CN120111817A - Integrated cabinet with internal auxiliary wiring - Google Patents

Abstract

The present invention discloses a comprehensive cabinet for internal auxiliary combing and wiring, which specifically relates to the technical field of cabinets, including an electrical equipment housing, an adjustment frame, an adjustment concave wire groove, a wireless controller, and a multi-dimensional adjustment component; wherein the multi-dimensional adjustment component includes a linkage shaft, a sliding frame, an adjustment sleeve block, a linkage sleeve frame, a rotating shaft, a combing wire row, and an adjustment wire row. The present invention adopts a multi-dimensional adjustment component, which has the advantages of realizing concave route adjustment of the combing wire row and the adjustment wire row as well as multi-dimensional integrated adjustment of lateral rotation, vertical rotation, lateral movement, and vertical movement according to the wiring requirements of the comprehensive special-shaped electrical equipment inside the electrical equipment housing, thereby solving the problem that traditional combing and wiring racks are mostly fixed-position designs, difficult to perform multi-dimensional adjustment according to specific wiring requirements, and unable to effectively adapt to the wiring methods of special-shaped equipment, increasing the difficulty of combing and wiring, and reducing the efficiency of combing and wiring.

Description

Comprehensive cabinet with internal auxiliary carding flat cable

Technical Field

The invention relates to the technical field of cabinets, in particular to an integrated cabinet with an internal auxiliary carding flat cable.

Background

The integrated cabinet of the electric equipment for internally assisting in carding and arranging wires is often called a wire arranging cabinet or a wiring cabinet, and is mainly core equipment for arranging, protecting and managing cables in weak-current scenes, the core function of the integrated cabinet is embodied in the integrated management function of the cables, and the cables are laid and fixed through a wire binding belt by using a carding and arranging rack in the cabinet.

In the prior art, patent publication number CN206993501U discloses a comprehensive cabinet, the technology is provided with door locks on two door bodies, so that the comprehensive cabinet has an anti-theft function, ventilation meshes are arranged on the surfaces of the two door bodies, the comprehensive cabinet has a good heat dissipation function, in addition, the frame body of the comprehensive cabinet is detachably connected with the plate bodies on the surfaces, and the comprehensive cabinet is convenient to assemble. But this technique has the following drawbacks.

When carding the winding displacement in synthesizing the rack inside, because of electrical equipment arrangement mode is various, irregular winding displacement demand exists for special-shaped electrical equipment, and traditional carding winding displacement frame mostly designs fixed position, lacks the flexibility, and this limitation leads to in actual installation, is difficult to carry out multidimensional adjustment according to specific winding displacement demand, can't effectively adapt to the wiring mode of special-shaped equipment, has increased and has combed the winding displacement degree of difficulty, has reduced and has combed winding displacement efficiency.

Disclosure of Invention

In order to overcome the defects of the prior art, the technical scheme is that the integrated cabinet for internally assisting in carding and arranging wires comprises an electric equipment shell, an adjusting frame, an adjusting groove and a wireless controller, wherein the adjusting frame is positioned in the electric equipment shell, the adjusting groove is formed in the adjusting frame, a multi-dimensional adjusting component is arranged in the adjusting groove, the multi-dimensional adjusting component comprises a linkage shaft which is in sliding connection with the inside of the adjusting groove, the bottom end of the linkage shaft is fixedly connected with a sliding frame, the inner wall of the sliding frame is in sliding connection with an adjusting sleeve block, the bottom end of the adjusting sleeve block is fixedly provided with a linkage sleeve frame, the inner wall of the linkage sleeve frame is rotatably connected with a rotating shaft, one end part of the rotating shaft is fixedly provided with a carding wire row, and the inner wall of the carding wire row is in sliding connection with the adjusting wire row. The adjusting sleeve block is connected with the linkage shaft in a sliding way, the outer wall of the linkage shaft and the inner wall of the adjusting frame are smooth surfaces, and a gap is arranged between the sliding frame and the adjusting frame.

