CN114014109B - Wire harness device for electrical engineering cable - Google Patents

Abstract

The invention discloses a wire harness device for an electrical engineering cable, and belongs to the technical field of electrical engineering. The utility model provides a wire harness device for electrical engineering cable, includes the base, the upper surface of base is provided with fixed bolster and movable support, the fixed bolster with the inboard that the movable support is relative is installed the drum through drive assembly rotation, the upper surface of base is provided with driving motor. According to the invention, the fixed support is matched with the movable support, so that efficient wire disc insertion is realized, the movable support seat provides support, the wire disc is more convenient to mount, dismount and move, and the working intensity is reduced.

Description

Wire harness device for electrical engineering cable

Technical Field

The invention relates to the technical field of electrical engineering, in particular to a wire harness device for an electrical engineering cable.

Background

The cable is composed of an inner core and an outer skin, is used for transmitting electric power sources or data communication and the like, and is a blood vessel of modern electrical engineering. The devices are connected together by cables to form an electrically connected "highway". In electrical engineering construction, cabling is used as a basic step. Nowadays, with the development of technology, more and more electrical equipment are in people's life, and corresponding electricity loads are rising year by year. To provide sufficient loading, the current carrying capacity of the cable is continuously increased again; thereby leading to the quality of the cable to be larger and the construction strength to be increased.

In order to efficiently harness in engineering, a harness device is required to be used together with manpower. At present, the conventional wire bundling device only rotates the wire coil through the driving device to finish winding and unwinding. The function is single, and the wire reels with different specifications in the engineering cannot be universal; meanwhile, the wire coil which is coiled with the cable is extremely heavy, and is extremely inconvenient to install or disassemble, and high working strength is required.

Disclosure of Invention

The invention aims to provide a wire harness device for an electrical engineering cable, which is used for efficiently realizing the installation and the disassembly of wire reels, is generally used for wire reels with various specifications, and reduces the labor intensity in construction; so as to solve the problems existing in the prior art.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

the wire harness device for the electrical engineering cable comprises a base, wherein a fixed support and a movable support are arranged on the upper surface of the base, a wire coil is rotatably arranged on the inner side, opposite to the movable support, of the fixed support through a transmission assembly, and a driving motor is arranged on the upper surface of the base;

the part of the transmission component inserted into the wire coil is of an annular stepped platform structure, and the annular stepped platform structure consists of a plurality of layers of stepped platforms;

the upper surface of base is provided with the removal supporting seat and provides the support to the drum, the height-adjustable of removal supporting seat.

Preferably, the transmission assembly is composed of a first transmission assembly arranged on the fixed bracket and a second transmission assembly arranged on the movable bracket.

Preferably, the first transmission assembly is composed of a first bearing, a first sleeve and a spline shaft, the first bearing penetrates through the fixed support, the first sleeve is inserted into the first bearing, the first sleeve is in transmission connection with the driving motor, and the spline shaft is inserted into the first sleeve;

the second transmission assembly is composed of a second bearing, a second sleeve and an inserting shaft, the second bearing penetrates through the movable support 3, the second sleeve is inserted into the second bearing, and the inserting shaft is inserted into the second sleeve.

Preferably, the spline shaft is sequentially provided with a key groove section, a first baffle ring section and an annular stepped platform structure from left to right, the key groove section is inserted into the first sleeve, and the first baffle ring section is positioned on the right side of the first sleeve;

the inserting shaft is sequentially provided with a cylindrical section, a second baffle ring section and an annular stepped platform structure from right to left, the cylindrical section is inserted into the second sleeve, and the second baffle ring section is positioned on the left side of the second sleeve.

Preferably, the upper surface of base is provided with the second spout, the slide direction of second spout with the axis of drum is parallel, the lower part fixedly connected with slider board of movable support, the slider board is pegged graft in the second spout.

