A base for a computer gateway
By employing a quick-fix mechanism and a rotating sleeve with a locking block design, the problem of cumbersome installation of traditional gateway devices is solved, enabling rapid installation and convenient disassembly, thereby improving operational efficiency and equipment safety.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- BEIJING GUOSHANG WEALTH CREATION TECHNOLOGY CO LTD
- Filing Date
- 2025-08-05
- Publication Date
- 2026-06-26
AI Technical Summary
Traditional computer gateway devices are cumbersome to install and remove, requiring specialized tools and complex operations, which can easily lead to device damage, increasing maintenance costs and security risks.
It adopts a quick-fix mechanism, including a structure in which a fixing plate and a plug-in rod cooperate. The plug-in connection does not require special tools. Combined with the locking mechanism of the rotating sleeve and the locking block and the positioning mechanism, it can achieve quick installation and disassembly.
It simplifies the installation process, improves installation efficiency, reduces the technical skill requirements for operators, avoids the risk of equipment damage, and ensures the reliability of connections and the ease of disassembly.
Smart Images

Figure CN224418893U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of computer gateway technology, and more specifically, it relates to a base for a computer gateway. Background Technology
[0002] With the continuous development of network technology and the popularization of intelligent office environments, various network access devices are increasingly widely used in enterprises, homes, public places and other environments, which puts forward higher standards for the convenience of device installation and the efficiency of maintenance.
[0003] Traditional equipment base fixing methods mostly use screw fixing or clip locking structures. These methods require specialized tools such as screwdrivers to connect the equipment to the base by rotating multiple screws or operating complex locking mechanisms. The entire installation process not only takes a considerable amount of time but also demands a certain level of technical experience and skill from the operators. When the equipment needs troubleshooting, function upgrades, or relocation, the disassembly process is equally cumbersome, reducing work efficiency and potentially causing damage to the equipment or base due to improper operation, increasing maintenance costs and safety risks. Utility Model Content
[0004] (a) Technical problems to be solved
[0005] In view of the problems existing in the prior art, the present invention provides a base for a computer gateway to solve the technical problems mentioned in the background art.
[0006] (II) Technical Solution
[0007] To achieve the above objectives, this utility model provides the following technical solution: a base for a computer gateway, comprising a gateway body and a base, wherein the base is provided with a quick-fix mechanism, the quick-fix mechanism comprising a fixing plate and insert rods, the fixing plate having multiple sets of abutting against the outer wall of the gateway body, the insert rod having multiple sets of fixed fixings on the top surface of the base and each having an insert block fixedly fixed on its outer wall, the fixing plate having multiple sets of insert holes, each set of insert holes being inserted into multiple sets of insert blocks, the top of the insert rod having a rotating sleeve, the inner wall of the rotating sleeve having a locking block fixedly fixedly fixedly fixedly, the locking block having multiple sets of a locking hole fixedly fixedly, the outer wall of the insert rod having an mounting block fixedly fixedly fixedly, the mounting block having multiple sets of a locking plate fixedly fixedly, the bottom surface of the rotating sleeve being rotatably connected to a fixing sleeve, the fixing sleeve abutting against the top surface of the fixing plate.
[0008] The present invention is further configured such that an installation groove is provided on the top surface of the base, and the gateway body is disposed in the installation groove. The installation groove enables precise positioning and stable support of the gateway body, preventing displacement or tilting of the device during use, thereby improving the accuracy of device installation and the stability of use.
[0009] The present invention is further configured such that a positioning mechanism is provided on the outer side of the rotating sleeve, the positioning mechanism including positioning grooves and positioning blocks. Multiple sets of positioning grooves are distributed on the outer wall of the fixed sleeve, and multiple sets of positioning blocks are slidably mounted on the outer wall of the rotating sleeve. A limiting sleeve is slidably mounted on the outer wall of the fixed sleeve, and a support rod is fixedly mounted on the bottom surface of the limiting sleeve. An unlocking sleeve is rotatably mounted on the outer wall of the fixed sleeve, and the top surface of the unlocking sleeve abuts against multiple sets of support rods. An unlocking hole is opened on the top surface of the unlocking sleeve, and multiple sets of unlocking holes are provided. The positioning mechanism enables precise control and reliable locking of the rotational position of the rotating sleeve. The cooperative design of the unlocking sleeve and the support rod makes the unlocking operation more convenient and controllable, ensuring the positional accuracy and operational safety of the quick-locking mechanism in the locked and unlocked states.