One end of the adjusting frame is fixedly connected with a supporting block, the supporting block is fixedly connected with the casing of the electrical equipment, and the wireless controller is located below the supporting block. The bottom end of the wireless controller is fixedly connected with a storage battery, the storage battery is electrically connected with the wireless controller, and the wireless controller and the storage battery are fixedly connected with the casing of the electrical equipment. The cabinet door is installed to one side of electrical equipment casing, just the cabinet door is articulated with the electrical equipment casing. The bottom end of the electric equipment shell is fixedly communicated with a wire hole seat, and a plurality of round through holes are formed in the wire hole seat.

When the technology is used, the linkage shaft slides along the regulating groove in the regulating frame, the linkage shaft moves along the concave route, the sliding frame drives the regulating sleeve block to move along the concave route, the linkage sleeve frame drives the rotating shaft to move along the concave route, and the rotating shaft drives the carding line row to move along the concave route. The linkage shaft drives the two limiting rings to transversely rotate, the linkage shaft drives the sliding frame to transversely rotate, the adjusting sleeve block drives the linkage sleeve frame to transversely rotate, and the rotating shaft drives the carding line row to transversely rotate. The linkage sleeve frame drives the adjusting sleeve block to transversely move, the adjusting sleeve block can also transversely move along the inner wall of the sliding frame, and the two limiting rotating rings drive the rotating shaft to transversely move. The rotating shaft drives the carding line row to transversely move, and the carding line row drives the adjusting line row to transversely move for adjustment. The pivot is at the inside vertical rotation of linkage cover frame, and the carding line row makes the adjusting line row carry out vertical rotation, and the adjusting line row is along the inside vertical regulation removal of carding line row.

Preferably, the upper surface and the lower surface of the adjusting frame are both connected with limiting rings in a sliding manner; the two limiting rings are fixedly connected with the linkage shaft, one of the limiting rings is fixedly connected with a linkage block on the outer wall of the limiting ring, one side of the linkage block is fixedly connected with a linkage electromagnet, the outer part of the adjusting frame is fixedly connected with a magnetic attraction outer frame, the magnetic attraction outer frame and the adjusting frame are both in sliding connection with the linkage block, the magnetic attraction outer frame and the adjusting frame are both in ferromagnetic attraction connection with the linkage electromagnet, one side of the adjusting sleeve block is fixedly connected with an adjusting electromagnet, the adjusting electromagnet is electrically connected with the sliding frame, one side of the adjusting electromagnet is magnetically attracted with a magnetic attraction strip, the magnetic attraction strip is fixedly connected with the sliding frame, the inner wall of the adjusting sleeve block is slidably connected with a guide post, the guide post is fixedly connected with the sliding frame, and the linkage electromagnet and the magnetic attraction strip are both electrically connected with the wireless controller.

When the technology is used, when the limiting ring moves along the concave route, the linkage block drives the linkage electromagnet to move, the limiting ring can drive the linkage block to rotate, and after the position of the linkage shaft is adjusted, the linkage electromagnet is opened through the wireless controller, and the linkage electromagnet, the adjusting frame and the magnetic attraction outer frame are fixed in a magnetic attraction mode. The adjusting sleeve block can drive the adjusting electromagnet to transversely move, the adjusting electromagnet transversely moves along the magnetic attraction strip, and after the adjusting sleeve block transversely moves, the adjusting electromagnet is magnetically attracted and fixed with the magnetic attraction strip.

