A modular liquid-cooled connection terminal structure
By combining a fixing plate, a support rod, a fixing pin, and a first spring, the problem of cumbersome connection process for liquid-cooled connectors is solved, enabling rapid fixing and convenient operation, and expanding the application range of the connectors.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SUZHOU DAHAOTE PRECISION PARTS CO LTD
- Filing Date
- 2025-07-15
- Publication Date
- 2026-07-03
AI Technical Summary
The existing liquid cooling connectors have a cumbersome connection process, requiring inconvenient and time-consuming operation through threaded rotation.
The connector employs a combination structure of a fixed plate, support rod, fixing pin, and first spring. Through the action of the through hole and fixing groove, combined with the sliding support, and through the design of the first spring, the fixing plate, support rod, and sliding plate work together, and the fixing pin slides within the fixing groove due to the elasticity of the first spring, thus achieving rapid fixing of the connector. At the same time, the locking rod and locking groove work together to achieve a threaded connection.
It enables quick fixing and convenient operation of the connector, saving time and effort and expanding the scope of application of the connector.
Smart Images

Figure CN224457339U_ABST
Abstract
Description
Technical Field
[0001] This utility model belongs to the technical field of modular liquid-cooled connection terminals, and specifically relates to a modular liquid-cooled connection terminal structure. Background Technology
[0002] Liquid cooling connectors are components that connect heat sinks to the heat dissipation medium. They are an important part of liquid cooling systems, serving to connect and transfer heat. There are various types of liquid cooling connectors, including rigid pipe connectors, flexible pipe connectors, and rotary connectors. Different connectors are suitable for different heat dissipation systems and have different advantages and disadvantages. Liquid cooling connectors have advantages such as good heat dissipation, low noise, energy saving and environmental protection. Compared with traditional heat sinks, liquid cooling connectors can better solve computer heat dissipation problems and improve computer performance.
[0003] In the existing cold chain connector process, the connection is often made by rotating the thread. This is not only cumbersome, but the connector also needs to rotate during the rotation process, making it inconvenient for workers to quickly connect the cold chain connectors, which is time-consuming and labor-intensive. Utility Model Content
[0004] The purpose of this utility model is to provide a modular liquid-cooled connection terminal structure to solve the problem mentioned in the background art, which is that the existing cold chain connectors are often connected by rotating threads. This is not only cumbersome to operate, but also inconvenient to operate because the connector needs to rotate during the rotation process. It also makes it difficult for workers to quickly connect the cold chain connectors, which is time-consuming and labor-intensive.
[0005] To achieve the above objectives, this utility model provides the following technical solution: a liquid-cooled connector body comprising a connector head one and a connector head two, wherein the left side of the connector head two is open, a through hole is provided on the connector head one, a fixing plate is installed in the through hole, a support rod is installed through the fixing plate, two sliding plates are slidably installed on the support rod, four connecting rods are installed on the opposite side of the two sliding plates, and a common fixing pin is installed at one end of the four connecting rods on the same side, two first springs are sleeved on the support rod, and the two ends of the two first springs are respectively fixedly connected to the fixing plate and the sliding plates, fixing grooves are provided on the front and rear sides of the inner wall of the connector head two to cooperate with the fixing pins, threads are provided inside the connector head two, and a threaded groove is provided at the right end of the connector head one.
[0006] By adopting the above solution, a fixed plate, a support rod, a fixing pin, and a first spring are set up. The fixed plate is accommodated and fixed by the through hole, the support rod is supported by the fixed plate, and the fixing pin is slidably supported by the sliding plate and the connecting rod. The elasticity of the first spring causes the fixing pin to retract into the circular hole when compressed. With the action of the fixing groove, the reaction force of the first spring causes the fixing pin to enter the fixing groove to fix the first connector and the second connector. Only the first connector and the second connector need to be moved to fix them, thus making the operation convenient, easy to use, and saving time and effort.
[0007] In a preferred embodiment, baffles are installed at both ends of the support rod, the outer diameter of the baffles is larger than the outer diameter of the locking rod, and the baffles are located between the four connecting rods on the same side.