[0010] The present invention is further configured such that a linkage block is fixedly provided on the inner wall of the fixed sleeve, and a linkage groove is provided on the outer wall of the insert block. Multiple sets of linkage blocks and linkage grooves are provided and are inserted into each other. The mechanical linkage transmission between the fixed sleeve and the insert block is realized through the insertion and cooperation of the linkage blocks and linkage grooves, which ensures the coordination and synchronization of the actions of each component of the quick-fix mechanism and improves the transmission reliability and operation stability of the overall structure.
[0011] The present invention is further configured such that a push spring is connected to the top surface of the insert block, an abutment ring is fixedly provided at the top of the push spring, and an abutment ring is fixedly provided on the inner wall of the fixing sleeve. The elastic action of the push spring provides an automatic reset function. The cooperative design of the abutment ring and the abutment ring ensures buffer protection and stable connection during the insertion process, avoids damage to components caused by excessive impact force, and improves service life and operating comfort.
[0012] The present invention is further configured such that each of the top ends of the multiple sets of positioning blocks is connected to a reset spring, and the bottom ends of the multiple sets of reset springs are fixedly connected to the outer wall of the rotating sleeve. The reset springs provide automatic rebound force to the positioning blocks, ensuring that the positioning blocks can be disengaged from the positioning slots in time during the unlocking operation. This realizes the automatic release function of the positioning mechanism, simplifies the operation process, and improves the reliability of the unlocking action.
[0013] The present invention is further configured such that springs are provided on the outer walls of the multiple sets of support rods, the top ends of the multiple sets of springs are fixedly connected to the limiting sleeve, and the bottom ends of the multiple sets of springs are provided with rounded corners and abut against the top surface of the unlocking sleeve. The elastic support of the springs provides stable support and reset force for the limiting sleeve. The rounded corner design reduces the frictional resistance when in contact with the unlocking sleeve, making the unlocking and reset actions smoother and more stable, improving the convenience of operation and service life.
[0014] The present invention is further configured such that the outer wall of the fixed sleeve is provided with a guide groove, and multiple sets of guide grooves are provided and slidably connected with the limiting sleeve. The guide grooves provide a precise guide trajectory for the sliding movement of the limiting sleeve, preventing the limiting sleeve from deviating or getting stuck during the sliding process, and ensuring the accuracy and smoothness of the unlocking and locking actions.
[0015] (III) Beneficial Effects
[0016] Compared with the prior art, this utility model provides a base for a computer gateway, which has the following advantages:
[0017] 1. This device solves the technical problem of cumbersome installation of traditional gateway equipment by designing a quick-connect mechanism. The mechanism adopts a structure in which a fixing plate and a plug rod cooperate. The fixing plate can directly abut against the outer wall of the gateway body, and the plug block fixed on the plug rod can quickly connect with the plug hole on the fixing plate. There is no need to use special tools such as screwdrivers to tighten each bolt one by one, which greatly simplifies the installation process and significantly shortens the installation time. Operators only need to perform simple plug-in actions to complete the reliable fixation of the equipment to the base, which effectively improves the installation efficiency and reduces the technical requirements of the operators, avoiding the risk of equipment damage due to improper operation.
[0018] 2. This device innovatively adopts a locking mechanism that combines a rotating sleeve and a locking block, as well as a positioning control method based on a positioning mechanism. By rotating the rotating sleeve, the locking block rotates, allowing the locking plate to engage with the locking hole and achieve reliable locking. At the same time, the engagement between the positioning block and the positioning groove ensures the positional stability of the rotating sleeve in the locked state. When it is necessary to disassemble the device, the unlocking sleeve is rotated to operate the engagement relationship between the unlocking hole and the support rod, pushing the limiting sleeve to release its abutment against the positioning block. The return spring is used to pull the positioning block away from the positioning groove to release the positioning restriction. Rotating the rotating sleeve again allows for the rapid separation of the locking plate from the locking hole. The entire disassembly process is simple to operate and the steps are clear, avoiding the tedious process of loosening multiple fixed points one by one in the traditional method.
