Intelligent comprehensive distribution box for intelligent dispatching system
By introducing displacement devices and contact components into the distribution box, the reversible movement of sockets and the protection of plugs are realized, solving the problem that existing distribution boxes cannot flexibly distribute power, and improving the flexibility and safety of power distribution.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Applications(China)
- Current Assignee / Owner
- BEIJING HCRT ELECTRICAL EQUIP
- Filing Date
- 2026-03-19
- Publication Date
- 2026-06-09
Smart Images

Figure CN122178198A_ABST
Abstract
Description
Technical Field
[0001] This invention relates to the field of distribution box technology, specifically to an intelligent integrated distribution box for an intelligent dispatching system. Background Technology
[0002] Distribution boxes are indispensable equipment in the electricity use of buildings, factories, and even homes. They act as a power transfer station, responsible for the safe and reasonable distribution of electrical energy, while protecting the safety of lines and electrical equipment.
[0003] Distribution boxes offer extremely high safety, effectively isolating fire sources and preventing live parts from being touched by outsiders. They also centralize wire connections and switches inside, preventing tangled wiring. Through the use of distribution boxes, complex and messy wiring can be organized into a safe, controllable, neat, and easy-to-manage system, facilitating subsequent maintenance and management.
[0004] Currently, existing distribution boxes on the market can only output power in one direction, meaning that each socket can only be paired with a single plug. As a result, existing distribution boxes cannot perform internal reversing power dispatching and distribution or position protection functions. Therefore, a device is needed to improve upon these issues. Summary of the Invention
[0005] To address the problems in the prior art, this invention provides an intelligent integrated power distribution box for an intelligent dispatching system.
[0006] The technical solution adopted by this invention to solve its technical problem is: an intelligent integrated power distribution box for an intelligent dispatching system, comprising a power distribution box, a displacement device threadedly connected to the top of the internal part of the power distribution box, a power distribution box door installed at the front end of the power distribution box, the displacement device comprising a displacement horizontal plate, a socket, a magnetic suction frame, a limiting iron plate, a first gear, a special-shaped extension frame and a conductive wire, the special-shaped extension frame being fixedly installed at the bottom of both sides of the displacement horizontal plate, the limiting iron plate being fixedly installed at the front end of the special-shaped extension frame, the first gear being rotatably installed at the bottom front end of the displacement horizontal plate, the magnetic suction frame being fixedly installed at the center of the front end of the first gear, the socket being fixedly installed at the top front end of the magnetic suction frame, and the conductive wire being fixedly installed at the center of the bottom end of the socket.
[0007] Specifically, the top of the distribution box is symmetrically fixed with contact components. The contact components include a support device and a synchronization device. The synchronization device is rotatably installed at the top and bottom of the support device.
[0008] Specifically, the support device includes an extension arm, a side guide frame, a movable base rod, a first rack, a guide wheel, a support vertical frame, a plug, a non-standard synchronous frame, a connecting side frame, a connecting base frame, a return spring, and a guide sleeve. The plug is fixedly installed on the side end of the extension arm. The support vertical frame is fixedly installed on the top and bottom ends of the extension arm near the plug. The guide wheel is rotatably installed on the side end of the support vertical frame near the plug. The guide sleeve is fixedly installed on both bottom ends of the support vertical frame. The connecting base frame is fixedly installed on the side end of the guide sleeve away from the support vertical frame. The return spring is fixedly installed on the top end of the connecting base frame. The connecting side frame is fixedly installed on the top end of the return spring. The side guide frame is fixedly installed on the rear end of the extension arm away from the plug. The movable base rod is slidably inserted into the top and bottom ends of the side guide frame. The first rack is fixedly installed on one end of the movable base rod. The non-standard synchronous frame is fixedly installed between the two first racks.
[0009] Specifically, the synchronization device includes a protective cover, a connecting rope, a second gear, a connecting shaft, a reel, a connecting wing plate, and a guide plate. The connecting shaft is fixedly installed at the center of the side end of the second gear. The reel is fixedly installed at the end of the connecting shaft away from the second gear. The connecting rope is fixedly installed on the outer ring of the reel. The protective cover is fixedly installed at the bottom end of the connecting rope. The connecting wing plates are symmetrically fixedly installed at the side end of the protective cover near the reel. The guide plate is fixedly installed at the bottom end of the connecting wing plates.