Preferably, the movable supporting seat consists of a movable seat, a lifting mechanism, a rotating shaft supporting part and a supporting rotating shaft;

the movable seat is arranged on the upper surface of the base, the lifting mechanism is arranged above the movable seat, the rotating shaft supporting part is arranged on the upper part of the lifting mechanism, and the supporting rotating shaft is rotationally connected with the rotating shaft supporting part;

the axial direction of the supporting rotating shaft is parallel to the axial direction of the wire coil, and the supporting rotating shaft is in contact with the outer annular surfaces of the baffles at the two sides of the wire coil;

the number of the movable supporting seats is two, the two movable supporting seats are respectively arranged at the outer side positions of the baffles at the two sides of the wire coil, and each movable supporting seat is symmetrically provided with two supporting rotating shafts.

Preferably, the rotating shaft supporting part is a triangle, the triangle is vertically arranged at the top end of the lifting mechanism, and the triangle is positioned at the outer side positions of the baffles at the two sides of the wire coil;

a first chute is horizontally arranged at the position, close to the lower end, of the triangular plate, and the support rotating shaft is inserted into the first chute to rotate;

the support rotating shaft penetrates from the movable supporting seat on one side to the movable supporting seat on the other side.

Preferably, a limiting block is arranged in the first chute, the limiting blocks are symmetrically arranged at two ends of the first chute, and one side, facing the center of the first chute, of the limiting block is arc-shaped.

Compared with the prior art, the invention provides a wire harness device for an electrical engineering cable, which has the following beneficial effects:

1. according to the invention, the fixed support is matched with the movable support to move relatively, so that efficient splicing and wire coil installation are realized; the movable supporting seat provides support to relieve the pressure on the transmission assembly; meanwhile, the wire coil can be carried to move, so that the wire coil is more convenient to mount, dismount and move, and the working intensity is reduced; the height can be adjusted to further expand the applicable size range for different wire reels and facilitate stabilization during movement.

2. According to the invention, the transmission assembly is provided with the sleeve, so that friction with the inner wall of the bearing is avoided, and the service life is prolonged; meanwhile, the supporting area of the spline shaft and the inserting shaft is increased, and the overall bearing capacity and stability are improved.

3. According to the invention, the wire coil inserting part is arranged into an annular stepped platform structure and corresponds to the central shaft barrel of the wire coils with various specifications, so that the matching, inserting and driving of the wire coils with different specifications are realized.

4. According to the invention, the rotating shaft supporting part is blocked on two sides of the coil, so that the stability is further ensured; the distance between the movable supporting seats can be adjusted, so that the supporting effects of different widths are realized; the distance between the supporting rotating shafts can be adjusted, and good support is provided for wire coils with different baffle sizes.

The parts which are not involved in the device are the same as or can be realized by adopting the prior art, and the fixed bracket is matched with the movable bracket to move relatively, so that the high-efficiency plug-in connection and wire coil installation are realized; the movable supporting seat provides support to relieve the pressure on the transmission assembly; meanwhile, the wire coil can be carried to move, so that the wire coil is more convenient to mount, dismount and move, and the working intensity is reduced; the height can be adjusted to further enlarge the applicable size range of different wire reels, and the stability in the moving process is facilitated; the transmission component is provided with the sleeve, so that friction with the inner wall of the bearing is avoided, and the service life is prolonged; meanwhile, the supporting area of the spline shaft and the inserting shaft is increased, and the overall bearing capacity and stability are improved; the inserted wire coil part is arranged into an annular stepped platform structure and corresponds to the central shaft barrel of the wire coils with various specifications, so that the matching, the insertion and the driving of the wire coils with different specifications are realized; the rotating shaft supporting part blocks two sides of the coil, so that the stability is further ensured; the distance between the movable supporting seats can be adjusted, so that the supporting effects of different widths are realized; the distance between the supporting rotating shafts can be adjusted, and good support is provided for wire coils with different baffle sizes.

