A type of integrated distribution box with wiring management function

By using a detachable mounting bracket and quick-installation components, combined with clamping blocks and rotating blocks, the problem of varying cable quantities in the distribution box is solved, achieving flexible cable fixing and improved stability, and facilitating maintenance.

CN119726389BActive Publication Date: 2026-06-30JIANGXI MINGTAI ELECTRICAL EQUIP CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Patents(China)
Current Assignee / Owner
JIANGXI MINGTAI ELECTRICAL EQUIP CO LTD
Filing Date
2024-11-23
Publication Date
2026-06-30

AI Technical Summary

Technical Problem

The existing cable management structure in the distribution box cannot adapt to changes in the number of cables, resulting in insufficient or redundant fixing, and inability to effectively fix bent sections of cables, affecting installation stability and maintenance efficiency.

Method used

It adopts a detachable mounting bracket and quick-installation components, combined with clamping blocks, rotating blocks and movable clamps, to achieve flexible adjustment of the number of cables and fixation of bent sections. The spring and sliding structure can adapt to cables of different thicknesses, simplifying the disassembly and assembly process.

Benefits of technology

It allows for flexible adjustment of the number of cables, improves cable stability and installation efficiency, avoids structural waste, and facilitates maintenance and repair.

✦ Generated by Eureka AI based on patent content.

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Abstract

This invention discloses a comprehensive distribution box with cable management capabilities, relating to the field of distribution box technology. It includes a distribution box, a mounting frame, and a fixing frame. The mounting frame is fixedly installed inside the distribution box, and a fixing frame is detachably connected to the mounting frame. A quick-installation assembly is provided on the fixing frame. Through the cooperation of clamping blocks and guide rails, two clamping blocks clamp onto the guide rails from the top and bottom, enabling rapid installation of the mounting bases. A corresponding number of mounting bases can be installed according to the number of cables. Furthermore, the position of the mounting bases and the spacing between multiple mounting bases can be flexibly adjusted with the cooperation of the clamping blocks and guide rails. Compared to traditional cable management racks in distribution boxes, this invention avoids the situation where a fixed number of cable management structures is insufficient to accommodate different numbers of cables inside the distribution box, thus preventing situations where there is an excess of cable management structures or that do not meet usage requirements.
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Description

Technical Field

[0001] This invention relates to the field of distribution box technology, and more specifically, to a comprehensive distribution box with wiring organization capabilities. Background Technology

[0002] The distribution box contains a large number of cables. Without proper cable management, the messy cables can easily become tangled and squeezed together, which may damage the insulation of the wires. Furthermore, the disorganized wiring makes troubleshooting difficult and wastes time and effort.

[0003] Chinese Patent Publication No. CN 217281646 discloses a distribution box with a wiring management function, including a main body and a wiring management component. The wiring management component includes a fixed plate on the rear wall of the main body, an anti-detachment groove in the fixed plate, an anti-detachment block in the anti-detachment groove, a connecting block fixedly connected to the anti-detachment block, a sliding groove on the fixed plate, a support plate fixedly connected to the connecting block, a support plate on the support plate, a horizontal plate fixedly connected to the support plate, a pull rod slidably connected to the horizontal plate, a first clamping plate fixedly connected to the pull rod, a second clamping plate on the side wall of the support plate, a handle and a locking component at one end of the pull rod. This utility model, by setting up the main body and the wiring management component, has the advantages of being able to organize the connection lines of various electrical appliances in the distribution box, organize the lines in different locations, and facilitate later inspection and maintenance. It solves the problem that existing distribution boxes have simple structures, and when there are many lines, they are easily tangled and messy, which is inconvenient for later inspection and maintenance and can easily cause safety accidents.

[0004] The aforementioned distribution box with cable management function uses a first clamp and a second clamp to fix individual cables, achieving the effect of separation and management. However, since the number of the first and second clamps is fixed, it is impossible to fix and manage all cables when there are many cables in the distribution box. When there are few cables, the cable management structure is redundant, causing unnecessary waste. In actual use, there will be bent cables in the distribution box according to the wiring requirements. The first and second clamps are in a fixed direction and cannot fix the bent sections of the cables. In this case, the cable management effect cannot be achieved. Moreover, after the first and second clamps are closed, the internal space is fixed. When using cables of different thicknesses, the unrestricted cables will still move between the first and second clamps, causing the entire cable to still sway and interfering with the installation of subsequent cables.