[0010] Specifically, a support back plate is symmetrically fixedly installed at the top of the inside of the distribution box, and a guide crossbar is symmetrically fixedly installed between the two support back plates. A drive motor is fixedly installed at the side end of the support back plate, and a transmission screw is fixedly installed at the center of the side end of the drive motor. A second rack is fixedly installed at the top of the inside of the distribution box, and the second rack is located below the support back plate. A support base rod is fixedly installed at the top of the inside of the distribution box, and the support base rod is located behind the support back plate.
[0011] Specifically, the displacement plate is threaded onto the outer ring of the transmission screw, and the connecting shaft is rotatably mounted on the top of the support frame away from the guide wheel.
[0012] Specifically, the extension arm is fixedly installed on both sides inside the distribution box, and the extension arm is located in front of the support back plate. The guide plate is slidably inserted into the top of the guide sleeve, and the end of the connecting side frame away from the guide sleeve is connected to the protective cover.
[0013] Specifically, the first gear is vertically aligned with the second rack, the second gear is vertically aligned with the first rack, the top of the guide sleeve has an insertion hole, the protective cover is vertically aligned with the plug, the side guide has an movable hole adapted to the movable base rod, and the displacement plate is aligned with the irregular synchronous frame.
[0014] Specifically, the displacement plate has a threaded hole at its center and symmetrical sleeve holes at its top. The magnetic suction frame is aligned with the limiting iron plate, and the magnetic suction frame and the limiting iron plate are on the same axis.
[0015] The beneficial effects of this invention are:
[0016] First, when the drive motor is turned on, it can drive the displacement plate to move as a whole through the transmission screw, so that the first gear can move along the top of the second rack, and the socket can rotate and change direction. At the same time, the socket can be fixed by the magnetic bracket and the limiting iron plate, so that the socket and the plug can be horizontally aligned. Furthermore, when the displacement plate moves in different directions, the socket can be matched with the plug in the corresponding direction, thereby realizing the work of power reversal transmission.
[0017] Second, this invention utilizes a displacement plate that, during displacement, drives a non-standard synchronous frame to compress the first rack, causing the first rack to rotate and thus the coil can be pulled upwards by a connecting rope to expose the plug, facilitating connection between the socket and the plug. Simultaneously, the elasticity of the return spring allows the protective cover to move downwards and reset when the second gear is not engaged with the first rack, enabling the two protective covers to merge and cover the outer ring of the plug, thus protecting it. Furthermore, when the protective cover resets, the connecting rope can pull the second gear to rotate and reset, allowing the second gear to move and reset the first rack, completing the plug alignment and protection process. Attached Figure Description
[0018] The present invention will be further described below with reference to the accompanying drawings and embodiments.
[0019] Figure 1 This is a three-dimensional structural diagram of the main body from a frontal perspective in this invention;
[0020] Figure 2 This is a three-dimensional structural diagram of the displacement device from the front view in this invention;
[0021] Figure 3 This is a frontal perspective three-dimensional structural diagram of the distribution box and contact components in this invention;
[0022] Figure 4 This is a three-dimensional structural diagram of the contact component from a frontal view in this invention;
[0023] Figure 5 This is a three-dimensional structural diagram of the support device from the front view in this invention;
[0024] Figure 6 In this invention Figure 5 A magnified view of part A;
[0025] Figure 7 This is a three-dimensional structural diagram of the synchronization device from the front view in this invention;
[0026] Figure 8 This is a frontal perspective three-dimensional structural diagram of the distribution box in this invention.
[0027] In the diagram: 1-Displacement device, 2-Distribution box, 3-Distribution box door, 4-Displacement cross plate, 5-Socket, 6-Magnetic suction frame, 7-Limiting iron plate, 8-First gear, 9-Irregular extension frame, 10-Conductive wire, 11-Contact component, 12-Support device, 13-Synchronization device, 14-Extension arm, 15-Side end guide frame, 16-Modible base rod, 17-First rack, 18-Wire wheel, 19-Supporting vertical frame, 20-Plug, 21-Irregular synchronization frame, 22-Connecting side frame, 23-Connecting base frame, 24-Reset spring, 25-Guide sleeve, 26-Protective cover, 27-Connecting rope, 28-Second gear, 29-Connecting shaft, 30-Wire reel, 31-Connecting wing plate, 32-Guide insert plate, 33-Supporting base rod, 34-Transmission screw, 35-Guide cross bar, 36-Supporting back plate, 37-Drive motor, 38-Second rack. Detailed Implementation
[0028] To enable those skilled in the art to better understand the present application, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of the present application, and not all embodiments. Based on the embodiments in the present application, all other embodiments obtained by those of ordinary skill in the art without creative effort should fall within the scope of protection of the present application.