The novel magnetic force type carding machine comprises a rotating shaft, a rotating cap, a magnetic attraction ring, a fixed electromagnet, a linkage sleeve frame, limiting rotating rings, an L-shaped strip, a groove frame, a locking electromagnet, a limiting block, a wireless controller and a locking electromagnet, wherein the rotating cap is fixedly connected to the other end of the rotating shaft, the magnetic attraction ring is fixedly connected to the outer wall of the rotating shaft and close to the position of the rotating cap, the fixed electromagnet is fixedly connected to one side of the magnetic attraction ring, the limiting rotating rings are rotatably connected to the two sides of the linkage sleeve frame, the limiting rotating rings are fixedly connected with the rotating shaft, the L-shaped strip is arranged above the carding line, the top end of the L-shaped strip is fixedly connected with the adjusting line, the groove frame is slidably connected to the outer wall of the L-shaped strip, the groove frame is fixedly connected with the carding line, the locking electromagnet is fixedly installed on one side of the inner wall of the groove frame, the locking electromagnet is in magnetic attraction connection with the L-shaped strip, and the bottom end of the L-shaped strip is fixedly connected with the limiting block, and the fixed electromagnet is electrically connected with the wireless controller. The vertical section of the magnetic attraction ring is circular, and the two limiting rotating rings are symmetrically arranged relative to the linkage sleeve frame. The outer wall of the L-shaped strip and the inner wall of the groove frame are smooth surfaces, and the vertical section of the L-shaped strip is L-shaped.

When the magnetic attraction ring is used, the magnetic attraction ring is driven to vertically rotate when the rotating shaft rotates, the magnetic attraction ring vertically rotates on the side face of the fixed electromagnet, and the fixed electromagnet magnetically attracts and fixes the magnetic attraction ring. When the adjusting wire row vertically moves in the carding wire row, the adjusting wire row can also drive the L-shaped strip to vertically move, the carding wire row supports the groove frame, the groove frame supports the locking electromagnet, the L-shaped strip drives the limiting block to move upwards, the limiting block is in contact with the groove frame to carry out limiting treatment, and after the adjusting wire row vertically moves and is adjusted, the locking electromagnet magnetically attracts and locks the L-shaped strip.

The invention has the technical effects and advantages that:

1. According to the invention, the multidimensional adjusting assembly is adopted, concave route adjustment and multidimensional integrated adjustment of transverse rotation, vertical rotation, transverse movement and vertical movement are realized for the carding line row and the adjusting line row according to wiring requirements of the comprehensive special-shaped electric equipment in the electric equipment shell, the wiring mode of the special-shaped equipment can be effectively adapted, the carding line row difficulty is greatly reduced, and the carding line row efficiency in the electric equipment shell is improved.

2. According to the invention, the linkage electromagnet can be driven to synchronously move or rotate when the limiting ring moves or rotates, after the position of the linkage shaft is adjusted, the linkage electromagnet is fixed with the adjusting frame and the magnetic attraction outer frame in a magnetic attraction manner, the adjusting sleeve block drives the adjusting electromagnet to transversely move along the magnetic attraction strip and slide along the outer wall of the guide post when transversely moving, after the position is adjusted, the adjusting electromagnet is fixed with the magnetic attraction strip in a magnetic attraction manner, the fixing effect of the carding line row and the adjusting line row after adjustment is enhanced, and multi-dimensional rapid adjustment and fixation can be realized.

3. According to the invention, the rotating shaft is adopted to rotate to drive the magnetic attraction ring to vertically rotate on the side surface of the fixed electromagnet, after the position is adjusted, the fixed electromagnet can magnetically attract and fix the magnetic attraction ring, the L-shaped strip driving limiting block moves upwards to be in contact with the groove frame to limit, after the adjustment is finished, the locking electromagnet is opened to magnetically attract and lock the L-shaped strip, and the fixing effect after the adjustment of the carding line row and the adjusting line row is realized, so that the multidimensional rapid adjustment and fixation is realized.

Above-mentioned influence each other of a plurality of effects, at first can be according to the special-shaped electrical equipment wiring demand in the electrical equipment casing, carry out spill route and multidimensional integration regulation to carding line row and adjusting line row, reduce the winding displacement degree of difficulty, improve carding winding displacement efficiency, and through the magnetism inhale the frame and the ferromagnetic cooperation of inhaling of linkage electromagnetism, still can inhale the cooperation through adjusting electromagnet and magnetism, and the rotatory magnetism that drives magnetism of pivot inhale the ring and fixed electromagnet and inhale fixedly, L shape strip carries out magnetism with locking electromagnet simultaneously and inhale the locking, realize multidimensional quick adjustment fixedly.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the integrated cabinet with the internal auxiliary carding flat cable of the present invention.