[0005] To solve the above problems, the inventors proposed a comprehensive distribution box with wiring organization capabilities, which has the following advantages. Summary of the Invention

[0006] To solve the above technical problems, a comprehensive distribution box with wiring organization function is provided.

[0007] To achieve the above objectives, the present invention can be implemented using the following technical solutions:

[0008] The present invention provides an integrated power distribution box with wiring organization, comprising: a power distribution box, a mounting frame and a fixing frame, wherein the mounting frame is fixedly installed inside the power distribution box, the fixing frame is detachably connected to the mounting frame, and the fixing frame is provided with a quick installation component;

[0009] The quick-installation assembly includes a guide rail fixedly connected to a mounting frame. A mounting base is located on the side of the guide rail away from the mounting frame. A clamping block is located on the side of the mounting base near the mounting frame. The mounting base has at least two pressing grooves, symmetrically arranged on the mounting base. Rotating shafts are fixedly connected to both ends of the clamping block. The ends of the two rotating shafts away from the clamping block are rotatably connected to the mounting base. Swing rods are fixedly connected to the sides of the two rotating shafts. Sliding shafts are fixedly connected to the ends of the two swing rods away from the rotating shafts. The mounting base has at least four sliding grooves, grouped in pairs. Each group of sliding grooves is symmetrically arranged on both sides of the pressing groove. The ends of the four sliding shafts away from the swing rods are slidably connected to the four sliding grooves. Pressing blocks are slidably connected to the two pressing grooves. Lifting plates are fixedly connected to the sides of the two pressing blocks. Sliding grooves are provided on the four lifting plates. A spring is located within each pressing groove.

[0010] Preferably, the sliding groove is a quarter-circle arc.

[0011] Preferably, the second sliding groove is located between the swing rod and the first sliding groove, and the lifting plate forms a limiting fit with the sliding shaft through the second sliding groove.

[0012] Preferably, the mounting base is provided with a direction adjustment component, which includes a rotating cavity formed within the mounting base. The rotating cavity is located on the side of the mounting base near the guide rail. A rotating block is rotatably fitted within the rotating cavity. A connecting shaft is fixedly connected to the middle of the rotating block. A pressing groove is formed on one side of the mounting base. A pressing rod is slidably connected within the pressing groove. A roller is provided on the side of the pressing rod near the rotating cavity. A spring is provided within the pressing groove. A squeezing groove is formed within the mounting base. A squeezing rod is slidably connected within the squeezing groove. A ball is fixedly connected to the end of the squeezing rod away from the squeezing groove. A limiting groove is formed on the rotating block. There are no fewer than four limiting grooves, and the four limiting grooves are equidistantly distributed on the rotating block. A spring is provided within the squeezing groove.

[0013] Preferably, the second pressing groove is connected to the rotating cavity.

[0014] Preferably, the limiting groove is semi-circular, and the limiting groove and the sphere form a compression fit.

[0015] Preferably, one end of the connecting shaft passes through the mounting base, and the end of the connecting shaft passing through the mounting base is rotatably connected to the mounting base.

[0016] Preferably, the mounting base is provided with a cable fixing assembly, which includes a clamping base fixedly connected to the connecting shaft. The clamping base has a storage groove located on the side away from the mounting base. The clamping base has a sliding cavity located on the side near the storage groove and communicating with the storage groove. A sliding rod is slidably connected in the sliding cavity. A movable clamp is fixedly connected to one end of the sliding rod near the storage groove. A spring is provided in the sliding cavity. An installation clamp is provided on the outside of the movable clamp. The clamping base has at least two snap-fit ​​grooves symmetrically distributed on both sides of the storage groove. Snap-fit ​​connectors are fixedly connected to both ends of the installation clamp and inserted into the snap-fit ​​grooves. The clamping base has at least two pressing grooves symmetrically arranged on the clamping base. Pressing rods are slidably connected in the two pressing grooves. Limit buttons are fixedly connected to one end of the two pressing rods near the clamping base.

[0017] Preferably, the card connector has a slot, and the slot forms a sliding fit with the second pressing rod.

[0018] Preferably, the clamping seat has a circular groove, and there are at least two circular grooves. The two circular grooves are respectively connected to two snap-fit ​​grooves. The snap-fit ​​joint has a snap-fit ​​groove, which is connected to the slot. The snap-fit ​​groove and the limit button form a sliding fit. A spring is provided in the pressing groove.

