Water-cooled cooling clothes

By incorporating thermal insulation cotton and side-by-side cooling fans into the water-cooled clothing, combined with a water pump and a ring-shaped water channel design, the problem of temperature rise caused by sunlight exposure was solved, achieving a better cooling effect.

CN224369129UActive Publication Date: 2026-06-19SHENZHEN HONK ELECTRONIC CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SHENZHEN HONK ELECTRONIC CO LTD
Filing Date
2025-06-09
Publication Date
2026-06-19

AI Technical Summary

Technical Problem

Existing liquid-cooled clothing is ineffective for outdoor workers when exposed to sunlight, as the clothing temperature rises, causing the liquid cooling pipes to overheat and resulting in unsatisfactory cooling performance.

Method used

It adopts a combination design of water bag, thermal insulation cotton, cooling fan and water pump. The thermal insulation cotton is attached to the outside of the water bag, the cooling fan has a built-in semiconductor cooling chip, the fan and semiconductor cooling chip are arranged side by side, the water pump provides water flow power, and the ring water channel design avoids the temperature rise caused by sunlight.

Benefits of technology

It effectively prevents temperature rise caused by sunlight exposure, thus improving the cooling effect of the cooling clothing.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model discloses a water cooling clothes relates to the field of cooling clothes, and it is including: water bag, its upper portion is provided with water channel, and the water channel is opened with a water inlet and a water outlet, heat -preserving cotton is installed in the outside of water bag, and the inside installation has the water pipe of refrigeration fan, and water pipe is connected with water inlet and water outlet, water pump is installed on the water pipe, and is used for providing water flow power. The utility model discloses heat -preserving cotton between clothes and water bag, can play the role of heat preservation when the sunlight irradiation, avoids the temperature rise of pipeline and water bag to take place under the condition of the sunlight irradiation, reduces the heat of the outside world and plays better cooling effect to human body.
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Description

Technical Field

[0001] This utility model relates to the field of cooling clothing, specifically a water-cooled cooling clothing. Background Technology

[0002] Cooling clothing, which uses physical methods to cool the body, is primarily used by outdoor workers or people hiking or playing outdoors. It typically employs fans or liquid cooling to achieve this. Fans are mounted on the clothing, or liquid tubing is laid on it (along with a water pump to provide water circulation), using wind or liquid to remove heat from the body's surface, thus cooling the body.

[0003] Existing liquid-cooled clothing is generally applied directly inside the garment. When worn, the temperature of the clothing rises due to sunlight, which in turn increases the temperature of the liquid in the liquid cooling system, resulting in an unsatisfactory cooling effect on the body. Summary of the Invention

[0004] The purpose of this invention is to provide a water-cooled cooling garment to solve the problems mentioned in the background art.

[0005] To solve the above-mentioned technical problems, this utility model provides the following technical solution: a water-cooled cooling suit, comprising:

[0006] A water bag with a water channel at the top, and an inlet and an outlet in the water channel;

[0007] Insulating cotton is attached to the outside of the water bag;

[0008] The refrigeration fan has water pipes installed inside, and the water pipes are connected to the inlet and outlet.

[0009] A water pump, installed on a water pipe, is used to provide power for water flow.

[0010] Preferably, it also includes a water inlet, which is fixedly installed on the water pipe and connected to the water pipe for replenishing liquid into the water pipe.

[0011] Preferably, the water inlet is provided with a sealing cap.

[0012] Preferably, it also includes a connector, installed on the water pipe, for connecting the water pipe to the inlet and the water pipe to the outlet.

[0013] Preferably, the water bag has an annular water channel at the shoulder position, which extends from the shoulder position to the farthest end of the water bag. One end of the annular water channel is connected to the water outlet, and the other end of the annular water channel is also connected to the water outlet.

[0014] Preferably, the cooling fan includes:

[0015] case;

[0016] The fan is fixedly installed inside the casing;

[0017] A semiconductor cooling chip is fixedly installed inside the housing and faces the air outlet of the fan. The fan cools the heating surface of the semiconductor cooling chip.

[0018] Preferably, the connector includes:

[0019] Sub-connector, with a plug fixedly installed at one end of the sub-connector;

[0020] The female connector has an internal insertion ring at one end for insertion with the plug connector.

[0021] Preferably, both the connector and the connector ring are provided with stepped holes;

[0022] A T-shaped slider is slidably installed in the stepped hole of the connector. A spring is installed between one end of the T-shaped slider and the inner wall of the sub-connector. The spring provides an outward elastic force to the T-shaped slider.

[0023] A T-shaped block is installed inside the plug ring. A second spring is installed between one end of the T-shaped block and the female connector. The second spring provides an outward elastic force to the T-shaped block.

[0024] Preferably, rubber rings are installed between the T-shaped block and the insertion ring, and between the T-shaped slider and the insertion connector.

