阅读说明：本技术 一种风兜式被动降温服装 (Wind pocket type passive cooling garment ) 是由 赵晓曦 于 2021-02-02 设计创作，主要内容包括：本发明公开了一种风兜式被动降温服装,涉及服装装置技术领域。本发明包括服装本体,设置在服装本体外的风兜本体,风兜本体与服装本体围合形成风兜空腔,服装本体开设有若干与风兜空腔相互连通的第一透气网眼,风兜本体的下端贯穿开设有若干第二透气网眼,风兜本体的内部上端设置有弹性件,弹性件的下端设置有动力件,动力件的下端贯穿风兜本体,弹性件在动力件的拉动作用下能够挤压风兜空腔内的空气。以解决服装内微气候的闷热问题,起到对服装内部进行降温的作用,并且不需要使用电源,避免受电源的限制,提高穿着者的舒适性。(The invention discloses a wind pocket type passive cooling garment, and relates to the technical field of garment devices. The air bag comprises a garment body and an air bag body arranged outside the garment body, wherein the air bag body and the garment body are enclosed to form an air bag cavity, the garment body is provided with a plurality of first air-permeable meshes mutually communicated with the air bag cavity, the lower end of the air bag body is provided with a plurality of second air-permeable meshes in a penetrating manner, the upper end inside the air bag body is provided with an elastic part, the lower end of the elastic part is provided with a power part, the lower end of the power part penetrates through the air bag body, and the elastic part can extrude air in the air bag cavity under the pulling action of the power part. The problem of stuffiness of microclimate in the clothes is solved, the effect of cooling the inside of the clothes is achieved, a power supply is not needed, the limitation of the power supply is avoided, and the comfort of a wearer is improved.)

1. The utility model provides a passive cooling clothing of wind pocket formula, includes the clothing body, its characterized in that: the wind pocket body is arranged outside the clothes body, the wind pocket body and the clothes body are enclosed to form a wind pocket cavity, the clothes body is provided with a plurality of first breathable meshes communicated with the wind pocket cavity, the lower end of the wind pocket body is penetrated and provided with a plurality of second breathable meshes, an elastic piece is arranged at the upper end of the inside of the wind pocket body, a power piece is arranged at the lower end of the elastic piece, the lower end of the power piece penetrates through the wind pocket body, and the elastic piece can extrude air in the wind pocket cavity under the pulling action of the power piece.

2. The wind pocket type passive cooling garment of claim 1, wherein: the elastic piece is made of a four-side elastic fabric, and the edge of the elastic piece is connected with the inner wall of the upper end of the wind pocket body.

3. The wind pocket type passive cooling garment of claim 1, wherein: and an elastic woven belt is connected between the upper end of the elastic piece and the inner wall of the upper end of the wind pocket body.

4. The wind pocket type passive cooling garment of claim 1, wherein: the power part is made of nylon woven belts.

5. The wind pocket type passive cooling garment of claim 1, wherein: the lower extreme of power spare is connected with draws and detains, the lower extreme of wind pocket body runs through and sets up the through-hole that is convenient for power spare to pass through, the overall dimension who draws the knot is greater than the aperture of through-hole.

6. The wind pocket type passive cooling garment of claim 5, wherein: the garment body is further provided with a hanging loop matched with the pull buckle.

7. The wind pocket type passive cooling garment of claim 1, wherein: an interlayer is arranged at the position of the second breathable mesh, and a cooling crystal is arranged in the interlayer.

Technical Field

The invention relates to the technical field of clothing devices, in particular to a wind pocket type passive cooling clothing.

Background

At present, most of cooling clothes in the market are actively and physically cooled by using clothes fabrics or clothes materials, and a few clothes are passively cooled by combining a compressor or a small fan with the clothes, so that the passive cooling mode is limited by the limitation of a power supply and brings inconvenience to users.

Therefore, a wind pocket type passive cooling garment is urgently needed to solve the muggy problem of microclimate in the garment, play a role in cooling the interior of the garment, avoid the limitation of a power supply without using the power supply, and improve the comfort of a wearer.

Disclosure of Invention

Aiming at the defects in the prior art, the invention provides a wind pocket type passive cooling garment, which is used for solving the muggy problem of microclimate in the garment, has the function of cooling the interior of the garment, does not need a power supply, avoids the limitation of the power supply and improves the comfort of a wearer.

The invention specifically adopts the following technical scheme:

the invention discloses a wind pocket type passive cooling garment which comprises a garment body and a wind pocket body arranged outside the garment body, wherein the wind pocket body and the garment body are enclosed to form a wind pocket cavity, the garment body is provided with a plurality of first ventilating meshes mutually communicated with the wind pocket cavity, micro airflow in the garment can enter the wind pocket cavity through the first ventilating meshes, the lower end of the wind pocket body is provided with a plurality of second ventilating meshes in a penetrating manner, the upper end in the wind pocket body is provided with an elastic part, the lower end of the elastic part is provided with a power part, the lower end of the power part penetrates through the wind pocket body, and the elastic part can extrude air in the wind pocket cavity under the pulling action of the power part.