[0019] As described above, the features and advantages of the integrated distribution box with wiring organization in this invention are:

[0020] By using the clamping blocks and guide rails, the two clamping blocks clamp onto the guide rails from the top and bottom, enabling quick installation of the mounting bases. The number of mounting bases can be adjusted according to the number of cables. Furthermore, the position of the mounting bases and the spacing between multiple mounting bases can be flexibly adjusted with the cooperation of the clamping blocks and guide rails. Compared to traditional cable management racks in distribution boxes, this avoids the situation where the number of cable management structures is fixed and insufficient to cope with the different number of cables in the distribution box, thus preventing situations where there are redundant cable management structures or structures that do not meet the usage requirements.

[0021] The rotating block drives the clamping seat to rotate, and pressing the first pressing rod causes the rotating block and the connecting shaft to rotate 90 degrees and be fixed. Therefore, the clamping seat, which is fixedly connected to the connecting shaft, rotates 90 degrees and is fixed simultaneously. This makes the direction of the storage slot, installation clamp and other components parallel to the guide rail, so as to deal with the bent cable. Compared with the existing cable management rack with a single direction, it can fix and organize the bent section of the cable, which is conducive to improving the stability of the cable and at the same time avoids the cable bending section being messy and affecting the installation of the distribution box.

[0022] Through the cooperation of the movable clamp and the mounting clamp, during the process of the mounting clamp being pushed onto the clamping seat and installed, the mounting clamp pushes the cable, causing the cable to push the movable clamp. This causes the end of the movable clamp away from the cable to slide into the sliding cavity and compress the spring four. Under the action of the spring four, the movable clamp compresses the cable, thereby fixing the cable under the action of the mounting clamp and the movable clamp. At the same time, because the movable clamp has a certain amount of room for movement due to the sliding connection between the sliding rod and the sliding cavity, it can adapt to cables of different thicknesses and fix them. Compared with the existing technology of fixing cables by bolts, there is no need to use tools to rotate the bolts. At the same time, it achieves self-adaptive fixing of the cable during the installation process, which is convenient to use and has a better fixing effect.

[0023] By using the movable clamp and clamping block, pressing the two pressing rods on both sides of the clamping seat causes the connector to lose its limit, allowing the disassembly clamp to be removed from the clamping seat. This removes one side of the cable, making it easier to remove the cable for maintenance. Furthermore, when the cable is removed and does not need to be reinstalled, there are often extra mounting seats. Therefore, pressing the pressing block will cause the clamping block to open again via the rotating shaft, allowing the mounting seat to be removed from the guide rail for recycling. Compared to existing fixed cable fixing structures, this mounting seat is easier to use in distribution boxes where cable fixing is required, avoiding waste. The simple disassembly process also facilitates maintenance and repair of the mounting seat itself. Attached Figure Description

[0024] Figure 1 This is a three-dimensional schematic diagram of the overall structure of the present invention;

[0025] Figure 2 This is a three-dimensional schematic diagram of the fixing frame structure shown in this invention;

[0026] Figure 3 This is a three-dimensional cross-sectional view of the guide rail structure shown in this invention;

[0027] Figure 4 This is a three-dimensional cross-sectional view of the internal structure of the mounting base shown in this invention;

[0028] Figure 5 This is a three-dimensional cross-sectional view of the sliding groove structure shown in this invention;

[0029] Figure 6 This is a three-dimensional cross-sectional view of the internal structure of the pressing groove shown in this invention;

[0030] Figure 7 This is a three-dimensional cross-sectional view of the internal structure of the mounting base shown in this invention;

[0031] Figure 8 This is a three-dimensional cross-sectional view of the limiting groove structure shown in this invention;

[0032] Figure 9 This is a three-dimensional cross-sectional view of the internal structure of the clamping seat shown in this invention;

[0033] Figure 10 As shown in this invention Figure 9 Enlarged view of point A in the middle;

[0034] Figure 11 This is a three-dimensional schematic diagram of the card slot structure shown in this invention.

