CN217866794U - Cable processing operation platform - Google Patents

Abstract

The utility model provides a cable processing work platform, including gripper (3), cable moving platform (1), cable pushing mechanism (2) and work platform (5), set up around cable moving platform (1) and work platform (5), gripper (3) are located the top of cable moving platform (1), and gripper (3) can grasp the cable and remove this cable to cable moving platform (1) on, and cable pushing mechanism (2) can be with on cable moving platform (1) the cable promotes to work platform (5) on. This cable processing work platform can improve the circulation speed of cable product, reduces artifical transport, reduces staff intensity of labour, improves production efficiency.

Description

Cable processing operation platform

Technical Field

The utility model relates to a cable processing work platform.

Background

At present, cables with the square of 150 or more are cut to a fixed length required by a client in advance, and the cables are carried only by staff in the production process, so that time and labor are wasted, and the efficiency is low.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem of 150 square (millimeters) and above cable transport difficulty, the utility model provides a cable processing work platform, this cable processing work platform can improve the circulation speed of cable product, reduces artifical transport, reduces staff intensity of labour, improves production efficiency.

The utility model provides a technical scheme that its technical problem adopted is:

the utility model provides a cable processing work platform, includes gripper, cable moving platform, cable pushing mechanism and work platform, sets up around cable moving platform and the work platform, and the gripper is located cable moving platform's top, and the gripper can grasp the cable and remove this cable to the cable moving platform on, and cable pushing mechanism can be with on the cable moving platform the cable promotes to the work platform on.

The cable moving platform comprises a first roller way, the first roller way comprises a plurality of first rollers, and the first rollers are arranged at intervals in the left-right direction.

The first roller way further comprises a first roller way front cross beam and a first roller way rear cross beam, the first roller way front cross beam, the first roller and the first roller way rear cross beam are sequentially connected from front to back, and a roller way lower support is connected below the first roller way.

The cable processing operation platform further comprises a mechanical claw mounting frame, the mechanical claw mounting frame comprises a guide rail and an upper support which are sequentially connected, the guide rail is located above the cable moving platform, the guide rail extends in the left-right direction, the upper portion of the mechanical claw is connected with the guide rail, and the mechanical claw can move along the guide rail.

The gripper contains connecting portion and the portion of snatching that sets up from top to bottom, and connecting portion and guide rail are connected, and the guide rail is cylindrical structure, and the gripper can use the axis of guide rail as rotating.

The cable pushing mechanism comprises a push plate and a push plate driving assembly which are connected up and down, the push plate comprises a plurality of upright push rods, the upright push rods are spaced in the left-right direction, the push plate driving assembly can drive the push plate to move back and forth, and the push rods can be in contact with the cables on the cable moving platform.

The push rod penetrates through a gap between two adjacent first rollers, the push plate driving assembly is located below the first roller way, the push plate driving assembly comprises an air cylinder, a sliding block, a sliding rail, a baffle and a supporting plate which are connected in sequence, the lower end of the push plate is fixedly connected with the sliding block, and the air cylinder can drive the sliding block to move back and forth.

The operation platform contains operation board and platform lower carriage that sets up from top to bottom, and the operation board contains guide section and the operation section that sets up from front to back, and the upper surface rear end of guide section is less than the upper surface front end of guide section, and the upper surface of operation section is less than cable moving platform's upper surface.

The cable processing operation platform further comprises a second roller way, the second roller way is located below the operation plate and comprises a plurality of second rollers, the second rollers are arranged at intervals in the left and right directions, and the cables on the operation platform can fall on the second roller way.

The operation platform further comprises a guide plate, a strip-shaped pore channel is formed between the operation plate and the guide plate and is located behind the operation plate, the front end of the guide plate inclines downwards, and the cable on the operation platform can penetrate through the strip-shaped pore channel and then is guided by the guide plate to fall on the second roller way.

The utility model has the advantages that: the labor consumption such as cable transport in the cable production and processing process is effectively reduced. The labor intensity of the staff is reduced. Meanwhile, the combination of the two guide roller lines and the operation platform can accelerate the rotation speed of the cable, reduce the risk of cable damage in manual carrying and avoid loss.