Drawings

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a schematic diagram of the structure of the invention with the wire coil removed;

FIG. 3 is a right side view of the present invention;

FIG. 4 is a schematic cross-sectional view of A-A of FIG. 1;

FIG. 5 is a schematic cross-sectional view of B-B of FIG. 1;

FIG. 6 is an enlarged schematic view of FIG. 1 at C;

FIG. 7 is an enlarged schematic view of the structure of FIG. 2D;

FIG. 8 is a schematic structural view of a spline shaft;

FIG. 9 is a schematic view of the structure of the insert shaft;

fig. 10 is a schematic structural diagram of the first chute with a limiting block.

In the figure: 1. a base; 2. a fixed bracket; 3. a movable support; 4. a transmission assembly; 5. wire coil; 6. a driving motor; 7. a first transmission assembly; 701. a first bearing; 702. a first sleeve; 703. a spline shaft; 7031. a keyway section; 7032. a first retainer segment; 8. a second transmission assembly; 801. a second bearing; 802. a second sleeve; 803. inserting a shaft; 8031. a cylindrical section; 8032. a second retainer segment; 9. an annular stepped platform structure; 901. a step table; 10. moving the supporting seat; 11. a second chute; 12. a slider plate; 13. a movable seat; 14. a lifting mechanism; 15. a rotation shaft support part; 16. supporting a rotating shaft; 17. a first chute; 18. and a limiting block.

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.

In the description of the present invention, it should be understood that the terms "upper," "lower," "front," "rear," "left," "right," "top," "bottom," "inner," "outer," and the like indicate or are based on the orientation or positional relationship shown in the drawings, merely to facilitate description of the present invention and to simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention.

Referring to fig. 1-9, a wire harness device for an electrical engineering cable includes a base 1, wherein the base 1 provides a basic supporting function for the device; the device is arranged into a thick flat plate structure, so that a stable supporting foundation is provided; when the movable trolley is required to move, the movable trolley can move in an auxiliary and hoisting mode.

The upper surface of the base 1 is provided with a fixed bracket 2, and the fixed bracket 2 can be arranged on the upper surface of the base 1 in a welding or bolt connection mode; the upper surface sliding connection of base 1 has movable support 3, and movable support 3 can carry out sliding movement at the upper surface of base 1, and fixed bolster 2 sets up with movable support 3 relatively.

A wire coil 5 is rotatably arranged on the inner side of the fixed bracket 2 opposite to the movable bracket 3 through a transmission component 4; the upper surface of the base 1 is provided with a driving motor 6 for providing power output for rotating the wire coil 5.

Specifically, the upper surface of the base 1 is provided with a second chute 11, and the direction of a slideway of the second chute 11 is parallel to the axis of the wire coil 5 in the installation state; the lower part of the movable bracket 3 is fixedly connected with a sliding block plate 12, and the sliding block plate 12 is inserted into the second chute 11. The second chute 11 is matched with the sliding block plate 12 to realize the moving function of the moving bracket 3; and locks the slider plate 12 after the proper position is reached. The locking mode can be that a threaded hole is formed in the upper surface of the second chute 11, and a screw is screwed in; by adjusting the degree of screwing in of the screw, the movement or position locking of the slider plate 12 is controlled.

The transmission assembly 4 consists of a first transmission assembly 7 arranged on the fixed bracket 2 and a second transmission assembly 8 arranged on the movable bracket 3. One end of the first transmission component 7 penetrates through the fixed bracket 2, and the other end of the first transmission component is inserted into a central shaft barrel of the wire coil 5; one end of the second transmission component 8 penetrates through the movable bracket 3, and the other end of the second transmission component is inserted into the central shaft barrel of the wire coil 5.

The fixed bracket 2 and the movable bracket 3 respectively provide support for a first transmission assembly 7 and a second transmission assembly 8; the first transmission assembly 7 and the second transmission assembly 8 are inserted into the wire coil 5 from two ends to support the wire coil; and the wire coil 5 rotates by taking the transmission assembly 4 as a rotating shaft, so as to realize coiling and uncoiling.