[0035] In this invention, the reference numerals are: 1. distribution box; 2. mounting bracket; 3. fixing bracket;

[0036] Quick-installation components: 401, guide rail; 402, mounting base; 403, clamping block; 404, pressing groove one; 405, rotating shaft; 406, swing rod; 407, sliding shaft; 408, sliding groove one; 409, pressing block; 410, lifting plate; 411, sliding groove two; 412, spring one;

[0037] Direction adjustment assembly: 501, rotating cavity; 502, rotating block; 503, connecting shaft; 504, pressing groove two; 505, pressing rod one; 506, roller; 507, spring two; 508, extrusion groove; 509, extrusion rod; 510, ball; 511, limiting groove; 512, spring three;

[0038] Cable fixing components: 601, clamp base; 602, storage slot; 603, sliding cavity; 604, sliding rod; 605, movable clamp; 606, spring four; 607, mounting clip; 608, snap-fit ​​slot; 609, snap-fit ​​connector; 610, pressing slot three; 611, pressing rod two; 612, limit button; 613, slot; 614, circular slot; 615, slot; 616, spring five. Detailed Implementation

[0039] The technical solutions of the present invention will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present invention. Obviously, the described embodiments are only some embodiments of the present invention, and not all embodiments. All other embodiments obtained by those skilled in the art based on the embodiments of the present invention without creative effort are within the scope of protection of the present invention.

[0040] See 1~ Figure 11 As shown, this is an embodiment of the present invention, and the integrated distribution box with wiring organization provided will be described in detail below:

[0041] A type of integrated distribution box with wiring organization capabilities, such as... Figures 1 to 8 As shown, it includes: a distribution box 1, a mounting bracket 2 and a fixing bracket 3. The mounting bracket 2 is fixedly installed inside the distribution box 1. The fixing bracket 3 is detachably connected to the mounting bracket 2. The fixing bracket 3 is detachably connected to the mounting bracket 2 by bolts. The fixing bracket 3 is equipped with a quick-installation component.

[0042] The quick-installation assembly includes a guide rail 401 fixedly connected to a mounting bracket 3. A mounting base 402 is located on the side of the guide rail 401 away from the mounting bracket 3. A clamping block 403 is located on the side of the mounting base 402 closest to the mounting bracket 3. The mounting base 402 has at least two pressing grooves 404 symmetrically arranged on it. Rotating shafts 405 are fixedly connected to both ends of the clamping blocks 403. The ends of the two rotating shafts 405 away from the clamping blocks 403 are rotatably connected to the mounting base 402. Swing rods 406 are fixedly connected to the sides of the two rotating shafts 405. Sliding shafts 407 are fixedly connected to the ends of the two swing rods 406 away from the rotating shafts 405. A sliding groove 408 is provided on the mounting base 402, and the sliding groove 408 is one-quarter of the diameter of the shaft. An arc is formed, with no fewer than four sliding grooves 408. Two sliding grooves 408 are grouped together, and each group of sliding grooves 408 is symmetrically arranged on both sides of the pressing groove 404. The ends of four sliding shafts 407 away from the swing rod 406 are slidably connected to the four sliding grooves 408 respectively. Pressing blocks 409 are slidably connected in the two pressing grooves 404. Lifting plates 410 are fixedly connected to both sides of the two pressing blocks 409 respectively. Sliding grooves 411 are provided on the four lifting plates 410. The sliding grooves 411 are located between the swing rod 406 and the sliding grooves 408. The lifting plates 410 form a limiting fit with the sliding shafts 407 through the sliding grooves 411. A spring 412 is provided in the pressing groove 404. The two ends of the spring 412 are fixedly connected to the pressing groove 404 and the pressing block 409 respectively.

[0043] Furthermore, such as Figure 3 , Figure 4 , Figures 7-9As shown, a direction adjustment assembly is provided inside the mounting base 402. The direction adjustment assembly includes a rotating cavity 501 opened in the mounting base 402. The rotating cavity 501 is located on the side of the mounting base 402 near the guide rail 401. A rotating block 502 is rotatably fitted inside the rotating cavity 501. The rotating block 502 is a cube, and the rotating cavity 501 is the circumscribed circle of the rotating block 502. A connecting shaft 503 is fixedly connected to the middle of the rotating block 502. One end of the connecting shaft 503 passes through the mounting base 402, and the other end of the connecting shaft 503 passing through the mounting base 402 is rotatably connected to the mounting base 402. A second pressing groove 504 is opened on one side of the mounting base 402. The second pressing groove 504 is connected to the rotating cavity 501. A first pressing rod 505 is slidably connected inside the second pressing groove 504. A roller 506 is provided on the side near the rotating cavity 501. The roller 506 forms a rolling fit with the edge of the rotating block 502. A spring 507 is provided in the pressing groove 504. A pressing groove 508 is provided in the mounting base 402. A pressing rod 509 is slidably connected in the pressing groove 508. A ball 510 is fixedly connected to the end of the pressing rod 509 away from the pressing groove 508. A limiting groove 511 is provided on the rotating block 502. There are no fewer than four limiting grooves 511. The four limiting grooves 511 are equidistantly distributed on the rotating block 502. The limiting grooves 511 are semi-circular. The limiting grooves 511 and the ball 510 form a pressing fit. A spring 512 is provided in the pressing groove 508. The two ends of the spring 512 are fixedly connected to the pressing groove 504 and the pressing rod 505, respectively.