Drawings

The accompanying drawings, which form a part of the present application, are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention and not to limit the invention.

Fig. 1 is a schematic front view of the cable processing work platform of the present invention.

Fig. 2 is a schematic perspective view of the cable processing work platform of the present invention.

Fig. 3 is a schematic view of a cable pushing mechanism.

1. A cable moving platform; 2. a cable pushing mechanism; 3. a gripper; 4. a second roller way; 5. an operation platform; 6. A gripper mounting frame;

11. a lower support of the roller way; 12. a first roller way;

21. pushing the plate; 22. a slider; 23. a slide rail; 24. a baffle plate; 25. a support plate;

31. a connecting portion; 32. a grasping section;

41. a second roller; 42. a second roller way front cross beam; 43. a second roller way rear cross beam;

51. an operation plate; 52. a platform lower support; 53. a guide plate; 54. a strip-shaped duct;

61. a guide rail; 62. an upper bracket;

121. a first roller; 122. a first roller way front cross beam; 123. a first roller way rear cross beam;

211. a push rod;

511. a guide section; 512. an operation section;

531. a guide section; 532. and a fixed segment.

Detailed Description

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present invention will be described in detail below with reference to the accompanying drawings in conjunction with embodiments.

The utility model provides a cable processing work platform, includes gripper 3, cable moving platform 1, cable pushing mechanism 2 and operation platform 5, sets up around cable moving platform 1 and the operation platform 5, and gripper 3 is located cable moving platform 1's top, and gripper 3 can grasp the cable and remove this cable to cable moving platform 1 on, and cable pushing mechanism 2 can be with on the cable moving platform 1 the cable promotes to operation platform 5 on, as shown in fig. 1 and fig. 2.

In this embodiment, the cable moving platform 1 is used to make the cable move left and right conveniently on the cable moving platform 1, and the cable moving platform 1 can adopt self-lubricating table-board or roller way and other implementation modes. Preferably, the cable moving platform 1 includes a first roller way 12, the first roller way 12 includes a plurality of first rollers 121, the plurality of first rollers 121 are arranged at intervals in the left-right direction, and the plurality of first rollers 121 are all located at the same horizontal height. The axes of the first rollers 121 are arranged in the front-rear direction, and each first roller 121 can rotate.

In this embodiment, first roller way 12 further includes first roller way front beam 122 and first roller way rear beam 123, first roller way front beam 122 extends along the left-right direction, first roller way front beam 122 and first roller way rear beam 123 are arranged in parallel from front to back, first roller way front beam 122, first roller 121 and first roller way rear beam 123 are connected from the front to back in proper order, the below of first roller way 12 is connected with roller way lower bracket 11, roller way lower bracket 11 is used for supporting first roller way 12 and gripper 3, as shown in fig. 1 and fig. 2.

In this embodiment, the cable processing operation platform further includes a gripper mounting bracket 6, the gripper 3 is connected to the cable moving platform 1 through the gripper mounting bracket 6, the gripper mounting bracket 6 includes a guide rail 61 and an upper bracket 62 that are connected in sequence, the guide rail 61 is located directly above the cable moving platform 1, the guide rail 61 extends in the left-right direction, the upper portion of the gripper 3 is connected to the guide rail 61, and the gripper 3 can move along the guide rail 61.

The upper bracket 62 may have an inverted L-shaped structure, and the upper bracket 62 is located at both ends of the guide rail 61 along the extending direction of the guide rail 61. The upper portion of upper bracket 62 is connected fixedly with guide rail 61, and the lower extreme of upper bracket 62 is connected fixedly with first roll table front beam 122, and the distance of guide rail 61 to first roll table front beam 122 and first roll table rear beam 123 is roughly the same.

In the embodiment, the gripper 3 includes a connecting portion 31 and a grasping portion 32 disposed vertically, the connecting portion 31 is connected to the guide rail 61, the guide rail 61 has a cylindrical structure, the connecting portion 31 and the guide rail 61 can be in clearance fit, and the gripper 3 can rotate around the axis of the guide rail 61. The grabbing part 32 can clamp and fix the cable, and the grabbing part 32 can clamp and fix the cable in a manual, electric, hydraulic or pneumatic mode.