[0025] Preferably, the water bag has multiple protrusions pressed into its water channels. When the water flows, the protrusions provide resistance to the water flow, thereby slowing down the water flow rate and prolonging the contact time with the human body.

[0026] Compared with the prior art, the beneficial effects of this utility model are:

[0027] This utility model features thermal insulation cotton positioned between clothing and a water bag. When exposed to sunlight, it provides insulation, preventing the temperature of the pipes and water bag from rising due to sunlight exposure. It also reduces the absorption of heat from the outside environment, resulting in a better cooling effect on the human body. Attached Figure Description

[0028] Figure 1 This is the overall structure of the present utility model;

[0029] Figure 2 This is a structural diagram of the refrigeration fan of this utility model;

[0030] Figure 3 This is a diagram showing the internal structure of the refrigeration fan of this utility model;

[0031] Figure 4 This is a structural diagram of the connector of this utility model;

[0032] Figure 5 This is an exploded view of the connector of this utility model;

[0033] Figure 6 This is a cross-sectional view of the connector of this utility model;

[0034] Figure 7 This is a diagram showing the usage state of this utility model.

[0035] In the diagram: 1. Water bag; 2. Cooling fan; 21. Fan; 3. Water inlet; 4. Water pump; 5. Connector; 51. Female connector; 52. Female connector; 53. Spring 1; 54. T-shaped slider; 55. Plug; 56. Plug ring; 57. T-shaped block; 58. Spring 2; 505. Turnbuckle; 6. Velcro; 7. Insulation cotton; 8. Semiconductor cooling chip. Detailed Implementation

[0036] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0037] Please see Figure 1-4 As shown, this embodiment discloses a water-cooled cooling suit, comprising:

[0038] Water bag 1 consists of a main body and a shoulder section. The main body is located on the back of the body and is approximately rectangular in shape. The shoulder section is a strip-shaped structure that extends upwards. When bent, the strip-shaped structure conforms to the position of the shoulder. Water channels are provided on the upper part of the main body and the shoulder section. The water channels in the main body have an inlet d and an outlet e. Figure 1 As shown, the width of the water channel in the main body is greater than that in the shoulder area. Raised points are fixedly installed within the water channel in the main body. When water flows, these raised points provide resistance to the water flow, slowing its velocity and prolonging the contact time with the body. The raised points are made of the same plastic material as the water bag, and are connected to the water bag using a heat-pressing method. Alternatively, the water channels can be heat-pressed together at point contact points, which also provides resistance to the water flow.

[0039] Waterway configuration at the shoulder position, such as Figure 1 As shown in the middle m, since the shoulder area is approximately the same size when the clothing is worn, an annular water channel m is provided between the shoulder area and the contact area of ​​the water bag body. The annular water channel m is connected to the water channel of the body.

[0040] The annular waterway m extends distally towards the shoulder. One end of the annular waterway m connects to the outlet e, and the other end of the annular waterway m also connects to the outlet e. The diameter of this connection point is smaller than the diameter of the annular waterway m. According to the principles of liquid flow, the smaller the diameter, the greater the resistance; the larger the diameter, the smaller the resistance. Water flows in the direction of less resistance. That is to say, under normal circumstances, water flows from the main waterway into the annular waterway m and flows out from the outlet e.

[0041] The design of connecting both ends of the annular water channel m to the outlet e was conceived by the applicant considering the intended use and environment of the cooling suit. Cooling suits are typically worn by outdoor workers or adventurers, such as during hiking or mountain climbing. In these situations, users often carry backpacks with items on their backs. When the backpack straps are slung over the shoulders, they compress the annular water channel m, obstructing water flow. As water accumulates, the water bag 1 may rupture. By creating a connection point, when the annular water channel m is blocked by the straps, the water flows through the connection point to the outlet e, preventing further compression and ensuring the water bag's proper function.

[0042] Insulation cotton 7 is fitted and installed on the outside of water bag 1. For example... Figure 1 As shown, the water bag and the insulation cotton 7 are attached together using Velcro 6. It is important to note that a sufficient number of Velcro 6 pieces must be used. Figure 1 The placement and quantity of the water bags are determined to ensure a strong bond between the water bags and the insulation cotton.

[0043] The outer side of the insulation cotton 7 is attached to the inner side of the clothing using Velcro. Similarly, sufficient Velcro 6 must be used to ensure a secure bond between the clothing and the insulation cotton 7. The insulation cotton 7 is located between the clothing and the water bag 1. When exposed to sunlight, it provides insulation, preventing the temperature of the tubing and water bag from rising due to sunlight exposure, reducing heat absorption from the outside environment, and thus providing a better cooling effect for the body.