[0044] Furthermore, such as Figure 3 , Figure 4 , Figures 8-11As shown, a cable fixing assembly is provided on the mounting base 402. The cable fixing assembly includes a clamping base 601 fixedly connected to the connecting shaft 503. The clamping base 601 has a storage groove 602, which is semi-circular and located on the side away from the mounting base 402. The clamping base 601 has a sliding cavity 603, which is located on the side close to the storage groove 602 and is connected to the storage groove 602. A sliding rod 604 is slidably connected inside the sliding cavity 603. A movable clip 605 is fixedly connected to one end near the storage slot 602. The movable clip 605 is semi-circular. A spring 606 is installed inside the sliding cavity 603. The two ends of the spring 606 are fixedly connected to the sliding cavity 603 and the sliding rod 604, respectively. An mounting clip 607 is provided on the outside of the movable clip 605. The mounting clip 607 is semi-circular. A locking groove 608 is opened on the clamping base 601. There are no fewer than two locking grooves 608. The two locking grooves 608 are symmetrically distributed on both sides of the storage slot 602. The two ends of the mounting clip 607 are fixedly connected to... A snap-fit ​​connector 609 is provided, which is inserted into a snap-fit ​​groove 608. A clamping base 601 has at least two pressing grooves 610, symmetrically arranged on the clamping base 601. A pressing rod 611 is slidably connected within each of the two pressing grooves 610. One end of the pressing rod 611 near the snap-fit ​​groove 608 passes through the pressing groove 610. A limit button 612 is fixedly connected to one end of the pressing rod 611 near the clamping base 601. A slot 6 is provided on the snap-fit ​​connector 609. 13. The slot 613 and the second pressing rod 611 form a sliding fit. The clamping seat 601 has a circular slot 614. There are at least two circular slots 614. The two circular slots 614 are respectively connected to two snap-fit ​​slots 608. The snap-fit ​​connector 609 has a snap-fit ​​groove 615. The snap-fit ​​groove 615 is connected to the slot 613. The snap-fit ​​groove 615 forms a sliding fit with the limit button 612. The third pressing slot 610 is provided with a fifth spring 616. The two ends of the fifth spring 616 are respectively fixedly connected to the third pressing slot 610 and the second pressing rod 611.

[0045] Based on the above embodiments, the following is the complete working process and working principle of the above embodiments:

[0046] The initial state is:

[0047] The fixing bracket 3 is bolted to the mounting bracket 2. The mounting base 402 is not mounted on the guide rail 401. The spring 412 extends, causing the pressing block 409 to extend out of the pressing groove 404, thereby driving the lifting plate 410 to the highest point in the pressing groove 404. This causes the sliding shaft 407 located in the sliding groove 411 to drive the swing rod 406 and the rotating shaft 405 to be parallel to the lifting plate 410. The sliding shaft 407 is at the top of the sliding groove 408, making the clamping block 403 perpendicular to the mounting base 402. The pressing groove 504 extends, causing the end of the pressing rod 505 away from the roller 506 to be perpendicular to the mounting base 402. The edge of 02 is flush, the rotating block 502 is not rotating, and one corner of the rotating block 502 near the roller 506 is stuck between the corner of the pressing rod 505 and the roller 506, so that the rotating block 502 is fixed to the connecting shaft 503. The spring 3 512 extends, so that the pressing rod 509 extends, thereby pressing the ball 510 into the corresponding limiting groove 511. The spring 4 606 extends, so that the sliding rod 604 extends out of the sliding cavity 603. The snap-fit ​​joints 609 on both sides of the mounting clip 607 are not inserted into the snap-fit ​​groove 608. The spring 5 616 extends, so that the end of the pressing rod 2 611 away from the limiting button 612 is flush with the edge of the mounting base 402.