[0008] By adopting the above solution, baffles are set up at the ends of the support rods to block both ends of the support rods, thereby preventing the skateboard from falling off the support rods when it slides on them, thus improving the stability and firmness of the skateboard when it moves.
[0009] In a preferred embodiment, two second springs are detachably mounted on the front and rear sides of the connector two via an installation assembly. One end of the two second springs on the same side is equipped with the same operating plate. An operating button is installed on the opposite side of the two operating plates. A connecting groove is provided on both the front and rear sides of the connector two. The connecting groove is connected to the fixed groove on the same side, and the operating button is located on one side of the connecting groove.
[0010] By adopting the above scheme, a second spring, an operating plate, and an operating button are set up. The second spring provides elastic support for the operating plate, and the operating plate provides fixed support for the operating button. The operating button is connected to the fixed groove through the connecting groove, and the fixed pin can be moved by the operating button, making the operation convenient.
[0011] In a preferred embodiment, the mounting assembly includes two mounting plates, with two second springs on the same side respectively mounted on the two mounting plates on the same side. Bolts are threaded onto the mounting plates, and the tail ends of the bolts are threadedly connected to the connectors.
[0012] By using the above solution, the second spring is fixed and supported by the mounting plate and bolts. The mounting plate is then threaded to fix the second spring and the operating plate, which also facilitates the disassembly of the second spring at any time. The second spring can be installed or removed according to the user's needs.
[0013] In a preferred embodiment, a telescopic rod is provided inside the second spring, the telescopic rod is mounted on the mounting plate, and the telescopic shaft of the telescopic rod is fixedly connected to the mounting plate.
[0014] By adopting the above solution, a telescopic rod is installed. The telescopic rod fills the interior of the second spring, improving the fullness of the second spring. This prevents the second spring from being deformed by the squeezing or stretching of the operating plate, extends the service life of the second spring, and allows the second spring to work stably.
[0015] In a preferred embodiment, the right side of the connector has two circular holes, both of which are connected to the through hole. A locking rod is provided in each of the two circular holes, and a locking groove is provided on the right side of the fixing pin to cooperate with the locking rod.
[0016] By adopting the above solution, a locking rod is set up and a circular hole is used to accommodate the locking rod. Combined with the cooperation between the locking rod and the locking groove, it is convenient for users to fix the fixing pin by the locking rod when they do not want to fix the first connector and the second connector by fixing the fixing pin. Then, they can be connected by thread, which improves the applicability of the first connector and the second connector.
[0017] In a preferred embodiment, a placement groove is provided on the right side of the connector, and the front and rear ends of the placement groove are respectively connected to two circular holes. A connecting plate is provided in the placement groove, and the two ends of the connecting plate are respectively fixedly connected to two locking rods.
[0018] By adopting the above solution, a connecting plate is set up, and the placement groove is used to accommodate and place the connecting plate. Combined with the function of connecting the two locking rods together, it is convenient for the staff to move the locking rods by moving the connecting plate, thus making the operation convenient and the structure simple.
[0019] In a preferred embodiment, two positioning rings are installed inside the through hole, the connecting rod extends through the positioning rings, and a rubber ring is installed inside the second connector.
[0020] By adopting the above scheme, a positioning ring and a rubber ring are set. The positioning ring controls the position and distance of the fixing pin entering the through hole, so that when the fixing pin is locked, the position of the fixing pin corresponds exactly to the locking pin. Combined with the function of the rubber ring, the firmness of connector one and connector two is increased.
[0021] Compared with the prior art, the beneficial effects of this utility model are:
[0022] This modular liquid-cooled connector structure uses a fixed plate, support rod, fixing pin, and first spring. The fixed plate is accommodated and fixed by the through hole, the support rod is supported by the fixed plate, and the fixing pin is slidably supported by the sliding plate and connecting rod. The elasticity of the first spring causes the fixing pin to retract into the circular hole when compressed. With the help of the fixing groove, the reaction force of the first spring causes the fixing pin to enter the fixing groove to fix connector one and connector two. Only connector one and connector two need to be moved to fix them, making the operation convenient, easy to use, and saving time and effort.