Further, the first transmission assembly 7 and the second transmission assembly 8 are inserted into the end part of the central shaft of the wire coil 5, and are of annular stepped platform structures 9. The annular step table structure 9 is composed of a plurality of step tables 901, and the diameters of the step tables 901 of the plurality of steps are gradually enlarged from the top end side to the other side. That is, a plurality of concentric cylinders with sequentially enlarged diameters are formed together to form an annular stepped platform structure 9. The diameter of each layer of cylindrical step 901 corresponds to the inner diameter of the central shaft of the wire coil 5 with one specification, so as to realize the matching, insertion and driving of the wire coils 5 with various specifications. Preferably, the outer edge of the surface of each step 901 facing the top is rounded to facilitate insertion into the coil 5.

The first transmission assembly 7 is composed of a first bearing 701, a first sleeve 702 and a spline shaft 703. The first bearings 701 penetrate through the left side and the right side of the fixed bracket 2 and are arranged near the top end of the fixed bracket 2 to provide basic transmission support; the first sleeve 702 is inserted into the first bearing 701, and the length of the first sleeve 702 is longer than that of the first bearing 701; the outer diameter of the first sleeve 702 is matched with the inner diameter of the first bearing 701, so that transmission is realized; the first sleeve 702 is closely mounted with the first bearing 701, and the first sleeve 702 rotates synchronously with the inner ring of the first bearing 701 during transmission. The first sleeve 702 is in transmission connection with the driving motor 6, and a belt can be adopted as a transmission device; the belt is sleeved on the outer surface of the first sleeve 702 positioned on the left side of the fixed bracket 2. The inner wall of the first sleeve 702 is provided with a key groove, and the spline shaft 703 is inserted into the first sleeve 702 for transmission connection.

The second transmission assembly 8 is composed of a second bearing 801, a second sleeve 802 and a plug shaft 803, and is matched with the first transmission assembly 7 for supporting and transmitting. The second bearings 801 penetrate through the left and right sides of the moving bracket 3 and are disposed near the top end of the moving bracket 3; the axial center of the second bearing 801 coincides with the axial center of the first bearing 701. The second sleeve 802 is inserted into the second bearing 801, the length of the second sleeve 802 is larger than that of the second bearing 801, and the outer diameter of the second sleeve 802 is matched with the inner diameter of the second bearing 801, so that transmission is realized; the second sleeve 802 is closely mounted with the second bearing 801, and the second sleeve 802 rotates synchronously with the inner ring of the second bearing 801 during transmission. The inserting shaft 803 is inserted into the second sleeve 802 to rotate; the insert shaft 803 is tightly matched with the second sleeve 802, or is installed with a certain gap, so that the wire coil 5 can be supported and driven.

The components are matched with each other, the driving motor 6 drives the first sleeve 702, and the spline shaft 703 drives the wire coil 5 to rotate; the insertion shaft 803 serves as a driven member on the other side. By arranging the first sleeve 702 and the second sleeve 802, friction with the inner walls of the first bearing 701 and the second bearing 801 is avoided, abrasion is reduced, and the service life of the bearing is prolonged; meanwhile, the lengths of the first sleeve 702 and the second sleeve 802 are longer than those of the first bearing 701 and the second bearing 801, so that the supporting effect on the spline shaft 703 and the plug shaft 803 is increased, and the overall bearing capacity and stability of the device are further improved.

The spline shaft 703 comprises a key groove section 7031, a first baffle ring section 7032 and an annular stepped platform structure 9 from left to right in sequence; the key slot section 7031 is inserted into the first sleeve 702; the first retainer segment 7032 is located on the right side of the first sleeve 702 and has a diameter greater than that of the first sleeve 702, preventing the spline shaft 703 from moving further to the left; an annular stepped platform structure 9 is inserted into the central shaft of the wire coil 5 from the left side.