[0048] The working status is:

[0049] Install the mounting bracket onto the guide rail:

[0050] When installing the mounting base 402, simultaneously pinch and press the two pressing blocks 409 on the upper and lower sides of the mounting base 402. This causes the pressing blocks 409 to slide into the pressing groove 404 under pressure, thereby moving the lifting plates 410 on both sides downwards. This causes the sliding shaft 407 in the sliding groove 411 to slide downwards under the limiting action of the sliding groove 411. Under the constraint of the rotating shaft 405's rotational connection with the mounting base 402, as the sliding shaft 407 slides along the sliding groove 408, it drives the swing rod 406 to rotate downwards around the rotating shaft 405. The rotating shaft 405 rotates under the influence of the swing rod 406. When the sliding shaft 407 slides from the top to the bottom of the sliding groove 408, the rotating shaft 405 rotates ninety degrees under the influence of the swing rod 406, causing the two clamping blocks 403 to open simultaneously. At this point, the mounting base 402 can be pressed against... After pressing the guide rail 401, the hand that was pressing the pressing block 409 is released, causing the spring 412 under the squeezed state to reset and push the pressing block 409 to reset, thereby driving the lifting plate 410 to rise, which in turn drives the sliding shaft 407 and the swing rod 406 to rotate and reset. Then, the clamping block 403 returns to the perpendicular angle with the mounting base 402 under the action of the rotating shaft 405, so that the two clamping blocks 403 clamp the guide rail 401 from the top and bottom sides, realizing the quick installation of the mounting base 402. The corresponding number of mounting bases 402 can be installed according to the number of cables. With the cooperation of the clamping block 403 and the guide rail 401, the position of the mounting base 402 and the spacing between multiple mounting bases 402 can be flexibly adjusted. Compared with the traditional cable management rack in the distribution box, it avoids the situation that the number of cable management structures is fixed and insufficient to cope with the different number of cables in the distribution box, so that there will be no situation where the cable management structure is redundant or does not meet the usage requirements.

[0051] Adjust the orientation of the clamping seat:

[0052] When the wiring inside the distribution box needs to be bent, a fixing bracket 3 is installed at the location where the cable needs to be bent, and a mounting base 402 is installed on the fixing bracket 3. Then, the pressing rod 505 is pressed, causing the pressing rod 505 to slide into the pressing groove 504 and compress the spring 507. At this time, the end of the pressing rod 505 with the roller 506 pushes the corner of the rotating block 502, causing the rotating block 502 to rotate under the pushing action of the pressing rod 505. During the rotation of the rotating block 502, the limiting groove 511 rotates synchronously, so the ball 510 is pushed out of the limiting groove 511 under the pushing action, thereby causing the ball 510 to slide into the pressing groove 508 and causing the pressing rod 509 to compress the spring 512. Then the rotating block 502 continues to rotate until the rotating block 502 rotates ninety degrees. The limiting groove 511 on the rotating block 502 is aligned with the ball 510 again, causing the ball 510 and the pressing rod 509 to slide out of the pressing groove 508 under the pushing action of the spring 512. As a result, the ball 510 is inserted into the limiting groove 511, and the rotating block 502 is fixed again. At this time, since the rotating block 502 and the connecting shaft 503 rotate 90 degrees and are fixed, the clamping seat 601, which is fixedly connected to the connecting shaft 503, rotates 90 degrees and is fixed in sync. This makes the direction of the components such as the storage groove 602 and the mounting clamp 607 parallel to the guide rail 401, so as to deal with the bent cable. Compared with the existing single-direction cable management rack, it can fix and organize the bent section of the cable, which is beneficial to improve the stability of the cable and avoid the messy bent section of the cable affecting the installation of the distribution box.

[0053] Secure the cable to the clamp:

[0054] When securing the cable, first place the cable into the movable clamp 605. Then, align the connectors 609 on both sides of the mounting clamp 607 with the slots 608 and insert them. At this time, because the spring 616 extends and pushes the pressing rod 611 away from the pressing slot 610, the limit button 612, driven by the pressing rod 611, fits against the side of the slot 608 closest to the pressing slot 610. When the connector 609 enters the slot 608 and contacts the limit button 612, the inclined surface of the connector 609 inserts into the gap between the limit button 612 and the slot 608, thereby limiting the cable. Button 612 is pushed into the circular groove 614, causing the second pressing rod 611 to slide into the third pressing groove 610 while simultaneously compressing the fifth spring 616. As the locking connector 609 continues to slide into the locking groove 608, the slot 613 and the second pressing rod 611 cooperate to prevent the locking connector 609 from being interfered with. When the locking connector 609 is fully inserted into the locking groove 608 and the locking groove 615 is aligned with the limit button 612, the fifth spring 616 extends again, pushing the third pressing groove 610 away from the locking groove 608, causing the limit button 612 to slide out of the circular groove 614 and into the locking groove. Inside 615, the connector 609 is fixed inside the slot 608, thus completing the installation of the mounting clip 607. During this process, since the cable is located inside the movable clip 605, the mounting clip 607 contacts the side of the cable away from the movable clip 605. Subsequently, as the mounting clip 607 is pushed onto the clamping seat 601 for installation, the mounting clip 607 pushes the cable, causing the cable to push the movable clip 605. This causes the end of the movable clip 605 away from the cable to slide into the sliding cavity 603 and compress the spring 606. When the mounting clip 607 is installed into the clamping seat 601... After being mounted and fixed on the seat 601, the movable clamp 605, under the action of the spring 606, squeezes the cable, thereby fixing the cable under the action of the mounting clamp 607 and the movable clamp 605. At the same time, since the movable clamp 605 has a certain amount of room for movement due to the sliding connection between the sliding rod 604 and the sliding cavity 603, it can adapt to cables of different thicknesses and fix them. Compared with the existing cable fixing structure that uses bolts, there is no need to use tools to rotate the bolts. At the same time, it can achieve self-adaptive fixing of the cable during the installation process, which is convenient to use and has a better fixing effect.

[0055] Quick-release mounting clips and mounting bases:

[0056] When it is necessary to disassemble the cable for replacement or maintenance, press the pressing rods 611 on both sides of the clamping seat 601. This causes the pressing rods 611 to slide into the pressing groove 610 and compress the spring 616. At the same time, it pushes the limit button 612 into the circular groove 614. When the limit button 612 is fully slid into the circular groove 614, the locking connector 609 loses its limit, and the disassembly clip 607 can be removed from the clamping seat 601. This causes one side of the cable to lose its fixation, and the cable can then be removed. When the cable is removed and does not need to be reinstalled, the mounting seat 402... Since there is excess cable, the pressing block 409 can be pressed to move the lifting plate 410 downward again, thereby rotating the sliding shaft 407 and the swing rod 406. Then, the clamping block 403 is opened again through the rotating shaft 405. At this time, the mounting base 402 can be removed from the guide rail 401 for recycling. Compared with the existing fixed cable fixing structure, it is convenient to use the mounting base 402 in the distribution box where cable fixing is required, avoiding waste. At the same time, the simple disassembly process also facilitates the maintenance and repair of the mounting base 402 body.

[0057] The above description is merely an embodiment of the present invention and is not intended to limit the present invention. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of the present invention should be included within the protection scope of the present invention.

Claims

1. A comprehensive distribution box with wiring organization capabilities, characterized in that, include: Distribution box (1); The mounting bracket (2) is fixedly installed inside the distribution box (1), and the mounting bracket (2) has holes for mounting bolts; The fixing bracket (3) is detachably connected to the mounting bracket (2); A quick-installation assembly is mounted on a mounting bracket (3), wherein the quick-installation assembly includes: The guide rail (401) is fixedly connected to the mounting bracket (3) and located on the side close to the mounting bracket (2); Mounting base (402) is located on the side of guide rail (401) away from fixed frame (3). The mounting base (402) is provided with pressing groove 1 (404) and sliding groove 1 (408). There are at least two pressing grooves 1 (404). The two pressing grooves 1 (404) are symmetrically arranged on the mounting base (402). The two sliding grooves 1 (408) are respectively symmetrically arranged on both sides of the two pressing grooves 1 (404). A clamping block (403) is set on the side of the mounting base (402) near the fixing frame (3). Two pressing grooves (404) are symmetrically arranged on the mounting base (402). The edges of the two pressing grooves (404) are fixedly connected to a rotating shaft (405). The two pressing grooves (404) are rotatably connected to the mounting base (402) through the rotating shaft (405). A swing rod (406) is fixedly connected to a rotating shaft (405). A sliding shaft (407) is fixedly connected to one end of the swing rod (406) away from the rotating shaft (405). The clamping block (403) can rotate under the drive of the swing rod (406). The pressing block (409) is slidably connected in the pressing groove (404). The pressing block (409) is fixedly connected to both sides of the lifting plate (410). The lifting plate (410) is provided with a sliding groove (411). One end of the sliding shaft (407) is inserted into the sliding groove (411). A spring (412) is disposed between a pressing groove (404) and a pressing block (409). When the spring (412) is extended, it can push the pressing block (409) upward. A direction adjustment assembly is provided inside the mounting base (402). The direction adjustment assembly includes a rotating cavity (501) opened in the mounting base (402). The rotating cavity (501) is located on the side of the mounting base (402) near the guide rail (401). A rotating block (502) is rotatably fitted inside the rotating cavity (501). A connecting shaft (503) is fixedly connected to the middle of the rotating block (502). A second pressing groove (504) is opened on one side of the mounting base (402). A first pressing rod (505) is slidably connected inside the second pressing groove (504). The first pressing rod (505) is close to the rotating cavity (501). 1) A roller (506) is provided on one side, a spring (507) is provided in the pressing groove (504), a squeezing groove (508) is provided in the mounting base (402), a squeezing rod (509) is slidably connected in the squeezing groove (508), a ball (510) is fixedly connected to one end of the squeezing rod (509) away from the squeezing groove (508), a limiting groove (511) is provided on the rotating block (502), there are no less than four limiting grooves (511), the four limiting grooves (511) are equidistantly distributed on the rotating block (502), and a spring (512) is provided in the squeezing groove (508).