[0029] The invention will be further described below with reference to the accompanying drawings.
[0030] like Figure 1 and Figure 2 As shown, an intelligent integrated power distribution box for an intelligent dispatching system of the present invention includes a power distribution box 2. A displacement device 1 is threadedly connected to the top of the inside of the power distribution box 2. A power distribution box door 3 is installed at the front end of the power distribution box 2. The displacement device 1 includes a displacement horizontal plate 4, a socket 5, a magnetic suction frame 6, a limiting iron plate 7, a first gear 8, a special-shaped extension frame 9, and a conductive wire 10. The special-shaped extension frame 9 is fixedly installed at the bottom of both sides of the displacement horizontal plate 4. The limiting iron plate 7 is fixedly installed at the front end of the special-shaped extension frame 9. The first gear 8 is rotatably installed at the bottom of the front end of the displacement horizontal plate 4. The magnetic suction frame 6 is fixedly installed at the center of the front end of the first gear 8. The socket 5 is fixedly installed at the top of the front end of the magnetic suction frame 6. The conductive wire 10 is fixedly installed at the center of the bottom end of the socket 5.
[0031] like Figure 3 and Figure 4The top of the distribution box 2 is symmetrically fixed with contact components 11. The contact components 11 include a support device 12 and a synchronization device 13. The synchronization device 13 is rotatably installed at the top and bottom of the support device 12. The distribution box 2 can support the stable operation of the support device 12 and the synchronization device 13.
[0032] like Figure 5 and Figure 6 The support device 12 includes an extension arm 14, a side guide frame 15, a movable base rod 16, a first rack 17, a guide wheel 18, a support vertical frame 19, a plug 20, a non-standard synchronous frame 21, a connecting side frame 22, a connecting base frame 23, a return spring 24, and a guide sleeve 25. The plug 20 is fixedly installed on the side end of the extension arm 14. The support vertical frame 19 is fixedly installed on the top and bottom ends of the extension arm 14 near the plug 20. The guide wheel 18 is rotatably installed on the side end of the support vertical frame 19 near the plug 20. The guide sleeve 25 is fixedly installed on both bottom ends of the support vertical frame 19. The connecting base frame 23 is fixedly installed on the side end of the guide sleeve 25 away from the support vertical frame 19. The return spring 24 is fixedly installed on the connecting side frame 25. The top of the base frame 23 is connected to the top of the side frame 22, which is fixedly installed on the top of the return spring 24. The side guide frame 15 is fixedly installed on the rear end of the extension arm 14 away from the plug 20. The movable base rod 16 is slidably inserted into the top and bottom of the side guide frame 15. The first rack 17 is fixedly installed on one end of the movable base rod 16. The irregular synchronous frame 21 is fixedly installed between the two first racks 17. When the irregular synchronous frame 21 loses the pressure of the displacement plate 4, the elasticity of the return spring 24 will drive the connecting side frame 22 and the protective cover 26 to move and reset, so that the two protective covers 26 can cover the outer ring of the plug 20 again, thereby protecting the plug 20 and preventing dust from entering the interior of the plug 20.
[0033] like Figure 7 The synchronization device 13 includes a protective cover 26, a connecting rope 27, a second gear 28, a connecting shaft 29, a coil 30, a connecting wing plate 31, and a guide plate 32. The connecting shaft 29 is fixedly installed at the center of the side end of the second gear 28. The coil 30 is fixedly installed at the end of the connecting shaft 29 away from the second gear 28. The connecting rope 27 is fixedly installed on the outer ring of the coil 30. The protective cover 26 is fixedly installed at the bottom end of the connecting rope 27. The connecting wing plate 31 is symmetrically fixedly installed at the side end of the protective cover 26 near the coil 30. The guide plate 32 is fixedly installed at the bottom end of the connecting wing plate 31. The guide plate 32 slides inside the guide sleeve 25, which can support the protective cover 26 to move up and down in a straight line. Furthermore, the connecting rope 27 passes over the top of the guide wheel 18, which allows the connecting rope 27 to pull the protective cover 26 to move with the guide wheel 18 as the base point.
