CN217134096U - Cable protection layer wind - Google Patents

Abstract

The utility model provides a cable protective layer winding device, which comprises an operation table, the operation table is provided with two first chutes, the two first chutes are provided with moving components, and the two movable components The upper end can be detachably connected to the conduction tube, and the inner wall of the conduction tube is provided with a lifting type limiting structure; the outer circumference of the conduction tube on one side of the ring is provided with a rotating winding component, and the moving component at the front end is detachably connected to the extrusion type transmission structure , the rear end of the moving assembly can be detachably connected to the traction assembly. The utility model realizes constant-speed winding by arranging a rotary winding assembly between two conducting pipes, and utilizing the rotary winding assembly.

Description

Cable protection layer wind

Technical Field

The utility model relates to a cable manufacture technical field mainly relates to a cable protection layer wind.

Background

The cable terminal integrates water resistance, stress control, shielding and insulation, has good electrical performance and mechanical performance, and can be used for a long time under various severe environmental conditions. Has the advantages of light weight, convenient installation and the like. The cable terminal is widely applied to various fields of electric power, petrochemical industry, metallurgy, railway ports, buildings and the like. Cable terminations are devices that are assembled to the ends of a cable run to complete the connection to other electrical equipment, including outdoor terminations, indoor terminations, elbow terminations, and the like.

After the existing cable is processed, corresponding winding is carried out through a winding device, and after the winding is finished, corresponding binding is carried out manually in the existing winding mode.

However, the cost of manual winding is high, and the winding speed cannot be correspondingly rotated along with the conduction speed of the cable.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a cable inoxidizing coating wind to propose in solving above-mentioned background art because artifical winding cost is comparatively big, simultaneously, can not correspond rotatory technical problem along with the speed of the conduction of cable through the winding speed.

In order to achieve the above object, the utility model provides a following technical scheme: a cable protection layer winding device comprises an operation table, wherein two first sliding grooves are formed in the operation table, moving assemblies are arranged in the two first sliding grooves, the upper ends of the two moving assemblies can be detachably connected with a conducting pipe, and a lifting limiting structure is arranged on the inner wall of the conducting pipe;

ring one side conduction outside a week is equipped with rotary type winding subassembly, front end the removal subassembly can be dismantled and connect extrusion formula transport structure, rear end the removal subassembly can be dismantled and connect the subassembly that pulls.

Further, the moving assembly comprises a first driving motor, the first driving motor is detachably connected to one end of the first sliding groove, a driving shaft of the first driving motor is connected with a first lead screw, the first lead screw is connected with a first connecting plate in a rotating mode, the first connecting plate is connected with the first sliding groove in a sliding mode, two first electric telescopic rods and two second electric telescopic rods are symmetrically arranged above the first sliding plate, the upper end of each first electric telescopic rod is detachably connected with a second connecting plate, and the upper end of each second connecting plate is detachably connected with a conduction pipe.

Furthermore, over-and-under type limit structure includes four stripper plates, conduction pipe inner wall rotational symmetry is equipped with four second spouts, four all be equipped with second electric telescopic handle in the second spout, the stripper plate can be dismantled and connected to second electric telescopic handle upper end.

Further, rotary type winding subassembly includes first go-between, first go-between bearing connect in the conduction pipe outside, first go-between middle part is equipped with the tooth and encircles, second connecting plate one side is equipped with the third connecting plate, third connecting plate one side is equipped with third driving motor, the gear interlock of third driving motor drive axle head is connected the tooth encircles, just first go-between one side can be dismantled and connect the head rod, two second go-between of screwed connection on the head rod, two be equipped with the winding ring between the second go-between.

Further, extrusion formula transport structure includes the fourth connecting plate, fourth connecting plate one end can be dismantled the connection the second connecting plate, be equipped with third electric telescopic handle on the fourth connecting plate, third electric telescopic handle upper end can be dismantled and connect the fifth connecting plate, can dismantle on the fifth connecting plate and connect two third go-between, two be equipped with the transfer line between the third go-between, fifth connecting plate one side is equipped with the L template, L template below is equipped with fourth electric telescopic handle, the connection clamp plate can be dismantled to fourth electric telescopic handle lower extreme.

