Wearable air-conditioning cooling clothes with scale solar power generation
By using scale-like energy-gathering and power-supply components and a flexible connection design, the problem of unstable light-receiving surface of the cooling suit during outdoor operations is solved, achieving both comfort and efficient solar energy absorption during high-frequency body movement.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Patents(China)
- Current Assignee / Owner
- ANHUI LEJING NEW ENERGY TECH CO LTD
- Filing Date
- 2023-05-25
- Publication Date
- 2026-07-07
AI Technical Summary
When working outdoors, the solar absorbers of existing cooling suits are unstable in terms of light absorption surface due to high-frequency body movement or turning movements, resulting in poor comfort and limited movement.
The energy-gathering and power supply components are arranged in a scale-like pattern, with the light-absorbing sheets distributed at a symmetrical angle. The deformation is provided by elastic connecting blocks and overlapping sewing lines to ensure stable solar energy reception during body movement and avoid movement limitations.
It improves the stable absorption of solar energy, enhances comfort and flexibility during high-frequency body movements, and avoids restrictions on movement.
Smart Images

Figure CN116406869B_ABST
Abstract
Description
Technical Field
[0001] This invention relates to the field of air-conditioning clothing technology, and in particular to a wearable air-conditioning and cooling garment that generates solar power using scales. Background Technology
[0002] To maintain flexibility for outdoor use, existing cooling suits utilize solar panels for power. However, the single-panel arrangement of these panels is problematic because they are designed for non-fixed environments. In situations requiring frequent body movement or turning, the single-panel arrangement causes instability in the solar-absorbing surface. Furthermore, when workers bend or turn, the large individual panel coverage area restricts movement, leading to increased pressure and discomfort. Therefore, we propose a wearable air-conditioning cooling suit powered by scale-type solar energy. Summary of the Invention
[0003] The main objective of this invention is to provide a wearable air-conditioning and cooling garment that generates solar power using scale-type solar panels.
[0004] To achieve the above objectives, the technical solution adopted by the present invention is as follows:
[0005] A wearable air-conditioning and cooling suit with scale-type solar power generation includes a cooling suit body. Several spaced-out seats are fixedly connected to the outer side of the cooling suit body. Each pair of adjacent spaced-out seats is fixedly connected by an elastic connecting block. An energy-gathering and power-supplying component is slidably connected to the inner side of each spaced-out seat. The energy-gathering and power-supplying component includes a light-absorbing sheet, a battery pack, a directional adjustable shaft, and a bottom sliding seat. The light-absorbing sheets are symmetrically distributed on the outer wall of the bottom sliding seat. The battery pack and the directional adjustable shaft are both fixed to the bottom sliding seat. The light-absorbing sheets are fixedly connected to the directional adjustable shaft, and the bottom sliding seat is slidably connected to the spaced-out seats. The inner side of the elastic connecting block has supporting ribs for deformation under compression. The inner side of the elastic connecting block has a central hollow cavity, which allows the energy-gathering and power-supplying component to adapt to the rotation and bending of the cooling suit body when twisted by the body.
[0006] A further improvement of the present invention is that the surface of the cooling garment body is provided with a plurality of overlapping sewing lines, and the pipeline guide seat is fixedly connected to the bottom edge of the cooling garment body.
[0007] A further improvement of the present invention is that the spaced arrangement seat is provided with a damping sliding groove and a horizontal distance adjustment sliding groove, the bottom sliding seat is slidably connected to the inner side of the damping sliding groove, and a push-connecting toggle head is slidably connected to the inner side of the horizontal distance adjustment sliding groove.
[0008] A further improvement of the present invention is that one end of the push connection twist head passes through the horizontal distance adjustment groove and is screwed to the bottom sliding seat.
[0009] A further improvement of the present invention is that a garment surface adhesive is fixedly connected to one side wall of the spacer arrangement seat near the main body of the cooling garment, for temperature isolation between the spacer arrangement seat and the main body of the cooling garment.
[0010] A further improvement of the present invention is that the use of a wearable air-conditioning and cooling garment with scale-type solar power generation includes the following steps:
[0011] Step S1: Before wearing the main body of the cooling suit, select the required number of energy-gathering power supply components according to the sun exposure level of the day and install them on the inside of the interval arrangement seat. After inserting the bottom sliding seat into the inside of the damping sliding groove, push the connecting twist head through the horizontal distance adjustment sliding groove and screw it to the bottom sliding seat to complete the fixation. Then you can wear the main body of the cooling suit.