[0034] like Figure 8The distribution box 2 has symmetrically fixed support back plates 36 at its top interior. Guide crossbars 35 are symmetrically fixed between the two support back plates 36. A drive motor 37 is fixedly installed on the side end of the support back plates 36, and a transmission screw 34 is fixedly installed at the center of the side end of the drive motor 37. A second rack 38 is fixedly installed at the top interior of the distribution box 2, and the second rack 38 is located below the support back plates 36. A support base rod 33 is fixedly installed at the top interior of the distribution box 2, and the support base rod 33 is located behind the support back plates 36. A conductive wire 10 is placed on the top of the support base rod 33 to prevent the conductive wire 10 from dragging excessively downwards. Simultaneously, the support back plates 36 support the drive motor 37 for stable operation. Furthermore, the distribution box 2 has ventilation holes inside to prevent heat from accumulating inside the distribution box 2.
[0035] The displacement horizontal plate 4 is threaded onto the outer ring of the transmission screw 34. The connecting shaft 29 is rotatably mounted on the top of the support vertical frame 19 away from the guide wheel 18. The extension arm 14 is fixedly mounted on both sides inside the distribution box 2, and the extension arm 14 is located in front of the support back plate 36. The guide insert 32 is slidably inserted into the top of the guide sleeve 25. The end of the connecting side frame 22 away from the guide sleeve 25 is connected to the protective cover 26. The first gear 8 is perpendicularly aligned with the second rack 38, and the second gear 28 is perpendicularly aligned with the first rack 17. The top of the guide sleeve 25 has an insertion hole. The protective cover 26 is perpendicularly aligned with the plug 20. The side guide frame 15 has an movable hole that matches the movable base rod 16. The displacement horizontal plate 4 is aligned with the irregular synchronous frame 21. The center of the displacement horizontal plate 4 has a threaded hole. The top of the displacement horizontal plate 4 has symmetrical sleeve holes. The magnetic suction frame 6 is aligned with the limiting iron plate 7 and magnetically suctions... The frame 6 and the limiting plate 7 are on the same axis. The initial position of the first gear 8 is located at the top center of the second rack 38, so that when the first gear 8 moves to the left or right, it can only travel half the stroke of the second rack 38 teeth. Then, the first gear 8 will rotate 90° after traveling half the stroke, so that the socket 5 can rotate to be horizontally aligned with the plug 20. At the same time, the magnetic frame 6 can be attracted and attached to the limiting plate 7 in a horizontal state, so that the socket 5 can be kept horizontal and connected to the plug 20. The setting of the irregular extension frame 9 can support the stable operation of the limiting plate 7. Meanwhile, the misalignment of the irregular synchronous frame 21 with the second rack 38 can avoid interference between the second rack 38 and the irregular synchronous frame 21. The elasticity of the return spring 24 can drive the protective cover 26 to return the plug 20 to its normal state, so that the plug 20 can be wrapped and protected by the protective cover 26 when not in use.
[0036] The working principle is as follows: During use, the conductive wire 10 is connected to the main switch inside the distribution box 2, allowing the main switch to control the opening and closing of the conductive wire 10. The conductive wire 10 is in a normally open state, allowing the socket 5 to be energized. When the plug 20 at one end inside the distribution box 2 needs to be energized, the drive motor 37 can be turned on, driving the transmission screw 34 to rotate. The displacement plate 4 is threaded onto the outer ring of the transmission screw 34, so that when the transmission screw 34 rotates, it can drive the displacement plate 4 to move. At the same time, the displacement plate 4 is slidably sleeved on the guide rod 35, allowing the displacement plate 4 to move in a straight line. When the displacement plate 4 moves, it can drive the first gear 8 to move on the top of the second rack 38. The teeth are concentrated at the top center of the second rack 38, and the displacement plate 4 is located at the top center of the second rack 38 when it is in its normal state. This allows the displacement plate 4 to drive the first gear 8 to move along the teeth on the second rack 38 during displacement. As a result, the first gear 8 can drive the magnetic frame 6 and the socket 5 to rotate simultaneously until the first gear 8 completely moves out of the teeth at the top of the second rack 38. At this point, the first gear 8 can drive the magnetic frame 6 and the socket 5 to rotate 90°. At this time, the socket 5 can be horizontally aligned with the plug 20. Furthermore, the magnetic frame 6 adheres to the limiting iron plate 7, which restricts the socket 5 to be placed in a horizontal position. As the displacement plate 4 continues to move, it