According to the invention, as further preferable, the elastic piece is made of four-side elastic fabric, and the edge of the elastic piece is connected with the inner wall of the upper end of the wind pocket body.

According to the invention, as further preferable, an elastic woven belt is connected between the middle of the upper end of the elastic piece and the middle inner wall of the upper end of the wind pocket body, so that the elastic piece is assisted to rebound rapidly and smoothly.

According to the invention, as further preferred, the power part is made of nylon woven tape.

According to the invention, as further preferable, the lower end of the power part is connected with the pull buckle, the lower end of the wind bag body is provided with the through hole for the power part to pass through, and the external dimension of the pull buckle is larger than the aperture of the through hole.

In a further preferred mode, the garment body is further provided with a hanging loop matched with the pull buckle.

In a further preferred embodiment of the present invention, the second air-permeable mesh is provided with an interlayer, and the interlayer is provided with a cooling crystal.

The invention has the beneficial effects that:

1. the wind pocket body is woven and enclosed to form a box shape, the wind pocket body can be arranged on the front side or the back side of the garment body, a plurality of first breathable meshes are arranged in the garment body in a penetrating mode, and a wind pocket cavity in the wind pocket body is communicated with the interior of the garment body through the first breathable meshes. The lower end of the wind pocket body is provided with a second net pocket body, so that the wind pocket cavity is communicated with the outside air. When the wind pocket body is kept in a passive front state, heat of human body movement, namely hot and humid air in the clothes enters the wind pocket cavity of the wind pocket body through the first breathable meshes, and when a large amount of hot air is accumulated in the wind pocket cavity, the power piece can be passively pulled, the power piece drives the elastic piece to move downwards, and the hot air in the wind pocket cavity is discharged; when the power part is loosened, the elastic part is pulled to rebound rapidly through the elasticity of the elastic part, outside cold air enters the air pocket cavity through the second breathable meshes at the lower part of the air pocket cavity, and then enters the clothes through the first breathable meshes to achieve the effect of passive cooling. And a power supply is not needed, so that the limitation of the power supply is avoided.

2. Elastic component adopts the four sides to play the surface fabric and makes, power component sets up in the centre of the lower extreme of elastic component, the edge and the wind pocket body interconnect of elastic component, through pulling power component, the elastic component can pressurize the air of wind pocket intracavity with the form of undercut, and the edge of elastic component remains the interconnect with the wind pocket body all the time, the edge of elastic component keeps the power of recovering elastic deformation promptly, after the pulling force of power component is removed, the elastic component can be at the effect upward movement of elastic deformation power, resume original state. Furthermore, be provided with the elasticity meshbelt between the middle of the upper end of elastic component and the middle inner wall of wind pocket body upper end, the elasticity meshbelt is located the intermediate layer of elastic component and the inside formation of wind pocket body promptly, plays the supplementary resilience force that improves the elastic component through the elasticity meshbelt, guarantees that the elastic component can kick-back smoothly fast.

3. The fabric of the wind pocket body can be consistent with the fabric of the garment body, and the fabric with better tightness is required to be used for ensuring the negative pressure effect of the wind pocket body. The pull buckle is a D-shaped pull buckle, and the D-shaped pull buckle can prevent the power part from retracting into the air inlet pocket body when the resilience traction force is too large in the passive cooling state; the D-shaped pull buckle can be linked with the trousers, the D-shaped pull buckle at the bottom end of the power piece can be connected with the rear waist hanging loop of the trousers, the power piece is attached to the human body when the human body is in an upright and original state, and when the human body bends, the power piece is pulled by the rear waist of the human body to move downwards due to the elongation of the rear waist part of the human body, so that the air pocket structure is driven to perform cooling activity; when the D-shaped pull buckle at the bottom end of the power part can be connected with the waist hanging belt loop behind the trousers, in order to ensure that the power part does not displace in the motion state, a positioning belt loop can be arranged at the back of the coat of the clothes for fixing. It needs to be further explained that: the wind pocket type passive cooling structure can be designed and used in a human apocrine gland distribution area or a human heat accumulation area. Two reference designs are provided. Firstly, when the garment is used on the front side of the garment, the power piece can be conveniently pulled by hands directly and can be placed obliquely, and the garment is convenient to be pulled by one hand at one side for cooling; is limited by the structure of the front fly of the garment, and does not suggest using a single cooling wind pocket in a large area at the chest. When the trousers are used on the back, the trousers can be combined with the hanging loop on the back waist of the trousers, the nylon hanging loop is arranged on the back waist of the trousers, the barbed surface magic tape and the suede magic tape are arranged at two ends of the hanging loop, when the trousers loop is opened, the trousers loop can penetrate through the holes of the nylon woven tape and is closed by the magic tape in a fitting manner, and a connection state is formed; when the nylon woven belt is used independently, the length of the nylon woven belt is adjusted by reducing the adjusting buckle on the nylon woven belt, and the nylon woven belt is convenient to pull by manual operation.