Further, the traction assembly comprises a sixth connecting plate, the sixth connecting plate can be disassembled and connected with the second connecting plate, a fifth electric telescopic rod is arranged above the sixth connecting plate, a supporting plate is arranged at the upper end of the fifth electric telescopic rod, fixing blocks are arranged at the two ends of the supporting plate, a sixth electric telescopic rod is arranged on each fixing block and connected with a seventh connecting plate in a detachable mode, a convex plate is arranged below the seventh connecting plate, a second driving motor is arranged in the lower opening of the convex plate, a driving shaft of the second driving motor is connected with a driving wheel, and a bearing of the driving wheel is connected with the convex plate.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model firstly symmetrically arranges two first chutes on the operation table, and the two first chutes are internally provided with moving components, and the moving components are utilized to realize corresponding transverse movement adjustment;

then, a transmission pipe is arranged on the moving assembly, a lifting limiting structure is arranged in the transmission pipe, and the cable is limited to a certain extent by the lifting limiting structure;

through being provided with rotary type winding subassembly, utilize rotary type winding subassembly to carry out the winding that corresponds, realize the spacing conveying that corresponds through extrusion formula transport structure, the rear is provided with simultaneously and draws the subassembly, utilizes to draw the subassembly and carry out the tractive.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

fig. 2 is a schematic structural diagram of the moving assembly of the present invention;

fig. 3 is a schematic structural view of the rotary winding assembly of the present invention;

fig. 4 is a schematic view of the extrusion type conveying structure of the present invention;

fig. 5 is a schematic structural view of the traction assembly of the present invention.

In the figure: 1. an operation table; 11. a first chute; 2. a moving assembly; 21. a first drive motor; 22. a first lead screw; 23. a first connecting plate; 24. a first electric telescopic rod; 25. a second connecting plate; 3. a conducting tube; 31. a second chute; 4. a lifting limiting structure; 41. a compression plate; 42. a second electric telescopic rod; 5. a rotating winding assembly; 51. a first connecting ring; 52. a toothed ring; 53. a third connecting plate; 54. a third drive motor; 55. a first connecting rod; 56. a second connection ring; 57. a winding ring; 6. an extrusion type conveying structure; 61. a fourth connecting plate; 62. a third electric telescopic rod; 63. a fifth connecting plate; 64. a third connecting ring; 65. a transmission rod; 66. an L-shaped plate; 67. a fourth electric telescopic rod; 68. pressing a plate; 7. a traction assembly; 71. a sixth connecting plate; 72. a fifth electric telescopic rod; 73. a support plate; 74. a fixed block; 75. a sixth electric telescopic rod; 76. a seventh connecting plate; 77. a convex plate; 78. a second drive motor; 79. a driving wheel.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In an embodiment, referring to fig. 1-5, a cable protection layer winding device includes an operation table 1, wherein the operation table 1 is provided with two first sliding chutes 11, moving assemblies 2 are arranged in the two first sliding chutes 11, upper ends of the two moving assemblies 2 are detachably connected with a conducting pipe 3, and an inner wall of the conducting pipe 3 is provided with a lifting limiting structure 4;

ring one side 3 outside a week of conduction pipe is equipped with rotary type winding subassembly 5, front end removal subassembly 2 can be dismantled and connect extrusion formula transport structure 6, the rear end removal subassembly 2 can be dismantled and connect traction assembly 7.