[0023] This modular liquid-cooled connector structure features a locking rod that is accommodated by a circular hole. The locking rod, in conjunction with the locking groove, allows users to secure connector one and connector two by using the locking rod instead of the fixing pin, enabling threaded connection and thus expanding the applicability of connector one and connector two. Attached Figure Description
[0024] Figure 1 This is a schematic diagram of the structure of this utility model;
[0025] Figure 2 This is a schematic diagram of the main cross-sectional structure of connector head one and connector head two of this utility model;
[0026] Figure 3 This is an enlarged structural diagram of point A in this utility model;
[0027] Figure 4 This is a side view of the fixing plate structure of this utility model.
[0028] In the diagram: 1. Connector 1; 2. Connector 2; 3. Fixing plate; 4. Support rod; 5. First spring; 6. Slide plate; 7. Connecting rod; 8. Fixing pin; 9. Positioning ring; 10. Baffle; 11. Locking rod; 12. Connecting plate; 13. Rubber ring; 14. Operating panel; 15. Telescopic rod; 16. Second spring; 17. Operating button; 18. Mounting plate; 19. Bolt; 20. Locking groove. Detailed Implementation
[0029] Please see Figure 1-4This utility model provides a modular liquid-cooled connector structure, including a liquid-cooled connector body composed of connector 1 and connector 2. The left side of connector 2 is open. Connector 1 has a through hole to accommodate a fixing plate 3. The fixing plate 3 is installed in the through hole and supports the support rod 4. The support rod 4 is installed through the fixing plate 3 and slides the slide plate 6. Two slide plates 6 are slidably installed on the support rod 4 and support the connecting rod 7. Four connecting rods 7 are installed on the opposite side of the two slide plates 6 and support the fixing pin 8. The four connecting rods 7 on the same side have the same fixing pin 8 installed at one end. The fixing pin 8 connects and fixes connector 1 and connector 2 by cooperating with the fixing groove. The support rod 4 is sleeved with two first springs 5. The slide plate 6 provides elastic support. The two ends of the two first springs 5 are fixedly connected to the fixed plate 3 and the slide plate 6, respectively. The front and rear sides of the inner wall of the second connector 2 are provided with fixing grooves that cooperate with the fixing pin 8. The second connector 2 is threaded. The right end of the first connector 1 is provided with a threaded groove. By setting the fixed plate 3, support rod 4, fixing pin 8 and first springs 5, the fixed plate 3 is accommodated and fixed by the through hole. The fixed plate 3 supports the support rod 4. The fixing pin 8 is slidably supported by the slide plate 6 and the connecting rod 7. By the elastic action of the first spring 5, the fixing pin 8 retracts into the circular hole when squeezed. With the action of the fixing groove, the reaction force of the first spring 5 makes the fixing pin 8 enter the fixing groove to fix the first connector 1 and the second connector 2. Only the first connector 1 and the second connector 2 need to be moved to fix them, so the operation is convenient, easy to use and saves time and effort.
[0030] Both ends of the support rod 4 are equipped with baffles 10, which are used to block both ends of the support rod 4. The outer diameter of the baffles 10 is larger than the outer diameter of the locking rod 11. The baffles 10 are located between the four connecting rods 7 on the same side. By setting the baffles 10, the baffles 10 are located at the ends of the support rod 4 to block both ends of the support rod 4, thereby preventing the slide plate 6 from falling off the support rod 4 when it slides on the support rod 4, thus improving the stability and firmness of the slide plate 6 when it moves.
[0031] Two second springs 16 are detachably installed on the front and rear sides of connector 2 via mounting components. The second springs 16 provide elastic support for the operating plate 14. One end of the two second springs 16 on the same side is attached to the same operating plate 14, which provides fixed support for the operating button 17. The operating buttons 17 are installed on the opposite sides of the two operating plates 14. The operating buttons 17 drive the fixed pin 8 to move. Connecting slots are provided on both the front and rear sides of connector 2. The connecting slots are connected to the fixed slots on the same side, and the operating button 17 is located on one side of the connecting slot. By setting up the second springs 16, operating plates 14, and operating buttons 17, the second springs 16 provide elastic support for the operating plate 14, and the operating plate 14 provides fixed support for the operating button 17. The operating button 17 is connected to the fixed slot through the connecting slot, and thus the fixed pin 8 can be moved by the operating button 17, making operation convenient.