The insertion shaft 803 is sequentially provided with a cylindrical section 8031, a second baffle ring section 8032 and an annular stepped platform structure 9 from right to left. The cylindrical section 8031 is inserted into the second sleeve 802 to rotate, the second baffle ring section 8032 is positioned on the left side of the second sleeve 802, the diameter of the second baffle ring section 8032 is larger than that of the second sleeve 802, and the insertion shaft 803 is prevented from moving to the right side; the annular stepped platform structure 9 is inserted into the central shaft of the wire coil 5 from the right side.

The upper surface of the base 1 is provided with a movable supporting seat 10, the movable supporting seat 10 is positioned below the baffles at the two sides of the wire coil 5, and the wire coil 5 is supported; the height of the movable support 10 is adjustable.

By providing support by the movable support base 10, the pressure of the wire coil 5 on the transmission assembly 4 is relieved, better transmission can be achieved, and the service life of the transmission assembly 4 is prolonged. Meanwhile, through the support of the movable supporting seat 10, the wire coil 5 can be carried to move, so that the wire coil is more convenient to mount, dismount and move, and the working strength is reduced. The height setting can be adjusted to further expand the size range applicable to different wire reels 5.

Specifically, the movable support base 10 is composed of a movable base 13, a lifting mechanism 14, a rotation shaft support portion 15, and a support rotation shaft 16.

The movable seat 13 is provided on the upper surface of the base 1. The movable seat 13 adopts a planar metal plate, generates small friction force with the base 1, and performs sliding movement on the upper surface of the base 1; or may be provided as a wheeled flat panel mechanism.

The lifting mechanism 14 is arranged above the movable seat 13, the rotating shaft supporting part 15 is arranged at the upper part of the lifting mechanism 14, and the lifting mechanism 14 provides lifting support for the rotating shaft supporting part 15. Wherein, for the arrangement of the lifting mechanism 14, care is required to balance the supporting force of the rotating shaft supporting part 15; two jacks can be adopted to be respectively arranged at two symmetrical ends of the bottom of the rotating shaft supporting part 15, and the stability of the lifting process is ensured through two supporting points.

The support shaft 16 is rotatably connected to the shaft support portion 15. The axial direction of the supporting rotating shaft 16 is parallel to the axial direction of the wire coil 5, and the supporting rotating shaft 16 is contacted with the outer ring surfaces of the baffles at the two sides of the wire coil 5.

The number of the movable supporting seats 10 is two, and the two movable supporting seats 10 are respectively arranged at the outer side positions of the baffles at the two sides of the wire coil 5; two support rotating shafts 16 are symmetrically arranged on each movable supporting seat 10. The rotary shaft supporting parts 15 support the rotary shafts 16 from the left and right ends of the baffle of the wire coil 5 and provide support and rotary support for the wire coil 5 from the front and rear sides of the lower part of the wire coil 5.

Further, the rotating shaft supporting portion 15 is arranged to be a triangular plate structure, a triangular plate is vertically arranged at the top end of the lifting mechanism 14, and the triangular plate is located at the outer side positions of the baffles at the two sides of the wire coil 5. The two sides of the wire coil 5 are blocked by the triangular plates, so that the required materials are reduced while the enough blocking height and the bottom supporting width are ensured; further ensuring the stability of the support. Wherein, regarding the height setting of the triangle, the position of the highest point and the central shaft of the wire coil 5 is noted, and the insertion of the transmission assembly 4 can not be influenced.