[0044] The cooling fan 2 has internal water pipes connected to both the inlet (d) and outlet (d). A water pump 4 is also installed on the water pipes to provide water flow power. The water pump 4 has an external power supply cable that can be plugged into a charging board. A water inlet 3 is also installed on the water pipes and connected to them for adding liquid. A sealing cap is attached to the water inlet 3 via threads to seal it. Before using the cooling suit, cold water needs to be added to the water inlet 3 while simultaneously turning on the water pump 4 until the water bag is full and circulating water can flow into the water inlet 3. Then, stop adding water and seal the water inlet 3.

[0045] In this embodiment, the cooling fan 2 includes

[0046] case;

[0047] Fan 21 is fixedly installed inside the casing; fan 21 is a centrifugal fan.

[0048] The semiconductor cooling chip 8 is fixedly installed inside the housing and faces the air outlet of the fan 21. When the fan 21 is working, it cools the heating surface of the semiconductor cooling chip 8.

[0049] The pipes are arranged in an S-shape inside the shell and are attached to the cooling surface of the semiconductor refrigeration chip 8. The semiconductor refrigeration chip 8 cools the water in the pipes.

[0050] Currently, the fans and thermoelectric coolers in water-cooled clothing are mostly stacked one on top of the other. When blowing air to dissipate heat from the thermoelectric cooler, the air passes through both the hot and cold sides of the thermoelectric cooler at the same time, which has a certain impact on the cooling effect of the pipeline. However, in this application, the fan 21 and the thermoelectric cooler 8 are arranged horizontally side by side, and the flowing air only passes through the heating side of the thermoelectric cooler 8, which can better remove the heat from the hot side of the thermoelectric cooler 8.

[0051] In this embodiment, as Figure 1 and Figures 4-6 As shown, it also includes connector 5, which has two parts, used to connect the water pipe to the inlet d and the water pipe to the outlet e, respectively.

[0052] Connector 5 includes:

[0053] Sub-connector 51 is connected to outlet e, and a plug connector 55 is fixedly installed at one end of sub-connector 51;

[0054] The female connector 52 is connected to the water pipe, and one end of it has an internal insertion ring 56 for insertion with the connector 55.

[0055] Specifically, such as Figure 5 and Figure 6 As shown, both the connector 55 and the connector ring 56 are provided with stepped holes. A T-shaped slider 54 is slidably installed in the stepped hole of the connector 55. A spring 53 is installed between the large end of the T-shaped slider 54 and the inner side wall of the sub-connector 51. The spring 53 provides an outward elastic force to the T-shaped slider 54.

[0056] A T-shaped block 57 is installed inside the plug ring 56. A spring 58 is installed between the large end of the T-shaped block 57 and the female connector 52, and the spring 58 provides an outward elastic force to the T-shaped block 57. The diameter of the large end of the T-shaped slider 54 and the large end of the T-shaped block 57 is smaller than the diameter of the stepped hole, but larger than the diameter of the small hole in the stepped hole.

[0057] In this embodiment, the thinner ends of the T-shaped slider 54 and the T-shaped block 57 are configured as a Y-shaped intersection to form a water passage hole, such as... Figure 5 As shown, rubber rings are installed between the T-shaped slider 54 and the plug 55, and between the T-shaped block 57 and the plug ring 56. When the T-shaped slider 54 contacts the plug 55, the rubber rings are compressed under the elastic force of spring 53, forming a seal between the large end of the T-shaped slider 54 and the plug 55. Alternatively, when the T-shaped block 57 contacts the plug ring 56, the rubber rings are compressed under the elastic force of spring 58, forming a seal between the large end of the T-shaped block 57 and the plug ring 56.

[0058] In addition, the length of T-block 57 is less than the length of T-slider 54, the movement length of T-block 57 is less than the movement length of T-slider 54, and the elastic force of spring 2 58 is less than or equal to the elastic force of spring 1 53.

[0059] When the female connector 52 and the female connector 51 are inserted together, spring 58 first contracts, the T-block 57 separates from the insertion ring 56 and moves to its limit position. As the insertion of the female connector 52 and the female connector 51 continues, spring 53 contracts, the T-slider 54 separates from the insertion connector 55 and moves upward, the connector 5 is connected, and the pipeline flows. Specifically, as shown... Figure 6 As shown.

[0060] The upper end of the insertion ring 56 is provided with an insertion groove that matches the insertion connector 55. The depth of the insertion groove is greater than the height of the insertion connector 55, and a sealing ring is also installed on the outer wall of the insertion connector 55. When the two are inserted together, the sealing ring is compressed to ensure a seal between them.