4. The ventilative mesh department of second is provided with the intermediate layer, and the intermediate layer does not influence the normal circulation of air, only is used for carrying out spacing fixed to the cooling crystal, through the cooling crystal, plays the effect of carrying out supplementary cooling to the air of flowing through, guarantees that the air admission wind pocket is originally internal temperature lower. The cooling crystal needs to soak water in advance, and the crystal absorbs water the back, has and compares in sweat, hot-air and the lower temperature of outside air, and the lower principle of cooling crystal temperature is: the water in the evaporative cooling crystal carries away heat to achieve the purpose of self-cooling. As further preferred, the cooling crystallization adopts the coolant, and the intermediate layer design is elasticity sack, conveniently gets to put the cooling crystal.

Drawings

In order to more clearly illustrate the detailed description of the invention or the technical solutions in the prior art, the drawings that are needed in the detailed description of the invention or the prior art will be briefly described below. Throughout the drawings, like elements or portions are generally identified by like reference numerals. In the drawings, elements or portions are not necessarily drawn to scale.

FIG. 1 is a schematic view of the internal structure of the present invention;

FIG. 2 is a schematic view of the elastic member moving downward for a certain distance;

FIG. 3 is a schematic view of the configuration shown in FIG. 1;

FIG. 4 is a schematic view of the position of the wind pocket body when it is arranged on the back of the garment body;

FIG. 5 is a schematic position diagram of the wind pocket body when the wind pocket body is arranged on the front surface of the clothing body;

in the attached drawing, 1-a garment body, 2-a wind pocket body, 3-a wind pocket cavity, 4-a first breathable mesh, 5-a second breathable mesh, 6-an elastic part, 7-a power part, 8-a pull buckle, 9-a through hole, 10-an elastic braid and 11-a hanging loop.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings. The following examples are only for illustrating the technical solutions of the present invention more clearly, and therefore are only examples, and the protection scope of the present invention is not limited thereby.

It is to be noted that, unless otherwise specified, technical or scientific terms used herein shall have the ordinary meaning as understood by those skilled in the art to which the invention pertains.

Example 1

The invention discloses a wind pocket type passive cooling garment which comprises a garment body 1 and a wind pocket body 2 arranged outside the garment body 1, wherein the wind pocket body 2 and the garment body 1 are enclosed to form a wind pocket cavity 3, the garment body 1 is provided with a plurality of first breathable meshes 4 mutually communicated with the wind pocket cavity 3, the lower end of the wind pocket body 2 is provided with a plurality of second breathable meshes 5 in a penetrating manner, the upper end inside the wind pocket body 2 is provided with an elastic part 6, the lower end of the elastic part 6 is provided with a power part 7, the lower end of the power part 7 penetrates through the wind pocket body 2, and the elastic part 6 can extrude air in the wind pocket cavity 3 under the pulling action of the power part 7.

After the technical scheme is adopted: the wind pocket body 2 is woven and enclosed to form a box shape, the wind pocket body 2 can be arranged on the front side or the back side of the clothing body 1, a plurality of first breathable meshes 4 are arranged in the clothing body 1 in a penetrating mode, and a wind pocket cavity 3 in the wind pocket body 2 is communicated with the interior of the clothing body 1 through the first breathable meshes 4. The lower end of the wind pocket body 2 is provided with a second net pocket body, so that the wind pocket cavity 3 is communicated with the outside air. When the wind pocket body 2 keeps a passive front state, heat of human body movement, namely hot humid air in clothes, enters the wind pocket cavity 3 of the wind pocket body 2 through the first breathable meshes 4, when a large amount of hot air is accumulated in the wind pocket cavity 3, the power part 7 can be pulled passively, the power part 7 drives the elastic part 6 to move downwards, and the hot air in the wind pocket cavity 3 is discharged; when the power part 7 is loosened, the elastic part 6 is pulled by the elasticity of the elastic part to rebound rapidly, outside cold air enters the wind pocket cavity 3 through the second breathable meshes 5 at the lower part of the wind pocket cavity 3 and then enters the clothes through the first breathable meshes 4, and the passive cooling effect is achieved. And a power supply is not needed, so that the limitation of the power supply is avoided.