[0012] Step S2: After wearing, the light energy absorption sheets in each group of energy collection and power supply components are symmetrically distributed at an angle, and multiple groups of energy collection and power supply components are arranged in a scale-like, equally spaced manner, thereby maintaining the surface receiving light when the body position is finely adjusted, which can effectively improve the stable absorption of solar energy.
[0013] Step S3: Simultaneously, when the wearer makes limb movements, the spacer is fixed by elastic connecting horizontal blocks, and the deformation of the spacer is provided by the adaptation to the folding sewing thread. When the main body of the cooling garment is subjected to the wearer's limb movements, it can adapt to produce elastic folds, maintaining the comfort of the workwear.
[0014] Compared with existing technologies, this invention improves the stable absorption of solar energy by symmetrically distributing the light-absorbing sheets in the energy-gathering and power-supply components and arranging multiple sets of energy-gathering and power-supply components at equal intervals in a scale-like pattern. This ensures that the surface receiving the light is aligned with the body position during minor adjustments. Simultaneously, when the wearer makes limb movements, the spaced-out seats are fixed by elastic connecting blocks, and the deformation of the spaced-out seats is provided by adapting to the folding and shrinking sewing lines. This allows the cooling garment to adapt to the wearer's limb movements and fold elastically, thus maintaining the comfort of the workwear and making it suitable for workers who need to move their bodies frequently. Attached Figure Description
[0015] Figure 1 This is a composition diagram of a wearable air-conditioning and cooling garment for generating solar power using scales, according to the present invention.
[0016] Figure 2This is a schematic diagram of the wearable air-conditioning and cooling suit with scale-type solar power generation according to the present invention, including the middle space arrangement base, the elastic connecting cross block, and the energy collection and power supply component.
[0017] Figure 3 This is an isometric view of the spacer arrangement, elastic connecting crossbar, and energy collection and power supply components of a wearable air-conditioning and cooling suit for scale-type solar power generation according to the present invention.
[0018] In the diagram: 1. Cooling garment body; 11. Folding and shrinking sewing thread; 12. Pipe guide seat; 2. Spacing arrangement seat; 21. Push-connecting twist head; 22. Damping sliding groove; 23. Lateral spacing adjustment sliding groove; 3. Elastic connecting cross block; 31. Supporting rib column; 32. Central hollow cavity; 4. Energy collection and power supply component; 41. Light energy absorption sheet; 42. Energy storage battery pack; 43. Split-direction adjustable distance rotating shaft; 44. Bottom sliding seat; 5. Garment surface adhesive component. Detailed Implementation
[0019] The present invention will be further described below with reference to specific embodiments. The accompanying drawings are for illustrative purposes only and are schematic diagrams, not actual pictures. They should not be construed as limiting the present invention. In order to better illustrate the specific embodiments of the present invention, some parts in the drawings may be omitted, enlarged or reduced, and do not represent the actual product size. It is understandable to those skilled in the art that some well-known structures and their descriptions may be omitted in the drawings. Based on the specific embodiments of the present invention, all other specific embodiments obtained by those skilled in the art without creative effort are within the scope of protection of the present invention.
[0020] Example. Please refer to the following: Figures 1-3 A wearable air-conditioning and cooling suit with scale-type solar power generation includes a cooling suit body 1. Several spaced-out seats 2 are fixedly connected to the outside of the cooling suit body 1. Each pair of adjacent spaced-out seats 2 is fixedly connected by an elastic connecting block 3. An energy-collecting and power-supplying component 4 is slidably connected to the inside of the spaced-out seats 2. The energy-collecting and power-supplying component 4 includes light energy absorbing sheets 41, an energy storage battery pack 42, a directional adjustable shaft 43, and a bottom sliding seat 44. The light energy absorbing sheets 41 are symmetrically distributed. The outer wall of the moving seat 44, the energy storage battery pack 42 and the directional adjustment shaft 43 are all fixed to the bottom sliding seat 44. The light energy absorption sheet 41 is fixedly connected to the directional adjustment shaft 43. The bottom sliding seat 44 is slidably connected to the spaced arrangement seat 2. The inner side of the elastic connecting cross block 3 is provided with a support column 31 for providing deformation support when compressed. The inner side of the elastic connecting cross block 3 is provided with a central hollow cavity 32. The central hollow cavity 32 is used for the energy collection and power supply component 4 to adapt to the rotation and bending of the cooling suit body 1 when the body twists.