can squeeze the irregular synchronous frame 21 to move closer to the end of the plug 20. The irregular synchronous frame 21 can drive the first gear 6 to rotate along the teeth on the second rack 38 during displacement. The first rack 17 moves along the bottom end of the second gear 28, thereby driving the second gear 28 to rotate. The movable base rod 16 is slidably inserted into the side guide frame 15, supporting the first rack 17 to move linearly. When the second gear 28 rotates, it drives the coil 30 to rotate via the connecting shaft 29. When the coil 30 rotates, the connecting rope 27 pulls the protective cover 26 upwards. The connecting rope 27 wraps around the top of the guide wheel 18, supporting the connecting rope 27 to pull the protective cover 26 upwards. Simultaneously, the guide plate 32 is slidably inserted into the guide sleeve 25, supporting the protective cover 26 to move linearly. Furthermore, before the socket 5 has moved to contact the plug 20, the protective cover 26 can be pulled by the connecting rope 27 to contact the plug 20. When plug 20 disengages, the displacement plate 4 continues to move, causing the socket 5 to move until it is plugged into plug 20, thus powering one end of plug 20. When the other end of plug 20 needs power, the drive motor 37 can be turned on, causing the transmission screw 34 to rotate in the opposite direction, allowing the displacement plate 4 to move in the opposite direction. At this time, the displacement plate 4 can pull the socket 5 out of plug 20 at one end. Subsequently, the displacement plate 4 can gradually move away from the irregular synchronous frame 21. The elasticity of the return spring 24 will pull the connecting side frame 22 and the protective cover 26 towards the end of plug 20, so that the protective cover 26 can cover the outer ring of plug 20, completing the protection of one end of plug 20. Then, when the displacement plate 4 passes the center of the top of the second rack 38,The first gear 8 can drive the magnetic suction bracket 6 and the socket 5 to flip to the other end until the magnetic suction bracket 6 is attracted and attached to the limiting iron plate 7 at the other end, so that the socket 5 can be horizontally aligned with the plug 20 at the other end. At this time, as the displacement plate 4 continues to move, the above steps can be repeated until the socket 5 is inserted into the plug 20 at the other end, completing the work of rapid power dispatch. When this device is in use, the displacement plate 4 can drive the first gear 8 to move on the top of the second rack 38 when it is displaced, so that the first gear 8 can drive the socket 5 to flip to be horizontally aligned with the plug 20 at the designated end. In addition, when the displacement plate 4 continues to move, it can drive the first gear 8 to move on the top of the second rack 38 by pressing the irregular synchronous frame 21. The rotation of the second gear 28 causes the connecting rope 27 to pull the protective cover 26 upwards, facilitating the connection between the socket 5 and the plug 20. Simultaneously, when the displacement plate 4 disengages from the shaped synchronous frame 21, the elasticity of the return spring 24 causes the protective cover 26 to move and reset, allowing the two protective covers 26 to merge and cover the plug 20, preventing external dust from entering. Furthermore, when the protective cover 26 resets, pulling the connecting rope 27 causes the coil 30 and the second gear 28 to rotate simultaneously. When the second gear 28 rotates in the opposite direction, it causes the first rack 17 to move and reset, allowing the displacement plate 4 to re-engage with the shaped synchronous frame 21, completing the operation.
[0037] Although embodiments of the 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 invention, the scope of which is defined by the appended claims and their equivalents.
Claims
1. An intelligent integrated power distribution box for an intelligent dispatching system, comprising a power distribution box (2), wherein a displacement device (1) is threadedly connected to the top of the internal part of the power distribution box (2), and a power distribution box door (3) is installed at the front end of the power distribution box (2), characterized in that: The displacement device (1) includes a displacement horizontal plate (4), a socket (5), a magnetic suction frame (6), a limiting iron plate (7), a first gear (8), a special-shaped extension frame (9), and a conductive wire (10). The special-shaped extension frame (9) is fixedly installed on both sides of the bottom of the displacement horizontal plate (4). The limiting iron plate (7) is fixedly installed on the front end of the special-shaped extension frame (9). The first gear (8) is rotatably installed on the bottom front end of the displacement horizontal plate (4). The magnetic suction frame (6) is fixedly installed at the center of the front end of the first gear (8). The socket (5) is fixedly installed at the top front end of the magnetic suction frame (6). The conductive wire (10) is fixedly installed at the center of the bottom end of the socket (5).