Example 2

The present embodiment is further optimized on the basis of embodiment 1 as follows: the elastic piece 6 is made of four-side elastic fabric, and the edge of the elastic piece 6 is connected with the inner wall of the upper end of the wind pocket body 2. An elastic woven belt 10 is connected between the middle of the upper end of the elastic piece 6 and the middle inner wall of the upper end of the wind pocket body 2.

After the technical scheme is adopted: elastic component 6 adopts the four sides to play the surface fabric and makes, power component 7 sets up the centre at elastic component 6, the edge and the wind pocket body 2 interconnect of elastic component 6, through pulling power component 7, elastic component 6 can pressurize the air of wind pocket intracavity with the form of undercut, and the edge of elastic component 6 remains throughout with the interconnect of wind pocket body 2, the edge of elastic component 6 keeps the power of recovering elastic deformation promptly, after removing the pulling force of power component 7, elastic component 6 can be at the effect upward movement of elastic deformation power, resume initial state. Further, be provided with elasticity meshbelt 10 between the middle of the upper end of elastic component 6 and the middle inner wall of wind pocket body 2 upper end, elasticity meshbelt 10 is located the intermediate layer of elastic component 6 and the inside formation of wind pocket body 2 promptly, plays the supplementary resilience force that improves elastic component 6 through elasticity meshbelt 10, guarantees that elastic component 6 can kick-back smoothly fast.

Example 3

The present embodiment is further optimized on the basis of embodiment 1 as follows: the power part 7 is made of nylon woven tape. The lower extreme of power spare 7 is connected with draws and detains 8, and the lower extreme of wind pocket body 2 runs through the through-hole 9 of offering the power spare 7 of being convenient for to pass through, draws the overall dimension that detains 8 to be greater than the aperture of through-hole 9. The clothing body 1 is also provided with a hanging loop 11 which is matched with the pull buckle 8.

After the technical scheme is adopted: the fabric of the wind pocket body 2 can be consistent with the fabric of the clothing body 1, and the fabric with better tightness needs to be used for ensuring the negative pressure effect of the wind pocket body 2. The pull buckle 8 is a D-shaped pull buckle 8, and the D-shaped pull buckle 8 can prevent the power part 7 from retracting into the air inlet pocket body 2 when the resilience traction force is too large in the passive cooling state; the D-shaped pull buckle 8 can be linked with the trousers, the D-shaped pull buckle 8 at the bottom end of the power part 7 can be connected with the rear waist hanging loop 11 of the trousers, when the human body is in an upright and original state, the power part 7 is attached to the human body, and when the human body bends, the power part 7 moves downwards under the traction of the trousers loop due to the elongation of the rear waist part of the human body, so that the wind pocket structure is driven to cool; when the D-shaped pull buckle 8 at the bottom end of the power part 7 can be connected with the waist hanging loop 11 at the back of the trousers, a positioning loop belt can be arranged at the back of the coat of the clothes for fixing in order to ensure that the power part 7 does not displace in a motion state. It needs to be further explained that: the wind pocket type passive cooling structure can be designed and used in a human apocrine gland distribution area or a human heat accumulation area. Two reference designs are provided. Firstly, when the garment is used on the front side of the garment, the nylon woven tape (power part) can be conveniently pulled by hands directly and can be placed obliquely, and the garment is convenient to be pulled by one hand at one side for cooling; is limited by the structure of the front fly of the garment, and does not suggest using a single cooling wind pocket in a large area at the chest. When the trousers are used on the back, the trousers can be combined with the rear waist hanging loop 11 of the trousers, the nylon hanging loop 11 is arranged on the rear waist of the trousers, the stabbing surface magic tape and the suede magic tape are arranged at two ends of the hanging loop 11, when the trousers are opened, the hanging loop can penetrate through holes of the nylon woven tape and is closed through the magic tape, and a connection state is formed; when the nylon woven belt is used independently, the length of the nylon woven belt is adjusted by reducing the adjusting buckle on the nylon woven belt, and the nylon woven belt is convenient to pull by manual operation.

Example 4

The present embodiment is further optimized on the basis of embodiment 1 as follows: an interlayer is arranged at the position of the second breathable mesh 5, and a cooling crystal is arranged in the interlayer.

After the technical scheme is adopted: the 5 departments of the ventilative mesh of second are provided with the intermediate layer, and the intermediate layer does not influence the normal circulation of air, only is used for carrying on spacing fixedly to the cooling crystal, through the cooling crystal, plays the effect of carrying out supplementary cooling to the air of flowing through, guarantees that the temperature that the air admission wind pocket body 2 was interior is lower.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention, and they should be construed as being included in the following claims and description.