[0021] In this embodiment, in order to maintain the adaptability of the work environment for workers who need to move or turn frequently, the present invention sets the light energy absorption sheet 41 in the energy collection and power supply component 4 to be distributed at a symmetrical angle, and the multiple sets of energy collection and power supply components 4 are arranged at equal intervals in a scale-like manner, so as to maintain the light receiving surface when the body position is finely adjusted, which can effectively improve the stable absorption of solar energy.
[0022] The specific method of using this invention is as follows: Before wearing the cooling suit body 1, the required number of spaced-out seats 2 can be selected according to the degree of sun exposure on that day and installed inside the energy-gathering and power-supplying components 4. During installation, firstly, the bottom sliding seat 44 is inserted into the inner side of the damping sliding groove 22, and then the push connecting twist head 21 is screwed through the horizontal distance adjustment groove 23 and screwed onto the bottom sliding seat 44 to complete the fixation. Then, the cooling suit body 1 is worn on the body surface. After wearing, since the light energy absorbing sheets 41 in each group of energy-gathering and power-supplying components 4 are symmetrically distributed at an angle, their independent tilt angle can be adjusted by rotating the directional adjustment shaft 43. At the same time, multiple groups of energy-gathering and power-supplying components can be used. The components 4 are arranged at equal intervals in a scale-like pattern, which effectively maintains the surface receiving sunlight when the body position is slightly adjusted, thus effectively improving the stable absorption of solar energy. At the same time, when the wearer makes a limb movement, the spaced arrangement seats 2 are fixed by elastic connecting cross blocks 3. The deformation of the spaced arrangement seats 2 is provided by the adaptation with the overlapping sewing diameter 11. When the cooling garment body 1 is subjected to the wearer's limb movement, it can adapt to the support column 31 as the axis to generate elastic folds, thus ensuring the adaptability when the body movement occurs, while avoiding direct contact with the human body to avoid movement limitation and maintaining the comfort of the workwear.
[0023] The cooling suit body 1 has several overlapping sewing lines 11 on its surface, and the pipe guide seat 12 is fixedly connected to the bottom edge of the cooling suit body 1. In this embodiment, the overlapping sewing lines 11 allow the spaced arrangement seats 2 to be folded at the dividing line of the overlapping sewing lines 11. This allows the two spaced arrangement seats 2 to move synchronously through the elastic deformation of the elastic connecting cross block 3 when the worker's body rotates or bends, thus avoiding interference with the worker's movement path.
[0024] The spaced arrangement seat 2 is provided with a damping sliding groove 22 and a horizontal spacing adjustment groove 23. The bottom sliding seat 44 is slidably connected to the inner side of the damping sliding groove 22. The inner side of the horizontal spacing adjustment groove 23 is slidably connected with a push connection twist head 21. One end of the push connection twist head 21 passes through the horizontal spacing adjustment groove 23 and is screwed to the bottom sliding seat 44. In this embodiment, the damping sliding groove 22 and the horizontal spacing adjustment groove 23 are used to guide the sliding of the energy collection and power supply component 4. After the push connection twist head 21 is screwed to the bottom sliding seat 44, when it is necessary to adjust the bottom sliding seat 44 along the path of the spaced arrangement seat 2, the push connection twist head 21 is limited to slide along the inner side of the horizontal spacing adjustment groove 23, so that the bottom sliding seat 44 slides and adjusts synchronously with the inner side of the damping sliding groove 22.
[0025] Among them, the side wall of the spacer arrangement seat 2 near the cooling garment body 1 is fixedly connected to the garment surface adhesive piece 5, which is used for temperature isolation between the spacer arrangement seat 2 and the cooling garment body 1; the garment surface adhesive piece 5 is set to stick and fix the spacer arrangement seat 2 and the cooling garment body 1, and at the same time, through the isolation between the spacer arrangement seat 2 and the garment surface adhesive piece 5, a certain distance space is left between the energy storage battery pack 42 and the wearer, which can reduce the direct guidance of temperature.
