lining layer and the low-permeability layer, and the air in the air delivery space further flows through the coarse mesh layer of the inner lining layer into the high-permeability layer, so that the air can flow more uniformly to everywhere of user's body, and then the air is exhausted out through the porous mesh layer. In this way, the air can be blown uniformly to everywhere in user's body so as to make user feeling comfortable.

2. According to the present invention, the air blew out from the air delivery end of the fan bodies can flow uniformly to everywhere of the clothes major body, and then is exhausted slowly from everywhere of the clothes major body. Therefore, the clothes major body does not produce local inflation so as to keep neat and beauty after wearing.

3. According to the present invention, an air flow control switch is provided. When user feels the air flow is not enough or too large, he can push the air flow control switch to operate the fan so as to regulate the air flow quantity. Therefore, the air flow can be regulated by user according to his own need.

4. According to the present invention, a zipper type fastener is provided at the seam between the inner lining layer inside the clothes major body and the low-permeability layer. When the clothes major body is to he cleaned by user, the zipper type fastener is pulled to open so as to bring the fan bodies out of the clothes major body. Therefore, cleaning of the clothes major body can be facilitated.

Claims

1. A clothes structure with temperature falling device, having a clothes major body and at least one fan assembled therein, wherein the clothes major body is formed by stitching one of a low-permeability layer and a non-permeable layer located outside the clothes major body and an inner lining layer located inside the clothes major body together in such a manner that an air delivery space is formed between either the low-permeability layer or the non-permeable layer and the inner lining layer; and the inner lining layer is formed with meshes; furthermore, the fan is assembled on the one selected from the low-permeability layer and the non-permeable layer located outside of the clothes major body.

2. The clothes structure with temperature falling device as claimed in claim 1, wherein the inner lining layer is composed of, sequentially from outside to inside, a coarse mesh layer, a high-permeability layer and a porous mesh layer.

3. The clothes structure with temperature falling device as claimed in claim 2, wherein the coarse mesh layer is a knitting fabric, the porous mesh layer is a knitting layer having tiny meshes and the high-permeability layer is filament interlaced between the coarse mesh layer and the porous layer.

4. The clothes structure with temperature falling device as claimed in claim 1, wherein the low-permeability layer is a wind proof fabric.

5. The clothes structure with temperature falling device as claimed in claim 1, wherein either a low-permeability layer or a non-permeable layer is provided at a place corresponding to the fan on the inside of the clothes major body, and either the low-permeability layer or the non-permeable layer located inside is stitched at the seam together with the adjacent inner lining layer located inside of the clothes major body.

6. The clothes structure with temperature falling device as claimed in claim 5, wherein a part of seam between the low-permeability layer or the non-permeable layer and the inner lining layer is not stitched together, and a fastener such as a zipper is used for connection in the unstitched part.

7. The clothes structure with temperature falling device as claimed in claim 6, wherein at least one fan assembly hole is provided on the one selected from the low-permeability layer and the non-permeable layer located outside the clothes major body, and the fan is assembled within the fan assembly hole.

8. The clothes structure with temperature falling device as claimed in claim 1, wherein at least one fan assembly hole is provided on the one selected from the low-permeability layer and the non-permeable layer located outside the clothes major body, and the fan includes a fan body and a retaining ring; the fan body is assembled in the fan assembly hole of the clothes major body, the fan body also has a flange provided on the periphery thereof for abutting against the peripheral edge of the fan assembly hole; the retaining ring has its central bore fitted on the fan body, and the retaining ring is thus fitted inside the periphery edge of the fan assembly hole, so as to cooperate with the flange of the fan body to hold the periphery edge of the fan assembly hole in position.

9. The clothes structure with temperature falling device as claimed in claim 1, wherein the clothes structure with temperature falling device further includes an air flow control switch which is assembled on one selected from the low-permeability layer and the non-permeable layer outside the clothes major body; the air flow control switch is provided with a circuit for controlling ON-OFF and regulating the air flow; the air flow control switch is connected with one end of a power supply cord and the other end of the power supply cord has a battery plug; the air flow control switch is further connected with one end of a lead wire and the other end of the lead wire is connected with at least one extension lead wire; the terminal of each extension lead wire has a plug for engaging with the power socket of the fan body.

10. The clothes structure with temperature falling device as claimed in claim 9, wherein the inner lining layer is stitched with a bag body at a place aside the fan assembly hole, and the bag body is provided with an aperture through which the power supply cord and the battery plug of the air flow control switch pass into the bag body.