[0019] 3. This device ensures a stable connection and reliable mechanical transmission between the fixed sleeve and the insertion rod through the interlocking of the linkage block and the linkage groove, as well as the elastic support design of the push spring and the abutment ring. The elastic recovery characteristic of the push spring ensures that each component can automatically return to its initial state during disassembly. The coordinated action of multiple sets of springs and the return spring enables smooth positioning and unlocking actions. The sliding connection of the limit sleeve through the guide groove ensures the accuracy of the movement trajectory and the reliability of operation. The overall structure is reasonably compact, which not only ensures the firmness and reliability of the connection, but also achieves convenient and efficient operation, meeting the comprehensive technical requirements of modern network environment for convenient equipment installation, efficient disassembly and connection reliability. Attached Figure Description
[0020] Figure 1 This is a schematic diagram of the overall structure of a base for a computer gateway according to the present invention.
[0021] Figure 2 This is a schematic diagram of the disassembly structure of the fixing plate in this utility model;
[0022] Figure 3 This is a partial structural diagram of the fixed sleeve and the insertion rod in the disassembled state of this utility model;
[0023] Figure 4 This is a cross-sectional view of the fixed sleeve and the rotating sleeve in this utility model;
[0024] Figure 5 This is a cross-sectional view of the rotating sleeve and the limiting sleeve in this utility model.
[0025] In the diagram: 1. Gateway body; 2. Base; 3. Fixing plate; 4. Insert rod; 5. Insert block; 6. Insert hole; 7. Rotating sleeve; 8. Locking block; 9. Locking hole; 10. Mounting block; 11. Locking plate; 12. Fixing sleeve; 13. Mounting groove; 14. Positioning groove; 15. Positioning block; 16. Limiting sleeve; 17. Support rod; 18. Unlocking sleeve; 19. Unlocking hole; 20. Linkage block; 21. Linkage groove; 22. Push spring; 23. Abutment ring; 24. Abutment ring; 25. Return spring; 26. Spring; 27. Guide groove. Detailed Implementation
[0026] It should be noted that, unless otherwise specified, the embodiments and features described in this application can be combined with each other. The present invention will now be described in detail with reference to the accompanying drawings and embodiments.
[0027] It should be noted that, unless otherwise specified, all technical and scientific terms used in this application have the same meaning as commonly understood by one of ordinary skill in the art to which this application pertains.
[0028] In this utility model, unless otherwise stated, the orientations used, such as "up" and "down", usually refer to the direction shown in the accompanying drawings, or to the vertical, perpendicular, or gravitational direction; similarly, for ease of understanding and description, "left" and "right" usually refer to the left and right shown in the accompanying drawings; "inner" and "outer" refer to the inner and outer contours of each component itself, but the above directional terms are not used to limit this utility model.
[0029] Please see Figures 1-5A base for a computer gateway includes a gateway body 1 and a base 2. The base 2 is provided with a quick-fix mechanism, which includes a fixing plate 3 and a plug rod 4. The fixing plate 3 is provided with multiple sets of abutting against the outer wall of the gateway body 1. The plug rod 4 is provided with multiple sets of fixed blocks 5 on the top surface of the base 2 and the outer wall of each set is fixedly provided with a plug block 5. The fixing plate 3 is provided with multiple sets of plug holes 6, which are respectively inserted into multiple sets of plug blocks 5. The top of the plug rod 4 is provided with a rotating sleeve 7. The inner wall of the rotating sleeve 7 is fixedly provided with a locking block 8. Multiple sets of locking blocks 8 are provided and the outer wall of each set is provided with a locking hole 9. The outer wall of the plug rod 4 is fixedly provided with an installation block 10. Multiple sets of installation blocks 10 are provided and the outer wall of each set is fixedly provided with a locking plate 11. The bottom surface of the rotating sleeve 7 is rotatably connected to a fixing sleeve 12, which abuts against the top surface of the fixing plate 3.
[0030] The top surface of the base 2 is provided with a mounting groove 13, and the gateway body 1 is set in the mounting groove 13. This design adopts the groove positioning principle. By matching the geometry of the mounting groove 13 with the shape of the gateway body 1, a stable embedded positioning structure is formed. The geometric constraint principle is used to restrict the horizontal movement of the gateway body 1, ensuring the accuracy and stability of the device installation position.