2. The intelligent integrated power distribution box for an intelligent dispatching system according to claim 1, characterized in that: The top of the distribution box (2) is symmetrically fixed with contact components (11). The contact components (11) include a support device (12) and a synchronization device (13). The synchronization device (13) is rotatably installed at the top and bottom of the support device (12).
3. The intelligent integrated power distribution box for an intelligent dispatching system according to claim 2, characterized in that: The support device (12) includes an extension arm (14), a side guide frame (15), a movable base rod (16), a first rack (17), a guide wheel (18), a support vertical frame (19), a plug (20), a non-standard synchronous frame (21), a connecting side frame (22), a connecting base frame (23), a return spring (24), and a guide sleeve (25). The plug (20) is fixedly installed on the side end of the extension arm (14). The support vertical frame (19) is fixedly installed on the top and bottom ends of the extension arm (14) near the plug (20). The guide wheel (18) is rotatably installed on the side end of the support vertical frame (19) near the plug (20). The guide sleeve (25) is fixedly installed on the support vertical frame (19). The bottom ends of the support frame (19) are fixedly mounted on the side end of the guide sleeve (25) away from the support frame (19). The reset spring (24) is fixedly mounted on the top end of the connecting base frame (23). The connecting side frame (22) is fixedly mounted on the top end of the reset spring (24). The side end guide frame (15) is fixedly mounted on the rear end of the extension arm (14) away from the plug (20). The movable base rod (16) is slidably inserted into the top and bottom ends of the side end guide frame (15). The first rack (17) is fixedly mounted on one end of the movable base rod (16). The irregular synchronous frame (21) is fixedly mounted between the two first racks (17).
4. The intelligent integrated power distribution box for an intelligent dispatching system according to claim 3, characterized in that: The synchronization device (13) includes a protective cover (26), a connecting rope (27), a second gear (28), a connecting shaft (29), a coil (30), a connecting wing plate (31), and a guide plate (32). The connecting shaft (29) is fixedly installed at the center of the side end of the second gear (28). The coil (30) is fixedly installed at the end of the connecting shaft (29) away from the second gear (28). The connecting rope (27) is fixedly installed on the outer ring of the coil (30). The protective cover (26) is fixedly installed at the bottom end of the connecting rope (27). The connecting wing plate (31) is symmetrically fixedly installed at the side end of the protective cover (26) near the coil (30). The guide plate (32) is fixedly installed at the bottom end of the connecting wing plate (31).
5. The intelligent integrated power distribution box for an intelligent dispatching system according to claim 4, characterized in that: The distribution box (2) is symmetrically fixedly installed with a support back plate (36) at the top inside. A guide crossbar (35) is symmetrically fixedly installed between the two support back plates (36). A drive motor (37) is fixedly installed on the side end of the support back plate (36). A transmission screw (34) is fixedly installed at the center of the side end of the drive motor (37). A second rack (38) is fixedly installed on the top inside the distribution box (2), and the second rack (38) is located below the support back plate (36). A support base rod (33) is fixedly installed on the top inside the distribution box (2), and the support base rod (33) is located behind the support back plate (36).
6. The intelligent integrated power distribution box for an intelligent dispatching system according to claim 5, characterized in that: The displacement plate (4) is threaded onto the outer ring of the transmission screw (34), and the connecting shaft (29) is rotatably mounted on the top of the support frame (19) away from the guide wheel (18).
7. The intelligent integrated power distribution box for an intelligent dispatching system according to claim 6, characterized in that: The extension arm (14) is fixedly installed on both sides inside the distribution box (2), and the extension arm (14) is located in front of the support back plate (36). The guide plate (32) is slidably inserted into the top of the guide sleeve (25). The end of the connecting side frame (22) away from the guide sleeve (25) is connected to the protective cover (26).
8. The intelligent integrated power distribution box for an intelligent dispatching system according to claim 7, characterized in that: The first gear (8) is vertically aligned with the second rack (38), the second gear (28) is vertically aligned with the first rack (17), the top of the guide sleeve (25) has an insertion hole, the protective cover (26) is vertically aligned with the plug (20), the side guide frame (15) has an active hole that matches the active base rod (16), and the displacement cross plate (4) is aligned with the irregular synchronous frame (21).
9. The intelligent integrated power distribution box for an intelligent dispatching system according to claim 8, characterized in that: The displacement plate (4) has a threaded hole in its center and a sleeve hole symmetrically opened at the top of its interior. The magnetic suction frame (6) is aligned with the limiting iron plate (7) and the magnetic suction frame (6) and the limiting iron plate (7) are on the same axis.