In this embodiment, the cable processing operation platform includes two cable pushing mechanisms 2 arranged at left and right intervals, the cable pushing mechanisms 2 include a push plate 21 and a push plate driving assembly connected up and down, the push plate 21 includes a plurality of upright push rods 211, the upright push rods 211 are spaced in the left and right directions, the push plate driving assembly can drive the push plate 21 to move back and forth, the push rods 211 can contact with the cable on the cable moving platform 1, and therefore in the process that the push plate 21 moves forward, the cable on the cable moving platform 1 is pushed to the operation platform 5.

In this embodiment, the push rod 211 penetrates through a gap between two adjacent first rollers 121, the push plate driving assembly is located below the first roller table 12, the push plate driving assembly includes an air cylinder, and a slider 22, a sliding rail 23, a baffle 24 and a supporting plate 25 which are connected in sequence, a lower end of the push plate 21 is connected and fixed to the slider 22, and the air cylinder can drive the slider 22 to move back and forth, so as to drive the push plate 21 to move back and forth, as shown in fig. 2 and 3. The supporting plate 25 is fixedly connected with the lower bracket 11 of the roller way.

In this embodiment, the work platform 5 includes a work board 51 and a platform lower support 52, which are vertically disposed, and the work board 51 includes a guide section 511 and a work section 512, which are longitudinally disposed. The front end of the upper surface of the guiding section 511 is flush with the upper surface of the cable moving platform 1, or the front end of the upper surface of the guiding section 511 is lower than the upper surface of the cable moving platform 1. The rear end of the upper surface of the guide section 511 is inclined downward, the rear end of the upper surface of the guide section 511 is lower than the front end of the upper surface of the guide section 511, and the upper surface of the working section 512 is lower than the upper surface of the cable moving platform 1.

The operation section 512 is used for performing post-processing operations such as terminal crimping, end protection adding and the like on the cable by staff on the operation section 512. The height of the upper surface of the working section 512 should be suitable for workers to stand or sit, the length and width of the upper surface of the working section 512 should be suitable for workers to perform the subsequent processing operations such as terminal crimping, terminal protection addition and the like, and the working plate 51 should have good smoothness so that the workers can slide the processed cable backwards.

In this embodiment, the cable processing work platform further includes a second roller way 4, the second roller way 4 is located right below the work plate 51, the second roller way 4 includes a plurality of second rollers 41, the plurality of second rollers 41 are arranged at intervals in the left-right direction, and the cable on the work platform 5 can fall on the second roller way 4. The plurality of second rollers 41 are all located at the same horizontal height, the axes of the second rollers 41 are arranged in the front-back direction, and each second roller 41 can rotate.

The rear end of second roller 41 is located the rear of operation board 51, so that on the operation platform 5 the cable can fall on second roller way 4 during backward movement, and second roller way 4 still contains second roller way front beam 42 and second roller way rear cross beam 43, and second roller way front beam 42 extends along left and right directions, and second roller way front beam 42, second roller 41 and second roller way rear cross beam 43 connect gradually from the past backward, and second roller way front beam 42 and second roller way rear cross beam 43 all are connected fixedly with platform lower carriage 52.

In this embodiment, the operation platform 5 further includes a guide plate 53, the guide plate 53 is located at the upper end of the rear portion of the operation platform 5, the guide plate 53 is in a long strip shape, the guide plate 53 extends in the left-right direction, a strip-shaped duct 54 is formed between the operation plate 51 and the guide plate 53, the strip-shaped duct 54 is located at the rear portion of the operation plate 51, the front end of the guide plate 53 is inclined downward, and the cable on the operation platform 5 can pass through the strip-shaped duct 54 and then fall onto the second roller way 4 under the guidance of the guide plate 53, as shown in fig. 1 and 2.