[0032] The mounting assembly includes two mounting plates 18, which are used to fix and support the second spring 16. The two second springs 16 on the same side are respectively mounted on the two mounting plates 18 on the same side. Bolts 19 are threaded on the mounting plates 18, which are used to support the mounting plates 18. The tail end of the bolt 19 is threadedly connected to the connector 2. By setting up the mounting plates 18 and the bolts 19, the mounting plates 18 are used to fix and support the second spring 16. Combined with the function of the bolts 19, the mounting plates 18 are threadedly fixed, thereby fixing the second spring 16 and the operating plate 14. This also facilitates the disassembly of the second spring 16 at any time. The second spring 16 can be installed or removed according to the user's needs.
[0033] The second spring 16 is equipped with a telescopic rod 15, which fills the interior of the second spring 16. The telescopic rod 15 is mounted on the mounting plate 18, and its telescopic shaft is fixedly connected to the mounting plate 18. By setting the telescopic rod 15, the interior of the second spring 16 is filled, improving the fullness of the interior of the second spring 16. This prevents the second spring 16 from being deformed by the compression or stretching of the operating plate 14, extends the service life of the second spring 16, and allows the second spring 16 to work stably.
[0034] Two circular holes are provided on the right side of connector 1 to accommodate locking rods 11. Both circular holes are connected to through holes, and locking rods 11 are installed in both circular holes to lock the fixing pin 8. The right side of the fixing pin 8 is provided with a locking groove 20 that cooperates with the locking rod 11 to accommodate one end of the locking rod 11. By setting the locking rod 11 and using the circular holes to accommodate the locking rod 11, and by combining the locking rod 11 with the locking groove 20, it is convenient for users to fix connector 1 and connector 2 without using the fixing pin 8. The locking rod 11 can be used to fix the fixing pin 8, and then a threaded connection can be made, thus improving the applicability of connector 1 and connector 2.
[0035] A placement groove is provided on the right side of connector 1. The placement groove is used to place the connecting plate 12. The front and rear ends of the placement groove are respectively connected to two circular holes. The connecting plate 12 is placed in the placement groove and the two locking rods 11 are connected together by the connecting plate 12. The two ends of the connecting plate 12 are respectively fixedly connected to the two locking rods 11. By setting the connecting plate 12 and using the placement groove to accommodate the connecting plate 12, combined with the function of the connecting plate 12 to connect the two locking rods 11, it is convenient for the operator to move the locking rods 11 by moving the connecting plate 12, thus making the operation convenient and the structure simple.
[0036] Two positioning rings 9 are installed inside the through hole. The positioning rings 9 are used to control the movement distance of the fixing pin 8. The connecting rod 7 extends through the positioning rings 9. A rubber ring 13 is installed inside the connector 2. By setting the positioning rings 9 and the rubber ring 13, the position and distance of the fixing pin 8 entering the through hole are controlled by the positioning rings 9. This makes it easier to lock the fixing pin 8 so that the position of the fixing pin 8 corresponds exactly to the locking pin. Combined with the function of the rubber ring 13, the firmness of the connector 1 and connector 2 is increased.