FIG. 2 is a schematic view of the vertical section of the integrated cabinet with the internal auxiliary carding flat wires of the present invention in a bottom partial structure.

Fig. 3 is a schematic view of a partial structure of a joint between an adjusting frame and a linkage shaft according to the present invention.

Fig. 4 is a schematic view of a truncated partial structure of a joint of a linkage sleeve frame and an adjusting sleeve block.

Fig. 5 is a schematic view of a partial structure of a linkage frame and a rotary shaft connection in front view.

Fig. 6 is a schematic view of a truncated partial structure of a joint between a rotating shaft and a rotating cap according to the present invention.

Fig. 7 is a schematic diagram of a partial structure of a joint of a linkage block and a linkage electromagnet according to the present invention.

FIG. 8 is a schematic view of a part of the joint between the L-shaped bar and the limiting block.

Fig. 9 is a schematic view of a vertical section cut-off partial structure of the junction of the support block and the casing of the electrical equipment according to the present invention.

The device comprises a shell of an electric device, 2 parts of an adjusting frame, 3 parts of an adjusting concave groove, 4 parts of a linkage shaft, 5 parts of a sliding frame, 6 parts of an adjusting sleeve block, 7 parts of a linkage sleeve frame, 8 parts of a rotating shaft, 9 parts of a carding line row, 10 parts of an adjusting line row, 11 parts of a limiting ring, 12 parts of a linkage block, 13 parts of a linkage electromagnet, 14 parts of a magnetic attraction outer frame, 15 parts of an adjusting electromagnet, 16 parts of a magnetic attraction strip, 17 parts of a guide post, 18 parts of a rotating cap, 19 parts of a magnetic attraction ring, 20 parts of a fixed electromagnet, 21 parts of a cabinet door, 22 parts of a limiting rotating ring, 23 parts of an L-shaped strip, 24 parts of a groove frame, 25 parts of a locking electromagnet, 26 parts of a limiting block, 27 parts of a supporting block, 28 parts of a wireless controller, 29 parts of a storage battery, 30 parts of a line hole seat.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The integrated cabinet of the internal auxiliary carding flat cable is shown in fig. 1-9, a multi-dimensional adjusting assembly is arranged on the integrated cabinet of the internal auxiliary carding flat cable, concave route adjustment and multi-dimensional integrated adjustment of transverse rotation, vertical rotation, transverse movement and vertical movement can be realized on the carding flat cable 9 and the adjusting flat cable 10, the wiring mode of special-shaped equipment can be effectively adapted, and the specific structure of the multi-dimensional adjusting assembly is as follows.

In this embodiment, as shown in fig. 1-6, an adjusting frame 2 is located in an electric device casing 1, an adjusting groove 3 is formed in the adjusting frame 2, a multi-dimensional adjusting component is arranged in the adjusting groove 3, the multi-dimensional adjusting component comprises a linkage shaft 4 slidingly connected in the adjusting groove 3, the bottom end of the linkage shaft 4 is fixedly connected with a sliding frame 5, the inner wall of the sliding frame 5 is slidingly connected with an adjusting sleeve block 6, the bottom end of the adjusting sleeve block 6 is fixedly provided with a linkage sleeve frame 7, the inner wall of the linkage sleeve frame 7 is rotatably connected with a rotating shaft 8, one end of the rotating shaft 8 is fixedly provided with a carding line row 9, and the inner wall of the carding line row 9 is slidingly connected with an adjusting line row 10. The adjusting sleeve block 6 is connected with the linkage shaft 4 in a sliding way, the outer wall of the linkage shaft 4 and the inner wall of the adjusting frame 2 are smooth surfaces, and a gap is arranged between the sliding frame 5 and the adjusting frame 2.