[0031] A positioning mechanism is provided on the outer side of the rotating sleeve 7. The positioning mechanism includes a positioning groove 14 and a positioning block 15. Multiple sets of positioning grooves 14 are distributed on the outer wall of the fixed sleeve 12. Multiple sets of positioning blocks 15 are all slidable on the outer wall of the rotating sleeve 7. A limiting sleeve 16 is slidably provided on the outer wall of the fixed sleeve 12. A support rod 17 is fixedly provided on the bottom surface of the limiting sleeve 16. An unlocking sleeve 18 is rotatably provided on the outer wall of the fixed sleeve 12. The top surface of the unlocking sleeve 18 abuts against multiple sets of support rods 17. An unlocking hole 19 is opened on the top surface of the unlocking sleeve 18. Multiple sets of unlocking holes 19 are provided. This structure adopts the mechanical positioning and unlocking linkage principle. The angular positioning of the rotating sleeve 7 is achieved by the engagement of the positioning block 15 and the positioning groove 14. The abutment of the support rod 17 and the unlocking sleeve 18 forms a locked state. When the unlocking hole 19 is aligned with the support rod 17, the restriction is released, realizing a controllable locking and unlocking function.
[0032] The inner wall of the fixed sleeve 12 is fixedly provided with a linkage block 20, and the outer wall of the insert block 5 is provided with a linkage groove 21. Multiple sets of linkage blocks 20 and linkage grooves 21 are provided and are inserted into each other. This design adopts the keyway transmission principle. The linkage block 20 is embedded in the linkage groove 21 as a transmission key to form a reliable mechanical connection, ensuring synchronous movement and torque transmission between the fixed sleeve 12 and the insert block 5, and realizing coordinated linkage of the actions of each component.
[0033] A push spring 22 is connected to the top surface of the insert 5. An abutment ring 23 is fixedly provided at the top of the push spring 22. An abutment ring 24 is fixedly provided on the inner wall of the fixing sleeve 12. This structure adopts the principle of elastic buffering and reset. The push spring 22 provides elastic restoring force, and the abutment ring 23 and the abutment ring 24 form an elastic contact interface, which plays a buffering and protection role during the insertion process, and provides automatic reset force when separating.
[0034] Each of the multiple positioning blocks 15 has a return spring 25 connected to its top end, and the bottom ends of the multiple return springs 25 are fixedly connected to the outer wall of the rotating sleeve 7. This design is based on the principle of elastic rebound. The return spring 25 provides an outward elastic force to the positioning block 15. When the external constraint is released, the positioning block 15 can be automatically pulled out of the positioning groove 14, realizing the automatic release function of the positioning mechanism.
[0035] The outer walls of multiple support rods 17 are equipped with springs 26. The tops of the multiple springs 26 are fixedly connected to the limiting sleeves 16. The bottoms of the multiple springs 26 are rounded and abut against the top surface of the unlocking sleeves 18. This structure adopts the principle of elastic support and guidance. The springs 26 provide upward elastic support force for the limiting sleeves 16. The rounded corner design reduces contact friction and ensures the smooth movement and reliable reset of the limiting sleeves 16 in the vertical direction.
[0036] The outer wall of the fixed sleeve 12 is provided with a guide groove 27. Multiple sets of guide grooves 27 are provided and are slidably connected to the limiting sleeve 16. This design is based on the principle of sliding guidance. The guide groove 27 provides a precise guide track for the movement of the limiting sleeve 16. The geometric constraint of the groove wall ensures that the limiting sleeve 16 can only move in a predetermined direction, preventing lateral deviation and jamming.
[0037] In this embodiment, when the gateway body 1 needs to be installed, the gateway body 1 is inserted into the mounting slot 13, multiple sets of fixing plates 3 are abutted against the top surface of the gateway body 1, and multiple sets of insertion holes 6 are inserted into the insertion blocks 5. The fixing sleeve 12 is inserted into the insertion rod 4, and multiple sets of linkage blocks 20 are inserted into the linkage slot 21. At the same time, the abutment ring 24 pushes the abutment ring 23 and squeezes the push spring 22. The unlocking sleeve 18 is rotated so that multiple sets of unlocking holes 19 move to below the support rod 17, so that multiple sets of support rod 17 release from the abutment of the unlocking sleeve 18. The limiting sleeve 16 is pushed to release the abutment of multiple sets of positioning blocks 15, and at the same time, multiple sets of support rod 17 release from the abutment of the positioning blocks 15. The rod 17 slides into the unlocking hole 19 and compresses the multiple sets of springs 26 through the limiting sleeve 16. The multiple sets of reset springs 25 pull the positioning block 15 away from the positioning groove 14, releasing the positioning of the rotating sleeve 7. The rotating sleeve 7 rotates the multiple sets of locking blocks 8 so that the multiple sets of locking plates 11 are inserted into the locking holes 9. Then the limiting sleeve 16 is released, and the multiple sets of springs 26 push the limiting sleeve 16 to abut against the top of the multiple sets of positioning blocks 15, so that the bottom of the multiple sets of positioning blocks 15 abuts against the positioning groove 14, positioning the rotating sleeve 7. The unlocking sleeve 18 is rotated so that the support rod 17 abuts against the top surface of the unlocking sleeve 18, completing the installation of the gateway body 1.