[0037] In use, moving connector 1 gradually brings it closer to connector 2, at which point one end of connector 1 enters connector 2. The movement of connector 1 causes the fixing plate 3 to move, and the fixing plate 3, through the action of the sliding plate 6 and connecting rod 7, moves the fixing pin 8. The fixing pin 8 gradually comes into contact with connector 2. As connector 1 continues to move, the fixing pin 8 is compressed and retracts into the through hole. The movement of the fixing pin 8 causes the connecting rod 7 to move, and the connecting rod 7 causes the sliding plate 6 to slide on the support rod 4, compressing the first spring 5. When the fixing pin 8 moves to the position corresponding to the fixing groove, it is extended into the fixing groove by the reaction force of the first spring 5, thus completing the fixing of connector 1 and connector 2. When it is necessary to separate connector 1 and connector 2, moving the operating plate 14 compresses the second spring 16 and telescopic rod 15. The movement of the operating plate 14 also causes the operating button 17 to move. The operating button 17 moves the fixing pin 8 through the connecting groove into the fixing groove. At this time, one end of the fixing pin 8 is moved out of the fixing groove, and then the connector 1 and connector 2 can be separated. When the operating button 17 is not in use, the bolt 19 is loosened, and the tail end of the bolt 19 moves out of the connector 2. Then the operating plate 14 is moved. The operating plate 14 drives the telescopic rod 15, the second spring 16 and the mounting plate 18 away from the connector 2, thus completing the disassembly of the operating plate 14. When the user wants to use the threaded connection, the fixing pin 8 is moved. The fixing pin 8 moves and abuts against the positioning ring 9. Then the connecting plate 12 is moved. The moving connecting plate 12 drives the locking rod 11 to move. The locking rod 11 moves in the circular hole. At this time, one end of the locking rod 11 moves out of the circular hole and extends into the through hole, and then enters the locking groove 20 on the fixing pin 8. The fixing pin 8 is locked by the locking rod 11, so that the fixing pin 8 can be fixed in the through hole. Then the connector 1 and connector 2 can be connected by threads.
Claims
1. A modular liquid-cooled connection terminal structure, characterized in that: The liquid-cooled connector body consists of connector one (1) and connector two (2). The left side of connector two (2) is open. Connector one (1) has a through hole. A fixing plate (3) is installed in the through hole. A support rod (4) is installed through the fixing plate (3). Two sliding plates (6) are slidably installed on the support rod (4). Four connecting rods (7) are installed on the opposite side of the two sliding plates (6). One end of the four connecting rods (7) on the same side is installed with the same fixing pin (8). Two first springs (5) are sleeved on the support rod (4). The two ends of the two first springs (5) are fixedly connected to the fixing plate (3) and the sliding plate (6) respectively. Fixing grooves (20) that cooperate with the fixing pins (8) are opened on the front and rear sides of the inner wall of connector two (2). Threads are provided in connector two (2). A threaded groove is provided on the right end of connector one (1).
2. The modular liquid-cooled connection terminal structure of claim 1, wherein: Both ends of the support rod (4) are equipped with baffles (10), the outer diameter of the baffles (10) is larger than the outer diameter of the locking rod (11), and the baffles (10) are located between the four connecting rods (7) on the same side.
3. The modular liquid-cooled connection terminal structure of claim 1, wherein: Two second springs (16) are detachably installed on the front and rear sides of the connector (2) via an installation assembly. One end of the two second springs (16) on the same side is equipped with the same operating plate (14). An operating button (17) is installed on the opposite side of the two operating plates (14). A connecting groove is provided on both the front and rear sides of the connector (2). The connecting groove is connected to the fixing groove (20) on the same side, and the operating button (17) is located on one side of the connecting groove.
4. The modular liquid-cooled connection terminal structure of claim 3, wherein: The mounting assembly includes two mounting plates (18), and two second springs (16) on the same side are respectively mounted on the two mounting plates (18) on the same side. Bolts (19) are threaded on the mounting plates (18), and the tail end of the bolts (19) is threadedly connected to the connector (2).
5. The modular liquid-cooled connection terminal structure of claim 4, wherein: The second spring (16) is provided with a telescopic rod (15), which is mounted on the mounting plate (18), and the telescopic shaft of the telescopic rod (15) is fixedly connected to the mounting plate (18).
6. The modular liquid-cooled connection terminal structure of claim 1, wherein: The connector (1) has two circular holes on its right side, both of which are connected to the through hole. Each of the two circular holes is equipped with a locking rod (11). The right side of the fixing pin (8) is provided with a locking groove that cooperates with the locking rod (11).
7. The modular liquid-cooled connection terminal structure of claim 6, wherein: The right side of the connector (1) is provided with a placement groove. The front and rear ends of the placement groove are respectively connected to two circular holes. A connecting plate (12) is provided in the placement groove. The two ends of the connecting plate (12) are respectively fixedly connected to two locking rods (11).
8. The modular liquid-cooled connection terminal structure of claim 1, wherein: Two positioning rings (9) are installed in the through hole, the connecting rod (7) extends through the positioning rings (9), and a rubber ring (13) is installed in the second connector (2).