The triangular plate is close to the lower end, and a first chute 17 is horizontally arranged; the support shaft 16 is inserted into the first chute 17 to rotate. The number of the supporting rotating shafts 16 is two, and the two supporting rotating shafts 16 are symmetrically arranged at two ends of the first chute 17; and, each support shaft 16 penetrates from the moving support 10 on one side to the moving support 10 on the other side. The supporting rotating shafts 16 penetrate through the two sides, and the distance between the two movable supporting seats 10 can be adjusted according to the size of the wire coil 5, so that the supporting effect of different widths is realized; meanwhile, the top ends of the triangular plate protrusions are matched, so that two sides of the triangular plate are blocked and protected in various sizes.

Referring to fig. 10, further, a limiting block 18 is disposed in the first chute 17, the limiting blocks 18 are symmetrically disposed at two ends of the first chute 17, and one side of the limiting block 18 facing the center of the first chute 17 is arc-shaped.

By providing the stoppers 18 of different lengths, the distance between the two support shafts 16 is adjusted. The distance between the two support points for which good support can be provided is different for different baffle-sized wire reels 5; for example, in the state of two supporting rotating shafts 16 with the same distance, for a large-size wire coil 5, the sinking depth is less; if the wire coil 5 is reduced in size, the sinking depth is enlarged to a certain extent, which will affect the normal rotation support. Therefore, the distance between the support shafts 16 needs to be changed; and the wire coil 5 is matched with the support of the wire coil 5 with different specifications by matching with the limiting block 18 for adjustment.

When the invention is used, the distance between the supporting rotating shafts 16 is adjusted according to the size of the wire coil 5; the height of the movable supporting seat 10 is set to be lower, so that the stability of the moving process is facilitated; the wire coil 5 is conveyed to the installation position through the movable supporting seat 10 and lifted to a proper height, so that the wire coil is convenient to insert and install; moving the movable supporting seat 10 to the left to enable the first transmission assembly 7 to be inserted into the central shaft barrel of the wire coil 5; then, the movable bracket 3 is moved leftwards, so that the second transmission component 8 is inserted into the central shaft barrel of the wire coil 5; locking the position of the movable bracket 3; the power is provided by the driving motor 6 to carry out coiling and uncoiling; in the rotating process of the wire coil 5, the supporting rotating shaft 16 is driven to rotate; after the winding and unwinding is finished, the support 3 and the movable support seat 10 are moved to the right in sequence, and the wire coil 5 is separated from the transmission assembly 4; the mobile support 10 is used to remove it.

In the invention, the fixed bracket 2 is matched with the movable bracket 3 to relatively move, so that the high-efficiency plug-in connection and the wire coil 5 installation are realized; the movable supporting seat 10 provides support to relieve the pressure on the transmission assembly 4; meanwhile, the wire coil 5 can be carried to move, so that the wire coil is more convenient to mount, dismount and move, and the working intensity is reduced; the height can be adjusted, the applicable size range of different wire coils 5 is further enlarged, and the stability in the moving process is facilitated; the transmission component 4 is provided with a sleeve, so that friction with the inner wall of the bearing is avoided, and the service life is prolonged; meanwhile, the supporting areas of the spline shaft 703 and the plug shaft 803 are increased, and the overall bearing capacity and stability are improved; the part inserted into the wire coil 5 is provided with an annular stepped platform structure 9 corresponding to the central shaft barrels of the wire coils 5 with various specifications, so that the wire coils 5 with different specifications are matched, inserted and driven; the rotating shaft supporting parts 15 block the two sides of the wire coil 5, so that the stability is further ensured; the distance between the movable supporting seats 10 can be adjusted, so that the supporting effects of different widths can be realized; the distance between the support shafts 16 can be adjusted to provide good support for the wire coils 5 of different baffle sizes.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical scheme of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims (5)