In this embodiment, as shown in fig. 4-7, the upper surface and the lower surface of the adjusting frame 2 are both slidably connected with limiting rings 11, the two limiting rings 11 are both fixedly connected with the linkage shaft 4, the outer wall of one limiting ring 11 is fixedly connected with a linkage block 12, one side of the linkage block 12 is fixedly connected with a linkage electromagnet 13, the outer part of the adjusting frame 2 is fixedly connected with a magnetic attraction outer frame 14, the magnetic attraction outer frame 14 and the adjusting frame 2 are both slidably connected with the linkage block 12, the magnetic attraction outer frame 14 and the adjusting frame 2 are both magnetically attracted with the linkage electromagnet 13, one side of the adjusting sleeve block 6 is fixedly connected with an adjusting electromagnet 15, the adjusting electromagnet 15 is electrically connected with the sliding frame 5, one side of the adjusting electromagnet 15 is magnetically attracted with a magnetic attraction strip 16, the magnetic attraction strip 16 is fixedly connected with the sliding frame 5, the inner wall of the adjusting sleeve block 6 is slidably connected with a guide post 17, the guide post 17 is fixedly connected with the sliding frame 5, and the magnetic attraction strip 16 is electrically connected with a wireless controller 28.

In this embodiment, as shown in fig. 6-8, the other end of the rotating shaft 8 is fixedly connected with a rotating cap 18, the outer wall of the rotating shaft 8 is fixedly connected with a magnetic attraction ring 19 near the rotating cap 18, one side of the magnetic attraction ring 19 is magnetically attracted and connected with a fixed electromagnet 20, the fixed electromagnet 20 is fixedly connected with the linkage sleeve frame 7, two sides of the linkage sleeve frame 7 are rotatably connected with limiting rotating rings 22, the two limiting rotating rings 22 are fixedly connected with the rotating shaft 8, an L-shaped strip 23 is arranged above the carding line 9, the top end of the L-shaped strip 23 is fixedly connected with the adjusting line 10, and the outer wall of the L-shaped strip 23 is slidably connected with a groove frame 24.

The groove frame 24 is fixedly connected with the carding line row 9, a locking electromagnet 25 is fixedly arranged on one side of the inner wall of the groove frame 24, the locking electromagnet 25 is connected with the L-shaped strip 23 in a magnetic attraction mode, a limiting block 26 is fixedly connected with the bottom end of the L-shaped strip 23, and the fixed electromagnet 20 and the locking electromagnet 25 are electrically connected with a wireless controller 28. The vertical section of the magnetic attraction ring 19 is circular, and the two limiting rotating rings 22 are symmetrically arranged about the linkage sleeve frame 7. The outer wall of the L-shaped strip 23 and the inner wall of the groove frame 24 are smooth surfaces, and the vertical section of the L-shaped strip 23 is L-shaped.

In this embodiment, as shown in fig. 9, one end of the adjusting frame 2 is fixedly connected with a supporting block 27, and the supporting block 27 is fixedly connected with the electric device casing 1, and the wireless controller 28 is located below the supporting block 27, so that the electric device casing 1 supports the supporting block 27, the supporting block 27 supports the adjusting frame 2, and provides stable supporting force for the adjusting frame 2. The bottom end of the wireless controller 28 is fixedly connected with a storage battery 29, the storage battery 29 is electrically connected with the wireless controller 28, the wireless controller 28 and the storage battery 29 are fixedly connected with the electric equipment shell 1, so that the storage battery 29 can supply power to the wireless controller 28, the wireless controller 28 can start the linkage electromagnet 13 and the adjusting electromagnet 15, and can also start the locking electromagnet 25 and the fixed electromagnet 20 to realize electromagnetic attraction fixation.

In this embodiment, as shown in fig. 1 to 2, a cabinet door 21 is installed at one side of the electric device casing 1, and the cabinet door 21 is hinged to the electric device casing 1 so that the cabinet door 21 can be opened on the electric device casing 1, thereby performing multi-dimensional adjustment on the carding line row 9 and the adjusting line row 10 of the electric device casing 1. The bottom end of the electric equipment shell 1 is fixedly communicated with the wire hole seat 30, and a plurality of round through holes are formed in the wire hole seat 30 so as to facilitate the cable to penetrate into the round through holes in the wire hole seat 30, and then the cable enters into the electric equipment shell 1, so that threading installation operation is realized.

