A high-voltage disconnector outlet seat

Abstract

The utility model discloses a high -tension isolator outlet seat, including external connection mechanism, internal connection mechanism and fixed establishment, the external connection mechanism includes outer end block, the fixed plate of fixed in the bottom of outer end block, the external connection wire mouth of setting in the outer end of outer end block, fixedly installed the electrically conductive column in the inside of outer end block and the top is located in the external connection wire mouth, the wire of fixed connection in the bottom of electrically conductive column, fixed connection the electrically conductive head in the bottom of wire, the internal connection mechanism includes the inner end block of fixed installation in the bottom of fixed plate. By setting up external connection wire mouth on outer end block for connecting external connection wire, so that the line damage, only need to replace corresponding external connection wire, simple and convenient, do not need to disassemble the isolator, improve the practicality of device, adopt the hollow design of bidirectional bolt simultaneously, so that bidirectional bolt not only can connect the inner end block in the inside of fixed plate, also can connect the end of isolator in the outside of bidirectional bolt, realize sealing, improved the reliability of structure.

Description

Technical Field

[0001] This utility model relates to the field of outlet socket technology, specifically a high-voltage disconnect switch outlet socket. Background Technology

[0002] A cable management outlet is a device commonly found in furniture, appliances, and industrial equipment. Its main function is to organize and guide cables, ensuring neat and orderly wiring while providing some protection. For example, in an office desk, a cable management outlet helps organize the cables of computers, telephones, and other devices; in electrical equipment, it may involve sealing or dustproof designs to enhance safety. The structure and materials of cable management outlets vary depending on the application scenario, but the core goal is always to optimize cable management. For high-voltage disconnect switches, superior dustproof isolation is required. However, when the wiring connected to the switch is damaged and needs repair, because the connection points are all internal, it needs to be disassembled for repair. This process allows dust and other contaminants to enter the interior, affecting its use. Therefore, a high-voltage disconnect switch cable management outlet is proposed. Utility Model Content

[0003] This utility model aims to solve one of the technical problems existing in the prior art or related technologies.

[0004] Therefore, the technical solution adopted by this utility model is as follows:

[0005] A high-voltage disconnect switch outlet base includes an external connection mechanism, an internal connection mechanism, and a fixing mechanism. The external connection mechanism includes an outer end block, a fixing plate fixed to the bottom of the outer end block, an external wiring port opened at the outer end of the outer end block, a conductive post fixedly installed inside the outer end block with its top end located inside the external wiring port, a wire fixedly connected to the bottom end of the conductive post, and a conductive head fixedly connected to the bottom end of the wire. The internal connection mechanism includes an inner end block fixedly installed at the bottom of the fixing plate, an internal wiring port opened on the side of the inner end block, a positioning buckle located on the inner wall at the top of the opening of the internal wiring port, a fixing head slidably connected inside the internal wiring port, and a sliding rod connected to the bottom of the fixing head and penetrating the end of the inner end block. The fixing mechanism includes a rotating post rotatably engaged in the middle of the outer end block, a threaded rod threadedly connected to the middle of the rotating post, a movable plate fixedly installed at the bottom end of the threaded rod, and a limiting rod provided on the side of the movable plate for limiting movement.

[0006] Preferably, an insulating screw is threaded to the side of the top of the outer end block, the bottom of the outer end block extends into the external wiring port, an external wire is inserted into the external wiring port, and the bottom of the insulating screw abuts against the external wire.

[0007] Preferably, a bidirectional bolt is inserted into the side of the fixing plate, the bottom end of the bidirectional bolt is threaded to the inner end block, and a threaded hole is opened on the central axis of the bidirectional bolt.

[0008] Preferably, the conductive head is located inside the inner wiring port, and the size of the conductive head is smaller than the inner diameter of the fixed head.

[0009] Preferably, the positioning buckle is ring-shaped, and the inner ring of the positioning buckle is provided with a spherical protrusion.

[0010] Preferably, the inner end block has a through hole in the middle that fits the rotating column, and the bottom end of the rotating column extends through the through hole to the outer side of the bottom end of the inner end block.

[0011] Preferably, a spring is sleeved at the end of the sliding rod, and the end of the sliding rod abuts against the inner side of the moving plate.

[0012] Preferably, the other end of the limiting rod is inserted into the inner end block.