[0026] The foregoing has shown and described the basic principles, main features, and advantages of the present invention. Those skilled in the art should understand that the present invention is not limited to the above embodiments. The embodiments and descriptions in the specification are merely illustrative of the principles of the invention. Various changes and modifications can be made to the invention without departing from its spirit and scope, and all such changes and modifications fall within the scope of the present invention as claimed. The scope of protection of this invention is defined by the appended claims and their equivalents.
Claims
1. A wearable air-conditioning and cooling suit with scale-type solar power generation, comprising a cooling suit body (1), characterized in that, The cooling garment body (1) is fixedly connected to a number of spaced-out seats (2) on its outer side. Each pair of adjacent spaced-out seats (2) is fixedly connected by an elastic connecting block (3). An energy-gathering and power-supplying assembly (4) is slidably connected to the inner side of the spaced-out seats (2). The energy-gathering and power-supplying assembly (4) includes a light energy absorbing sheet (41), an energy storage battery pack (42), a directional adjustable shaft (43), and a bottom sliding seat (44). The light energy absorbing sheets (41) are symmetrically distributed on the outer wall of the bottom sliding seat (44). The energy storage battery pack (42) and the... The directional adjustment shaft (43) is fixed to the bottom sliding seat (44), the light energy absorption sheet (41) is fixedly connected to the directional adjustment shaft (43), the bottom sliding seat (44) is slidably connected to the spaced arrangement seat (2), the inner side of the elastic connecting block (3) is provided with a support column (31) for providing deformation support when compressed, the inner side of the elastic connecting block (3) is provided with a through hollow cavity (32), the through hollow cavity (32) is used for the energy collection and power supply component (4) to adapt to the rotation and bending of the cooling suit body (1) when the body twists.
2. The wearable air-conditioning and cooling suit for scale-type solar power generation according to claim 1, characterized in that: The surface of the cooling suit body (1) is provided with several overlapping sewing lines (11), and the pipeline guide seat (12) is fixedly connected to the bottom edge of the cooling suit body (1).
3. The wearable air-conditioning and cooling suit for scale-type solar power generation according to claim 1, characterized in that: The spaced arrangement seat (2) is provided with a damping sliding groove (22) and a horizontal distance adjustment groove (23). The bottom sliding seat (44) is slidably connected to the inner side of the damping sliding groove (22). The inner side of the horizontal distance adjustment groove (23) is slidably connected to a push connection twist head (21).
4. The wearable air-conditioning and cooling suit for scale-type solar power generation according to claim 3, characterized in that: One end of the push connection twist head (21) passes through the horizontal distance adjustment groove (23) and is screwed to the bottom sliding seat (44).
5. The wearable air-conditioning and cooling suit for scale-type solar power generation according to claim 1, characterized in that: The spacer (2) is fixedly connected to a garment surface adhesive piece (5) on one side wall near the cooling garment body (1) for temperature isolation between the spacer (2) and the cooling garment body (1).
6. The steps for using a wearable air-conditioning and cooling suit with scale-type solar power generation according to any one of claims 1-5, characterized in that, Includes the following steps: Step S1: Before wearing the cooling suit body (1), select the required number of energy-collecting power supply components (4) according to the sun exposure level of the day and install them on the inside of the spaced arrangement seat (2). After inserting the bottom sliding seat (44) into the inside of the damping sliding groove (22), push the connecting twist head (21) through the horizontal distance adjustment sliding groove (23) and screw it to the bottom sliding seat (44) to complete the fixation. Then you can wear the cooling suit body (1). Step S2: After wearing, the light energy absorption sheet (41) in each group of energy collection and power supply components (4) is symmetrically distributed at an angle, and multiple groups of energy collection and power supply components (4) are arranged in a scale-like equally spaced manner, thereby maintaining the surface receiving the light when the body position is finely adjusted, which can effectively improve the stable absorption of solar energy. Step S3: At the same time, when the wearer makes a limb movement, the spacer arrangement seats (2) are fixed by elastic connecting horizontal blocks (3) and the deformation of the spacer arrangement seats (2) is provided by the adaptation with the folding sewing thread (11). When the cooling garment body (1) is subjected to the wearer's limb movement, it can adapt to produce elastic folds and maintain the comfort of the workwear.