[0061] like Figure 7 As shown, a snap fastener 505 is fixedly installed on the outer side of the connector 55, and a matching latch is fixedly installed on the inner side wall of the connector ring 56. Furthermore, the inner side wall of the connector ring 56 has a notch that matches the snap fastener 505. When the two plugs are inserted, the snap fastener 505 enters the notch. The upper surface of the snap fastener 505 has an asymmetrically designed slot. When inserted, the latch automatically engages along the inclined plane. When removed, due to the large force on the vertical surface, to prevent the connector from easily loosening, the connector needs to be pushed to disengage the plane before it can be easily removed.

[0062] like Figure 7 As shown, a protruding mark c is fixedly installed on the outer wall of the female connector 51, and the protruding mark c is directly opposite the buckle 505. A groove mark a is opened on the outer side of the female connector 52, and the groove mark a is directly opposite the notch of the female connector 52. A protruding mark b is fixedly installed on the outer side of the female connector 52, and the protruding mark b is directly opposite the buckle position on the inner side wall of the plug ring 56.

[0063] like Figure 7 As shown, after aligning the protruding mark c of the female connector 51 with the recessed mark a of the female connector 52, insert it into the hole, as shown. Figure 7As shown by arrow A; rotary sub-joint 51, as... Figure 7 As shown by the middle arrow A, align the protruding mark c with the protruding mark b of the female connector, and snap the buckle with the swivel 505. When assembled, there will be a gap of about 0.5mm between the outer walls of the two connectors.

[0064] To remove, push the sub-connector 51 until the gap almost disappears, rotate the sub-connector until the protruding mark c aligns with the groove mark a of the female connector 52, and then pull out the sub-connector.

[0065] With the two connectors separated, the sub-connector 51 is pressed against the T-shaped slider 54 (i.e., the water-stop shaft) by the elastic force of spring 53, and the rubber ring (i.e., the waterproof ring) is compressed, preventing water from flowing from the sub-connector 51 and thus achieving a water-stopping function. Similarly, the female connector 52 is pressed against the T-shaped block 57 (i.e., the water-stop shaft) by the elastic force of spring 58, and the rubber ring (i.e., the waterproof ring) is compressed, preventing water from flowing from the female connector 52 and thus achieving a water-stopping function.

[0066] Compared to existing ordinary plugs, this design ensures that the pipes will not leak when disassembling them. It is also more convenient to use, as it will not cause leaks due to pipe connections.

[0067] Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the present invention, the scope of which is defined by the appended claims and their equivalents.

Claims

1. A water-cooled cooling garment, characterized by, include: A water bag with a water channel at the top, and an inlet and an outlet in the water channel; Insulating cotton is attached to the outside of the water bag; The refrigeration fan has water pipes installed inside, and the water pipes are connected to the inlet and outlet. A water pump, installed on a water pipe, is used to provide power for water flow.

2. The water-cooled cooling garment of claim 1, wherein: It also includes a water inlet, which is fixedly installed on the water pipe and connected to the water pipe for adding liquid to the water pipe.

3. The water-cooled cooling garment of claim 2, wherein: The water inlet is equipped with a sealing cap.

4. The water-cooled cooling garment of claim 1, wherein: It also includes a connector, which is installed on the water pipe for connecting the water pipe to the inlet and the water pipe to the outlet.

5. A water-cooled cooling garment according to any one of claims 1-4, characterized in that: The water bag has a ring-shaped water channel at the shoulder position, which extends from the shoulder position to the farthest end of the water bag. One end of the ring-shaped water channel is connected to the water outlet, and the other end of the ring-shaped water channel is also connected to the water outlet.

6. A water-cooled cooling suit according to claim 3, characterized in that: The cooling fan includes: case; The fan is fixedly installed inside the casing; A semiconductor cooling chip is fixedly installed inside the housing and faces the air outlet of the fan. The fan cools the heating surface of the semiconductor cooling chip.

7. A water-cooled cooling suit according to claim 4, characterized in that: The connector includes: Sub-connector, with a plug fixedly installed at one end of the sub-connector; The female connector has an internal insertion ring at one end for insertion with the plug connector.

8. A water-cooled cooling suit according to claim 7, characterized in that: Both the connector and the connector ring are provided with stepped holes; A T-shaped slider is slidably installed in the stepped hole of the connector. A spring is installed between one end of the T-shaped slider and the inner wall of the sub-connector. The spring provides an outward elastic force to the T-shaped slider. A T-shaped block is installed inside the plug ring. A second spring is installed between one end of the T-shaped block and the female connector. The second spring provides an outward elastic force to the T-shaped block.

9. A water-cooled cooling suit according to claim 8, characterized in that: Rubber rings are installed between the T-shaped block and the insertion ring, as well as between the T-shaped slider and the insertion connector.

10. A water-cooled cooling suit according to claim 1, characterized in that: The water bag has multiple protrusions pressed into its water channels. When water flows, these protrusions provide resistance to the water flow, thereby slowing down the flow rate and prolonging the contact time with the human body.