Referring to fig. 1-2, the moving assembly 2 includes a first driving motor 21, the first driving motor 21 is detachably connected to one end of the first sliding chute 11, the driving shaft of the first driving motor 21 is connected with a first screw rod 22, the first screw rod 22 is rotationally connected with a first connecting plate 23, the first connecting plate 23 is connected with the first chute 11 in a sliding manner, two first electric telescopic rods 24 are symmetrically arranged above the first connecting plate 23, the upper ends of the two first electric telescopic rods 24 are detachably connected with a second connecting plate 25, the upper end of the second connecting plate 25 is detachably connected with the conduction pipe 3, the lifting limiting structure 4 comprises four extrusion plates 41, 3 inner wall rotational symmetry of conduction pipe is equipped with four second spouts 31, four all be equipped with second electric telescopic handle 42 in the second spout 31, the stripper plate 41 can be dismantled to second electric telescopic handle 42 upper end.

Referring to fig. 3, the rotating winding assembly 5 includes a first connection ring 51, the first connection ring 51 is bearing-connected to the outside of the conducting pipe 3, a toothed ring 52 is disposed in the middle of the first connection ring 51, a third connection plate 53 is disposed on one side of the second connection plate 25, a third driving motor 54 is disposed on one side of the third connection plate 53, a gear at the end of the third driving motor 54 is engaged with the toothed ring 52, a first connection rod 55 is detachably connected to one side of the first connection ring 51, two second connection rings 56 are spirally connected to the first connection rod 55, and a winding ring 57 is disposed between the two second connection rings 56.

Referring to fig. 4, the extrusion type conveying structure 6 includes a fourth connecting plate 61, one end of the fourth connecting plate 61 is detachably connected to the second connecting plate 25, a third electric telescopic rod 62 is disposed on the fourth connecting plate 61, a fifth connecting plate 63 is detachably connected to the upper end of the third electric telescopic rod 62, two third connecting rings 64 are detachably connected to the fifth connecting plate 63, a transmission rod 65 is disposed between the two third connecting rings 64, an L-shaped plate 66 is disposed on one side of the fifth connecting plate 63, a fourth electric telescopic rod 67 is disposed below the L-shaped plate 66, and a pressing plate 68 is detachably connected to the lower end of the fourth electric telescopic rod 67.

Referring to fig. 5, the traction assembly 7 includes a sixth connecting plate 71, the sixth connecting plate 71 is detachably connected to the second connecting plate 25, a fifth electric telescopic rod 72 is disposed above the sixth connecting plate 71, a supporting plate 73 is disposed at an upper end of the fifth electric telescopic rod 72, fixing blocks 74 are disposed at two ends of the supporting plate 73, a sixth electric telescopic rod 75 is disposed on the fixing blocks 74, a seventh connecting plate 76 is detachably connected to upper ends of the two sixth electric telescopic rods 75, a convex plate 77 is disposed below the seventh connecting plate 76, a second driving motor 78 is disposed in a lower opening of the convex plate 77, a driving shaft of the second driving motor 78 is connected to a driving wheel 79, and the driving wheel 79 is connected to the convex plate 77 through a bearing.

The operation principle is as follows: the fifth connecting plate moves upwards firstly through the extension of the third electric telescopic rod, then the transmission rod between the two third connecting rings carries out corresponding transmission, and the corresponding fourth electric telescopic rod extends to realize that the extrusion plate carries out corresponding extrusion.

After the cable enters the conducting pipe, the plurality of second electric telescopic rods extend, and the extrusion plate performs certain extrusion limiting on the cable;

meanwhile, the fifth electric telescopic rod 72 at the rear end is extended, and the sixth electric telescopic rod 75 is retracted, so that the driving wheel 79 is connected with the cable in a transmission mode to achieve the traction effect under the condition that the second driving motor rotates.