2. The integrated distribution box with wiring organization according to claim 1, characterized in that, The sliding groove (408) is a quarter-circle arc.

3. A comprehensive distribution box with wiring organization according to claim 2, characterized in that, The second sliding groove (411) is located between the swing rod (406) and the first sliding groove (408), and the lifting plate (410) forms a limiting fit with the sliding shaft (407) through the second sliding groove (411).

4. A comprehensive distribution box with wiring organization as described in claim 1, characterized in that, The pressing groove 2 (504) is connected to the rotating cavity (501).

5. A comprehensive distribution box with wiring organization according to claim 2, characterized in that, The limiting groove (511) is semi-circular, and the limiting groove (511) and the sphere (510) form a compression fit.

6. A comprehensive distribution box with wiring organization according to claim 3, characterized in that, One end of the connecting shaft (503) passes through the mounting base (402), and the end of the connecting shaft (503) passing through the mounting base (402) is rotatably connected to the mounting base (402).

7. A comprehensive distribution box with wiring organization according to claim 6, characterized in that, A cable fixing assembly is provided on the mounting base (402). The cable fixing assembly includes a clamping base (601) fixedly connected to the connecting shaft (503). The clamping base (601) has a storage groove (602) located on the side away from the mounting base (402). The clamping base (601) has a sliding cavity (603) located on the side close to the storage groove (602). The sliding cavity (603) is connected to the storage groove (602). A sliding rod (604) is slidably connected in the sliding cavity (603). A movable clamp (605) is fixedly connected to one end of the sliding rod (604) near the storage groove (602). A spring (606) is provided in the sliding cavity (603). The movable clamp (605) An installation clip (607) is provided on the outside of the storage slot (602). A snap-fit ​​groove (608) is provided on the clamping base (601). There are at least two snap-fit ​​grooves (608). The two snap-fit ​​grooves (608) are symmetrically distributed on both sides of the storage slot (602). A snap-fit ​​connector (609) is fixedly connected to both ends of the installation clip (607). The snap-fit ​​connector (609) is inserted into the snap-fit ​​groove (608). A pressing groove three (610) is provided on the clamping base (601). There are at least two pressing groove three (610). The two pressing groove three (610) are symmetrically arranged on the clamping base (601). A pressing rod two (611) is slidably connected in the two pressing groove three (610). A limit button (612) is fixedly connected to one end of the two pressing rod two (611) near the clamping base (601).

8. A comprehensive distribution box with wiring organization according to claim 7, characterized in that, The snap-fit ​​connector (609) has a slot (613) which is in sliding fit with the second pressing rod (611).

9. A comprehensive distribution box with wiring organization according to claim 8, characterized in that, The clamping base (601) has a circular groove (614) inside, and there are at least two circular grooves (614). The two circular grooves (614) are respectively connected to two snap-fit ​​grooves (608). The snap-fit ​​connector (609) has a snap-fit ​​groove (615) inside, and the snap-fit ​​groove (615) is connected to the slot (613). The snap-fit ​​groove (615) is in sliding fit with the limit button (612). The pressing groove three (610) is provided with a spring five (616).