[0013] By adopting the above technical solution, the beneficial effects achieved by this utility model are as follows:

[0014] In this invention, an external wiring port is provided on the outer end block for connecting external wires. When the line is damaged, only the corresponding external wire needs to be replaced, which is simple and convenient. There is no need to disassemble the disconnecting switch, which improves the practicality of the device. At the same time, the hollow design of the bidirectional bolt allows the bidirectional bolt to not only connect the inner end block to the inside of the fixing plate, but also connect the end of the disconnecting switch to the outside of the bidirectional bolt, achieving a seal and improving the reliability of the structure. Attached Figure Description

[0015] Fig. 1 This is a cross-sectional schematic diagram of one embodiment of the present utility model;

[0016] Fig. 2 This is a front view schematic diagram of an embodiment of the present utility model;

[0017] Fig. 3 This is a top view schematic diagram of one embodiment of the present utility model.

[0018] Figure label:

[0019] 110. External end block; 111. Insulating screw; 112. External wire; 120. Fixing plate; 121. Two-way bolt; 130. External connection port; 140. Conductive post; 150. Wire; 160. Conductive head;

[0020] 210. Inner end block; 220. Inner wiring port; 230. Positioning buckle; 240. Fixing head; 250. Sliding rod;

[0021] 310. Rotating column; 320. Threaded rod; 330. Moving plate; 340. Limiting rod. Detailed Implementation

[0022] To make the objectives, technical solutions, and advantages of this utility model clearer, the present utility model will be further described in detail below with reference to specific embodiments and accompanying drawings. It should be noted that, unless otherwise specified, the embodiments and features of the present utility model can be combined with each other.

[0023] The following describes, with reference to the accompanying drawings, some embodiments of the present invention, providing a high-voltage disconnect switch outlet base. Example

[0024] Combination Figs. 1-3 As shown, this utility model provides a high-voltage disconnect switch outlet base, including an external connection mechanism, an internal connection mechanism, and a fixing mechanism. The external connection mechanism includes an outer end block 110, a fixing plate 120 fixed to the bottom of the outer end block 110, an external connection port 130 opened at the outer end of the outer end block 110, a conductive post 140 fixedly installed inside the outer end block 110 with its top end located inside the external connection port 130, a wire 150 fixedly connected to the bottom end of the conductive post 140, and a conductive head 160 fixedly connected to the bottom end of the wire 150. The internal connection mechanism includes an inner end block 210 fixedly installed at the bottom of the fixing plate 120, an internal connection port 220 opened on the side of the inner end block 210, a positioning buckle 230 located on the inner wall of the top of the opening of the internal connection port 220, a fixing head 240 slidably connected inside the internal connection port 220, and a sliding head 240 connected to the bottom of the fixing head 240 and penetrating the end of the inner end block 210. The moving rod 250 and the conductive head 160 are located inside the inner connection port 220, and the size of the conductive head 160 is smaller than the inner diameter of the fixed head 240. The positioning buckle 230 is annular in shape, and a spherical protrusion is provided on the inner ring of the positioning buckle 230. The fixing mechanism includes a rotating column 310 that is rotatably engaged in the middle of the outer end block 110, a threaded rod 320 that is threadedly connected to the middle of the rotating column 310, a movable plate 330 that is fixedly installed at the bottom end of the threaded rod 320, and a limiting rod 340 that is provided on the side of the movable plate 330 for limiting. The other end of the limiting rod 340 is inserted into the inner end block 210. The middle of the inner end block 210 is provided with a through hole that fits the rotating column 310. The bottom end of the rotating column 310 extends through the through hole to the outside of the bottom end of the inner end block 210. A spring is sleeved on the end of the sliding rod 250, and the end of the sliding rod 250 abuts against the inner side of the movable plate 330.

[0025] In this embodiment, an insulating screw 111 is threaded onto the side of the top of the outer end block 110. The bottom end of the outer end block 110 extends into the external wiring port 130, where an external wire 112 is inserted. The bottom end of the insulating screw 111 abuts against the external wire 112. A bidirectional bolt 121 is inserted into the side of the fixing plate 120. The bottom end of the bidirectional bolt 121 is threaded onto the inner end block 210, and a threaded hole is provided on the central axis of the bidirectional bolt 121. The insulating screw 111 is used to fix the position of the external wire 112 in the external wiring port 130 and connect the external wire 112 to the conductive post 140, ensuring the smooth flow of the circuit. At the same time, the external wire 112, which is located on the outside, is easy to disassemble, effectively improving the practicality of the device.