Finally, the first link ring is rotated by engaging the coupling teeth ring by the first driving motor, so that the first link rod at one side of the first link ring is rotated, and the second link ring 56 is fixed by having a winding ring therebetween, so that the winding is performed while the first link ring is rotated.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (6)

1. A cable protective layer winding device, comprising an operating table (1), characterized in that: the operating table (1) is provided with two first chutes (11), and the two first chutes ( 11) A moving assembly (2) is provided inside, and the upper ends of the two moving assemblies (2) can be detachably connected to a conducting pipe (3), and the inner wall of the conducting pipe (3) is provided with a lift-type limiting structure (4); A rotating winding assembly (5) is provided around the outer side of the conducting tube (3) on one side of the ring, the moving assembly (2) at the front end is detachably connected to the extrusion type conveying structure (6), and the moving assembly (2) at the rear end is detachably connected ) detachably connect tow assembly (7). 2. A cable protective layer winding device according to claim 1, characterized in that: the moving assembly (2) comprises a first driving motor (21), and the first driving motor (21) is detachably connected to the At the inner end of the first chute (11), the drive shaft of the first drive motor (21) is connected to the first screw rod (22), and the first screw rod (22) is rotatably connected to the first connecting plate (23) , the first connecting plate (23) is slidably connected to the first chute (11), and two first electric telescopic rods (24) are symmetrically arranged above the first connecting plate (23). The upper end of the first electric telescopic rod (24) is detachably connected to the second connecting plate (25), and the upper end of the second connecting plate (25) is detachably connected to the conducting pipe (3). 3. A cable protective layer winding device according to claim 1, characterized in that: the lift-type limiting structure (4) comprises four extrusion plates (41), and the inner wall of the conducting pipe (3) rotates Four second chutes (31) are symmetrically arranged, and each of the four second chutes (31) is provided with a second electric telescopic rod (42), and the upper end of the second electric telescopic rod (42) is detachable Connect the squeeze plate (41). 4 . The cable protective layer winding device according to claim 2 , wherein the rotary winding assembly ( 5 ) comprises a first connecting ring ( 51 ), and the first connecting ring ( 51 ) is connected with a bearing. 5 . On the outside of the conducting pipe (3), a toothed ring (52) is arranged in the middle of the first connecting ring (51), and a third connecting plate (53) is arranged on one side of the second connecting plate (25). A third drive motor (54) is provided on one side of the third connecting plate (53), and the gear at the drive shaft end of the third drive motor (54) is engaged with the toothed ring (52), and the first One side of the connecting ring (51) is detachably connected to the first connecting rod (55), the first connecting rod (55) is screwed with two second connecting rings (56), and the two second connecting rings (56) ) is provided with a winding ring (57). 5. A cable protective layer winding device according to claim 2, characterized in that: the extruded conveying structure (6) comprises a fourth connecting plate (61), and one end of the fourth connecting plate (61) The second connecting plate (25) is detachably connected, the fourth connecting plate (61) is provided with a third electric telescopic rod (62), and the upper end of the third electric telescopic rod (62) is detachably connected to the fifth electric telescopic rod (62). A connecting plate (63), two third connecting rings (64) are detachably connected to the fifth connecting plate (63), and a transmission rod (65) is arranged between the two third connecting rings (64), An L-shaped plate (66) is provided on one side of the fifth connecting plate (63), and a fourth electric telescopic rod (67) is provided below the L-shaped plate (66). The fourth electric telescopic rod (67) The lower end is detachably connected to the pressure plate (68). 6. A cable protective layer winding device according to claim 2, characterized in that: the traction assembly (7) comprises a sixth connecting plate (71), and the sixth connecting plate (71) is detachably connected to the The second connecting plate (25), the sixth connecting plate (71) is provided with a fifth electric telescopic rod (72), and the upper end of the fifth electric telescopic rod (72) is provided with a support plate (73), so Both ends of the support plate (73) are provided with fixing blocks (74), the fixing blocks (74) are provided with sixth electric telescopic rods (75), and the upper ends of the two sixth electric telescopic rods (75) are detachable A seventh connecting plate (76) is connected, a convex plate (77) is arranged under the seventh connecting plate (76), and a second driving motor (78) is arranged in the lower opening of the convex plate (77), so The drive shaft of the second driving motor (78) is connected to a transmission wheel (79), and the bearing of the transmission wheel (79) is connected to the convex plate (77).

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