The invention relates to a working principle of a comprehensive cabinet for internally assisting carding flat cable, which comprises the following steps:

Firstly, when the multi-dimensional adjustment is carried out, the cabinet door 21 is opened, so that the linkage shaft 4 is moved according to the wiring requirement of special-shaped electric equipment in the electric equipment shell 1, the linkage shaft 4 slides along the adjusting groove 3 in the adjusting frame 2, and the linkage shaft 4 drives the two limiting rings 11 to slide along the adjusting frame 2. The linkage shaft 4 moves along the concave route, the linkage shaft 4 drives the sliding frame 5 to move along the concave route, the sliding frame 5 drives the adjusting sleeve block 6 to move along the concave route, the adjusting sleeve block 6 drives the linkage sleeve frame 7 to move along the concave route, the linkage sleeve frame 7 drives the rotating shaft 8 to move along the concave route, and the rotating shaft 8 drives the carding line row 9 to move along the concave route.

Then the linkage shaft 4 is rotated, the linkage shaft 4 drives the two limiting rings 11 to transversely rotate, the two limiting rings 11 are used for transversely adjusting angles on the adjusting frame 2, the linkage shaft 4 drives the sliding frame 5 to transversely rotate, the sliding frame 5 drives the adjusting sleeve block 6 to transversely rotate, the adjusting sleeve block 6 drives the linkage sleeve frame 7 to transversely rotate, the linkage sleeve frame 7 enables the rotating shaft 8 to transversely rotate, and meanwhile the rotating shaft 8 drives the carding line row 9 to transversely rotate. Then the linkage sleeve frame 7 is moved, the linkage sleeve frame 7 drives the adjusting sleeve block 6 to transversely move, the adjusting sleeve block 6 slides along the outer wall of the guide post 17, the adjusting sleeve block 6 can also transversely move along the inner wall of the sliding frame 5, and meanwhile the linkage sleeve frame 7 drives the two limiting swivel rings 22 to transversely move, and the two limiting swivel rings 22 drive the rotating shaft 8 to transversely move. The rotating shaft 8 drives the carding line row 9 to transversely move, and the carding line row 9 drives the adjusting line row 10 to transversely move for adjustment. Through rotating cap 18, the cap 18 drives pivot 8 vertical rotation, pivot 8 is at the inside vertical rotation of linkage frame 7, and pivot 8 drives carding line row 9 vertical rotation, carding line row 9 makes adjusting line row 10 carry out vertical rotation, through pulling adjusting line row 10 after the rotation, adjusting line row 10 is along the inside vertical regulation removal of carding line row 9, can carry out the multidimensional regulation of spill route to carding line row 9 and adjusting line row 10 like this, and carry out horizontal rotation to carding line row 9 and adjusting line row 10, vertical rotation, lateral shifting, the multidimensional integral regulation of vertical movement.

Secondly, when the limiting ring 11 moves along the concave route, the limiting ring 11 drives the linkage block 12 to move, the linkage block 12 drives the linkage electromagnet 13 to move, and the limiting ring 11 is driven to rotate when the linkage shaft 4 rotates. The limiting ring 11 drives the linkage block 12 to rotate, and the linkage block 12 drives the linkage electromagnet 13 to rotate. After the position of the linkage shaft 4 is adjusted, the wireless controller 28 opens the linkage electromagnet 13 to link the electromagnet 13 with the adjusting frame 2 and the magnetic outer frame 14 to realize magnetic fixation. When the adjusting sleeve block 6 moves transversely, the adjusting sleeve block 6 drives the adjusting electromagnet 15 to move transversely, the adjusting electromagnet 15 moves transversely on the magnetic strip 16, and the adjusting sleeve block 6 slides transversely along the outer wall of the guide post 17. After the transverse movement position of the adjusting sleeve block 6 is adjusted, the adjusting electromagnet 15 can be opened through the wireless controller 28, and the adjusting electromagnet 15 is fixed with the magnetic attraction strip 16 in a magnetic attraction manner.