[0038] More specifically, when the gateway body 1 needs to be disassembled, rotating the unlocking sleeve 18 causes multiple unlocking holes 19 to move below the support rod 17, releasing the unlocking sleeve 18 from abutting the multiple support rods 17, pushing the limiting sleeve 16 to release the abutting of the multiple positioning blocks 15, and at the same time causing the multiple support rods 17 to slide into the unlocking holes 19 and compress the multiple springs 26 through the limiting sleeve 16, pulling the positioning blocks 15 out of the positioning grooves 14 through the multiple reset springs 25, releasing the positioning of the rotating sleeve 7, rotating the rotating sleeve 7 causes multiple locking plates 11 to disengage from the locking holes 9, releasing the locking between the rotating sleeve 7 and the insertion rod 4, and pushing the abutting ring 23 through the push spring 22 to reset, the abutting ring 23 pushes the abutting ring 24 to disengage from the fixing sleeve 12 and the insertion rod 4, releasing the abutting of the fixing plate 3, and then the gateway body 1 can be disassembled.
[0039] In summary, during the use or operation of the overall equipment: when the gateway body 1 needs to be installed, the gateway body 1 is inserted into the mounting slot 13, multiple sets of fixing plates 3 are abutted against the top surface of the gateway body 1, and multiple sets of insertion holes 6 are inserted into the insertion blocks 5. The fixing sleeve 12 is inserted into the insertion rod 4, and multiple sets of linkage blocks 20 are inserted into the linkage slot 21. At the same time, the abutment ring 24 pushes the abutment ring 23 and squeezes the push spring 22. The unlocking sleeve 18 is rotated so that multiple sets of unlocking holes 19 move below the support rod 17, so that multiple sets of support rod 17 release from contact with the unlocking sleeve 18. The limiting sleeve 16 is pushed to release from contact with multiple sets of positioning blocks 15. Multiple sets of support rods 17 slide into the unlocking hole 19 and compress multiple sets of springs 26 through the limiting sleeve 16. Multiple sets of reset springs 25 pull the positioning block 15 away from the positioning groove 14, releasing the positioning of the rotating sleeve 7. Rotating the rotating sleeve 7 drives multiple sets of locking blocks 8 to rotate, causing multiple sets of locking plates 11 to be inserted into the locking hole 9. Then, the limiting sleeve 16 is released, and multiple sets of springs 26 push the limiting sleeve 16 to abut against the top of multiple sets of positioning blocks 15, so that the bottom of multiple sets of positioning blocks 15 abuts against the positioning groove 14, positioning the rotating sleeve 7. Rotating the unlocking sleeve 18 causes the support rod 17 to abut against the top surface of the unlocking sleeve 18, completing the installation of the gateway body 1.
[0040] When the gateway body 1 needs to be disassembled, rotating the unlocking sleeve 18 moves multiple unlocking holes 19 below the support rod 17, releasing the unlocking sleeve 18 from abutting the multiple support rods 17, pushing the limiting sleeve 16 to release the abutting of the multiple positioning blocks 15, and at the same time, causing the multiple support rods 17 to slide into the unlocking holes 19 and compress the multiple springs 26 through the limiting sleeve 16, pulling the positioning blocks 15 out of the positioning grooves 14 through the multiple reset springs 25, releasing the positioning of the rotating sleeve 7, rotating the rotating sleeve 7 to release the multiple locking plates 11 from the locking holes 9, releasing the locking between the rotating sleeve 7 and the insertion rod 4, and pushing the abutting ring 23 through the push spring 22 to reset, the abutting ring 23 pushes the abutting ring 24 to release the insertion of the fixing sleeve 12 and the insertion rod 4, releasing the abutting of the fixing plate 3, and then the gateway body 1 can be disassembled.