[0026] Specifically, through the threaded connection between the rotating column 310 and the threaded rod 320, the rotation of the rotating column 310 will drive the threaded rod 320 to extend and retract, thereby controlling the moving plate 330 to press the sliding rod 250, fixing the end of the line between the fixed head 240 and the conductive head 160, thus completing the connection of the line. Therefore, when a quick power cut is required, there is no need to use a switch. Simply rotate the rotating column 310 in the opposite direction, so that the moving plate 330 no longer presses the sliding rod 250, and the sliding rod 250 extends quickly under the action of the spring on it, which can separate the fixed head 240 and the conductive head 160. Therefore, the line in the middle will also stop connecting, achieving a quick and complete power cut.

[0027] The working principle and usage process of this utility model are as follows: First, the internal wiring of the switch is plugged into the internal wiring port 220. Then, the rotating column 310 is rotated to retract the position of the threaded rod 320, so that the moving plate 330 pushes the sliding rod 250 upward. Thus, the internal wiring of the switch is connected to the conductive head 160 by the fixing head 240, completing the installation. At the same time, the external wire 112 is connected to the conductive post 140 inside the external wiring port 130 by the insulating screw 111. The wiring is now connected, and the switch can be turned on to provide power.

[0028] Although embodiments of the present invention have been shown and described, those skilled in the art will understand 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 claims and their equivalents.

Claims

1. A high-voltage disconnect switch outlet base, characterized in that, include: External mechanisms, internal mechanisms, and fixed mechanisms; The external connection mechanism includes an outer end block (110), a fixing plate (120) fixed to the bottom of the outer end block (110), an external connection port (130) opened at the outer end of the outer end block (110), a conductive post (140) fixedly installed inside the outer end block (110) with its top end located in the external connection port (130), a wire (150) fixedly connected to the bottom end of the conductive post (140), and a conductive head (160) fixedly connected to the bottom end of the wire (150). The internal connection mechanism includes an inner end block (210) fixedly installed at the bottom of the fixed plate (120), an inner connection port (220) opened on the side of the inner end block (210), a positioning buckle (230) located on the inner wall at the top of the opening of the inner connection port (220), a fixing head (240) slidably connected inside the inner connection port (220), and a sliding rod (250) connected to the bottom of the fixing head (240) and passing through the end of the inner end block (210). The fixing mechanism includes a rotating column (310) rotatably engaged in the middle of the outer end block (110), a threaded rod (320) threadedly connected to the middle of the rotating column (310), a movable plate (330) fixedly installed at the bottom of the threaded rod (320), and a limiting rod (340) set on the side of the movable plate (330) for limiting.

2. The high-voltage disconnect switch outlet base according to claim 1, characterized in that, An insulating screw (111) is threaded on the side of the top of the outer end block (110). The bottom end of the outer end block (110) extends into the external wiring port (130). An external wire (112) is inserted into the external wiring port (130). The bottom end of the insulating screw (111) abuts against the external wire (112).

3. The high-voltage disconnect switch outlet base according to claim 1, characterized in that, The side of the fixing plate (120) is fitted with a bidirectional bolt (121), the bottom end of which is threaded onto the inner end block (210), and a threaded hole is provided on the central axis of the bidirectional bolt (121).

4. The high-voltage disconnect switch outlet base according to claim 1, characterized in that, The conductive head (160) is located inside the inner connection port (220), and the size of the conductive head (160) is smaller than the inner diameter of the fixed head (240).

5. A high-voltage disconnect switch outlet base according to claim 1, characterized in that, The positioning buckle (230) is ring-shaped, and the inner ring of the positioning buckle (230) is provided with a spherical protrusion.

6. A high-voltage disconnect switch outlet base according to claim 1, characterized in that, The inner end block (210) has a through hole in the middle that fits the rotating column (310), and the bottom end of the rotating column (310) extends through the through hole to the outer side of the bottom end of the inner end block (210).

7. A high-voltage disconnect switch outlet base according to claim 1, characterized in that, The end of the sliding rod (250) is fitted with a spring, and the end of the sliding rod (250) abuts against the inside of the moving plate (330).

8. A high-voltage disconnect switch outlet base according to claim 1, characterized in that, The other end of the limiting rod (340) is inserted into the inner end block (210).

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