Then, when the invention is used for adjusting and locking, when the rotating shaft 8 rotates, the magnetic attraction ring 19 is driven to vertically rotate, the magnetic attraction ring 19 vertically rotates on the side surface of the fixed electromagnet 20, and when the vertical rotation position of the rotating shaft 8 is adjusted, the fixed electromagnet 20 is opened through the wireless controller 28, and the fixed electromagnet 20 magnetically attracts and fixes the magnetic attraction ring 19. When the adjusting wire row 10 vertically moves in the carding wire row 9, the adjusting wire row 10 also drives the L-shaped strip 23 to vertically move, the L-shaped strip 23 vertically moves along the inner wall of the groove frame 24, the carding wire row 9 supports the groove frame 24, the groove frame 24 supports the locking electromagnet 25, the L-shaped strip 23 vertically moves along the locking electromagnet 25, meanwhile, the L-shaped strip 23 drives the limiting block 26 to move upwards, the limiting block 26 is in contact with the groove frame 24 to carry out limiting treatment, after the adjusting wire row 10 vertically moves and is adjusted, the locking electromagnet 25 can be opened through the wireless controller 28, and the locking electromagnet 25 magnetically attracts and locks the L-shaped strip 23.

Finally, when the invention is used for wiring, the electric equipment in the electric equipment shell 1 is arranged on the inner wall of the electric equipment shell 1, and then the cable is penetrated into the inner circular through hole of the cable hole seat 30, so that the cable enters the electric equipment shell 1, and is further arranged in the carding wire row 9 and the adjusting wire row 10, and then the cable is fixed in the carding wire row 9 through a plurality of cable binding belts, and the cable is fixed in the adjusting wire row 10 through other cable binding belts, so that the cable comprehensive carding wire arrangement operation is realized.

The details not described in detail in the specification belong to the prior art known to those skilled in the art, and model parameters of each electric appliance are not specifically limited, and conventional equipment is used.

The foregoing description of the preferred embodiments of the invention is not intended to limit the invention to the precise form disclosed, and any such modifications, equivalents, and alternatives falling within the spirit and principles of the invention are intended to be included within the scope of the invention.

Claims (10)

1. The integrated cabinet with the internal auxiliary carding flat cable comprises an electric equipment shell (1), an adjusting frame (2), an adjusting concave slot (3) and a wireless controller (28), and is characterized in that the adjusting frame (2) is positioned in the electric equipment shell (1), the adjusting concave slot (3) is arranged in the adjusting frame (2), and a multidimensional adjusting component is arranged in the adjusting concave slot (3);

The multi-dimensional adjusting assembly comprises a linkage shaft (4) which is connected inside an adjusting groove (3) in a sliding mode, a sliding frame (5) is fixedly connected to the bottom end of the linkage shaft (4), an adjusting sleeve block (6) is connected to the inner wall of the sliding frame (5) in a sliding mode, a linkage sleeve frame (7) is fixedly installed at the bottom end of the adjusting sleeve block (6), a rotating shaft (8) is connected to the inner wall of the linkage sleeve frame (7) in a rotating mode, a carding line row (9) is fixedly installed at one end portion of the rotating shaft (8), and an adjusting line row (10) is connected to the inner wall of the carding line row (9) in a sliding mode.

2. The integrated cabinet for internally assisting in carding and arranging wires according to claim 1, wherein the adjusting sleeve block (6) is in sliding connection with the linkage shaft (4), and the outer wall of the linkage shaft (4) and the inner wall of the adjusting frame (2) are smooth surfaces;

a gap is arranged between the sliding frame (5) and the adjusting frame (2).