[0041] Of all the solutions mentioned above, those involving connections between two components can be selected based on the actual situation, such as welding, bolt and nut connection, bolt or screw connection, or other well-known connection methods. These will not be elaborated on here. For all the fixed connections mentioned above, welding is the preferred option.
[0042] In all the solutions mentioned above, those involving the operation of electrical components, unless otherwise specified, are controlled by a controller. Since the devices matched with the controllers are common devices, their control principles and circuit connections are existing, well-known, and mature technologies, and their specific circuit structures will not be described in detail here.
[0043] Of all the solutions mentioned above, those involving motors can be combined with reducers if necessary. The connection structure and working principle between the motor and the reducer are existing known technologies and will not be addressed in this utility model.
[0044] 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 base for a computer gateway, comprising a gateway body (1) and a base (2), characterized in that: The base (2) is provided with a quick-fix mechanism, which includes a fixing plate (3) and a plug rod (4). The fixing plate (3) is provided with multiple sets of abutting against the outer wall of the gateway body (1). The plug rod (4) is provided with multiple sets of fixed blocks (5) on the top surface of the base (2). The fixing plate (3) is provided with a plug hole (6). The plug hole (6) is provided with multiple sets and is respectively inserted into multiple sets of plug blocks (5). The top of the plug rod (4) is provided with a rotating sleeve (7). The inner wall of the rotating sleeve (7) is provided with a locking block (8). The locking block (8) is provided with multiple sets and the outer wall is provided with a locking hole (9). The outer wall of the plug rod (4) is provided with an installation block (10). The installation block (10) is provided with multiple sets and the outer wall is provided with a locking plate (11). The bottom surface of the rotating sleeve (7) is rotatably connected to a fixing sleeve (12). The fixing sleeve (12) abuts against the top surface of the fixing plate (3).
2. The base for a computer gateway according to claim 1, characterized in that: The top surface of the base (2) is provided with an installation groove (13), and the gateway body (1) is set in the installation groove (13).
3. A base for a computer gateway according to claim 2, characterized in that: The rotating sleeve (7) is provided with a positioning mechanism on its outer side. The positioning mechanism includes a positioning groove (14) and a positioning block (15). The positioning groove (14) is provided with multiple sets distributed on the outer wall of the fixed sleeve (12). The positioning block (15) is provided with multiple sets that slide on the outer wall of the rotating sleeve (7). The outer wall of the fixed sleeve (12) is provided with a limiting sleeve (16). The bottom surface of the limiting sleeve (16) is fixedly provided with a support rod (17). The outer wall of the fixed sleeve (12) is provided with an unlocking sleeve (18). The top surface of the unlocking sleeve (18) abuts against multiple sets of support rods (17). The top surface of the unlocking sleeve (18) is provided with an unlocking hole (19). The unlocking hole (19) is provided with multiple sets.
4. A base for a computer gateway according to claim 3, characterized in that: The inner wall of the fixed sleeve (12) is fixedly provided with a linkage block (20), and the outer wall of the insert block (5) is provided with a linkage groove (21). The linkage block (20) and the linkage groove (21) are provided with multiple sets and are inserted into each other.
5. A base for a computer gateway according to claim 4, characterized in that: The top surface of the insert (5) is connected to a push spring (22), the top end of the push spring (22) is fixed with an abutment ring (23), and the inner wall of the fixing sleeve (12) is fixed with an abutment ring (24).
6. A base for a computer gateway according to claim 5, characterized in that: multiple sets Each of the positioning blocks (15) is connected to a reset spring (25) at its top end, and the bottom ends of multiple sets of reset springs (25) are fixedly connected to the outer wall of the rotating sleeve (7).
7. A base for a computer gateway according to claim 6, characterized in that: multiple sets The outer wall of each support rod (17) is provided with springs (26). The top of each set of springs (26) is fixedly connected to the limiting sleeve (16). The bottom of each set of springs (26) is provided with rounded corners and abuts against the top surface of the unlocking sleeve (18).
8. A base for a computer gateway according to claim 7, characterized in that: The outer wall of the fixed sleeve (12) is provided with a guide groove (27), and the guide groove (27) is provided in multiple sets and is slidably connected to the limiting sleeve (16).