1. The wire harness device for the electrical engineering cable comprises a base (1), and is characterized in that a fixed support (2) and a movable support (3) are arranged on the upper surface of the base (1), a wire coil (5) is rotatably arranged on the inner side, opposite to the movable support (3), of the fixed support (2) through a transmission assembly (4), and a driving motor (6) is arranged on the upper surface of the base (1);

the part of the transmission component (4) inserted into the wire coil (5) is an annular stepped platform structure (9), and the annular stepped platform structure (9) consists of a plurality of layers of stepped platforms (901);

the upper surface of the base (1) is provided with a movable supporting seat (10) for supporting the wire coil (5), and the height of the movable supporting seat (10) is adjustable;

the movable supporting seat (10) consists of a movable seat (13), a lifting mechanism (14), a rotating shaft supporting part (15) and a supporting rotating shaft (16);

the movable seat (13) is arranged on the upper surface of the base (1), the lifting mechanism (14) is arranged above the movable seat (13), the rotating shaft supporting part (15) is arranged on the upper part of the lifting mechanism (14), and the supporting rotating shaft (16) is rotationally connected with the rotating shaft supporting part (15);

the axial direction of the supporting rotating shaft (16) is parallel to the axial direction of the wire coil (5), and the supporting rotating shaft (16) is contacted with the outer annular surfaces of the baffles at the two sides of the wire coil (5);

the number of the movable supporting seats (10) is two, the two movable supporting seats (10) are respectively arranged at the outer side positions of the baffles at the two sides of the wire coil (5), and each movable supporting seat (10) is symmetrically provided with two supporting rotating shafts (16);

the rotating shaft supporting part (15) is a triangular plate, the triangular plate is vertically arranged at the top end of the lifting mechanism (14), and the triangular plate is positioned at the outer side positions of the baffles at the two sides of the wire coil (5);

a first chute (17) is horizontally arranged at the position, close to the lower end, of the triangular plate, and the supporting rotating shaft (16) is inserted into the first chute (17) to rotate;

the support rotating shaft (16) penetrates from the movable supporting seat (10) on one side to the movable supporting seat (10) on the other side;

limiting blocks (18) are arranged in the first sliding grooves (17), the limiting blocks (18) are symmetrically arranged at two ends of the first sliding grooves (17), and one side, facing the center of the first sliding grooves (17), of each limiting block (18) is arc-shaped.

2. A harness device for electrical engineering cables according to claim 1, characterized in that the transmission assembly (4) consists of a first transmission assembly (7) arranged on the fixed support (2) and a second transmission assembly (8) arranged on the mobile support (3).

3. The wire harness device for an electrical engineering cable according to claim 2, wherein the first transmission assembly (7) is composed of a first bearing (701), a first sleeve (702) and a spline shaft (703), the first bearing (701) penetrates through the fixed bracket (2), the first sleeve (702) is inserted into the first bearing (701), the first sleeve (702) is in transmission connection with the driving motor (6), and the spline shaft (703) is inserted into the first sleeve (702);

the second transmission assembly (8) is composed of a second bearing (801), a second sleeve (802) and an inserting shaft (803), the second bearing (801) penetrates through the movable support (3), the second sleeve (802) is inserted into the second bearing (801), and the inserting shaft (803) is inserted into the second sleeve (802).

4. A wire harness device for an electrical engineering cable according to claim 3, wherein the spline shaft (703) is sequentially provided with a key groove section (7031), a first baffle ring section (7032) and an annular step structure (9) from left to right, the key groove section (7031) is inserted into the first sleeve (702), and the first baffle ring section (7032) is positioned on the right side of the first sleeve (702);

the inserting shaft (803) sequentially comprises a cylindrical section (8031), a second baffle ring section (8032) and an annular stepped platform structure (9) from right to left, wherein the cylindrical section (8031) is inserted into the second sleeve (802), and the second baffle ring section (8032) is positioned on the left side of the second sleeve (802).

5. The wire harness device for the electrical engineering cable according to claim 1, wherein a second chute (11) is arranged on the upper surface of the base (1), the direction of a chute of the second chute (11) is parallel to the axis of the wire coil (5), a sliding block plate (12) is fixedly connected to the lower portion of the movable support (3), and the sliding block plate (12) is inserted into the second chute (11).