3. The integrated cabinet for internally assisting in carding and arranging wires according to claim 1, wherein the upper surface and the lower surface of the adjusting frame (2) are both connected with limiting rings (11) in a sliding manner;

The two limiting rings (11) are fixedly connected with the linkage shaft (4), wherein the outer wall of one limiting ring (11) is fixedly connected with a linkage block (12), one side of the linkage block (12) is fixedly connected with a linkage electromagnet (13), the outer part of the adjusting frame (2) is fixedly connected with a magnetic attraction outer frame (14), the magnetic attraction outer frame (14) and the adjusting frame (2) are both in sliding connection with the linkage block (12), and the magnetic attraction outer frame (14) and the adjusting frame (2) are both in magnetic attraction connection with the linkage electromagnet (13);

One side fixedly connected with of adjusting sleeve piece (6) adjusts electro-magnet (15), adjust electro-magnet (15) and sliding frame (5) electric connection, one side magnetism of adjusting electro-magnet (15) is inhaled and is connected with magnetism and is inhaled strip (16), just fixed connection between strip (16) and sliding frame (5) is inhaled to magnetism, the inner wall sliding connection of adjusting sleeve piece (6) has guide post (17), fixed connection between guide post (17) and sliding frame (5), linkage electro-magnet (13) and magnetism inhale strip (16) all with wireless controller (28) electric connection.

4. The integrated cabinet for internally assisting in carding and arranging wires according to claim 1, wherein the other end part of the rotating shaft (8) is fixedly connected with a rotating cap (18);

The magnetic attraction ring (19) is fixedly connected to the outer wall of the rotating shaft (8) and is close to the position of the rotating cap (18), one side of the magnetic attraction ring (19) is magnetically attracted and connected with the fixed electromagnet (20), the fixed electromagnet (20) is fixedly connected with the linkage sleeve frame (7), two sides of the linkage sleeve frame (7) are rotatably connected with the limiting rotating rings (22), and the two limiting rotating rings (22) are fixedly connected with the rotating shaft (8);

An L-shaped strip (23) is arranged above the carding line row (9), the top end of the L-shaped strip (23) is fixedly connected with the adjusting line row (10), the outer wall of the L-shaped strip (23) is connected with a groove frame (24) in a sliding manner, the groove frame (24) is fixedly connected with the carding line row (9), a locking electromagnet (25) is fixedly arranged on one side of the inner wall of the groove frame (24), the locking electromagnet (25) is in magnetic attraction connection with the L-shaped strip (23), and a limiting block (26) is fixedly connected with the bottom end of the L-shaped strip (23);

The fixed electromagnet (20) and the locking electromagnet (25) are electrically connected with the wireless controller (28).

5. The integrated cabinet for internally assisting in carding wires according to claim 4, wherein the vertical section of the magnetic attraction ring (19) is circular, and the two limit rotating rings (22) are symmetrically arranged about the linkage sleeve frame (7).

6. The integrated cabinet for internally assisting in carding wires according to claim 4, wherein the outer wall of the L-shaped strip (23) and the inner wall of the slot frame (24) are smooth surfaces, and the vertical section of the L-shaped strip (23) is L-shaped.

7. The integrated cabinet for internally assisting in carding and arranging wires according to claim 1, wherein a supporting block (27) is fixedly connected to one end of the adjusting frame (2), the supporting block (27) is fixedly connected with the electric equipment shell (1), and the wireless controller (28) is located below the supporting block (27).

8. The integrated cabinet for internally assisting in carding wires according to claim 7, wherein a storage battery (29) is fixedly connected to the bottom end of the wireless controller (28), and the storage battery (29) is electrically connected with the wireless controller (28);

The wireless controller (28) and the storage battery (29) are fixedly connected with the electric equipment shell (1).

9. The integrated cabinet for internally assisting in carding wires according to claim 1, wherein a cabinet door (21) is mounted on one side of the electric equipment housing (1), and the cabinet door (21) is hinged with the electric equipment housing (1).

10. The integrated cabinet for internally assisting in carding and arranging wires according to claim 1, wherein the bottom end of the electric equipment shell (1) is fixedly communicated with a wire hole seat (30), and a plurality of circular through holes are formed in the wire hole seat (30).