The width of the strip-shaped duct 54 can ensure that the cable can smoothly pass through, the guide plate 53 includes a guide section 531 and a fixing section 532 which are connected front and back, the guide section 531 is in an inclined state, the front end of the guide section 531 is lower than the rear end of the guide section 531, and the guide section 531 is used for guiding the cable to fall on the second roller path 4. The fixed section 532 is horizontal, the upper surface of the fixed section 532 and the upper surface of the working section 512 can be flush, and the fixed section 532 is fixedly connected with the platform lower bracket 52.

The operation of the cable processing platform is described below.

The cable processing operation platform can be used in cooperation with an automatic cable cutting and stripping machine, a cable is segmented and stripped by the automatic cable cutting and stripping machine and conveyed to the right end of the first roller way 12 through the conveying belt, the cable slides leftwards on the first roller way 12 after being grabbed by the mechanical claw 3, and the problem that labor intensity is high when staff pull the cable is solved.

Staff can make cable pushing mechanism 2 work through control switch, and push pedal 21 moves from the front end of first roll table 12 to the rear end of first roll table 12, with the cable from first roll table 12 horizontal push to operation section 512 of operation platform 5 on, has solved staff's transport cable high in labor strength's problem.

The staff carries out follow-up processing such as terminal crimping, end protection that adds to the cable on operation section 512 of operation platform 5, and the staff accomplishes the secondary operation of cable, can manually with on the operation platform 5 the cable pulling backward, the cable can pass behind the bar pore 54 and be fallen on second roller 4 by the guide of deflector 53 guide, and the coiling machine is placed to the left end or the right-hand member of second roller 4, can directly carry out the winding packing to the cable.

For convenience of understanding and description, the present invention has been described using an absolute positional relationship, and unless otherwise specified, the term "up" in the present invention means an upper direction in fig. 1, the term "down" in the present invention means a lower direction in fig. 1, the term "left" in the present invention means a direction perpendicular to the paper surface in fig. 1 and pointing to the outside of the paper surface, the term "right" in the present invention means a direction perpendicular to the paper surface in fig. 1 and pointing to the inside of the paper surface, the term "front" in the present invention means a left direction in fig. 1, and the term "rear" in the present invention means a right direction in fig. 1. The present invention has been described with reference to the viewing angle of the user, but the above words cannot be understood or interpreted as limitations to the scope of the present invention.

The above description is only for the specific embodiments of the present invention, and the scope of the present invention can not be limited by the embodiments, so that the replacement of the equivalent components or the equivalent changes and modifications made according to the protection scope of the present invention should still belong to the scope covered by the present patent. In addition, the utility model provides an between technical feature and the technical feature, between technical feature and technical scheme, technical scheme and the technical scheme all can the independent assortment use.

Claims (10)

1. The utility model provides a cable processing work platform, a serial communication port, cable processing work platform includes gripper (3), cable moving platform (1), cable pushing mechanism (2) and work platform (5), sets up around cable moving platform (1) and work platform (5), and gripper (3) are located the top of cable moving platform (1), and gripper (3) can grasp the cable and remove this cable to cable moving platform (1) on, and cable pushing mechanism (2) can be with cable moving platform (1) on the cable promotes to work platform (5).

2. The cable processing work platform according to claim 1, wherein the cable moving platform (1) comprises a first roller way (12), the first roller way (12) comprises a plurality of first rollers (121), and the plurality of first rollers (121) are arranged at intervals along the left-right direction.

3. The cable processing operation platform according to claim 2, wherein the first roller way (12) further comprises a first roller way front cross beam (122) and a first roller way rear cross beam (123), the first roller way front cross beam (122), the first roller (121) and the first roller way rear cross beam (123) are sequentially connected from front to rear, and a roller way lower support (11) is connected below the first roller way (12).

4. The cable processing work platform according to claim 1, further comprising a gripper mounting frame (6), wherein the gripper mounting frame (6) comprises a guide rail (61) and an upper frame (62) which are connected in sequence, the guide rail (61) is located above the cable moving platform (1), the guide rail (61) extends in the left-right direction, the upper portion of the gripper (3) is connected with the guide rail (61), and the gripper (3) can move along the guide rail (61).

5. The cable processing work platform according to claim 4, wherein the gripper (3) comprises a connecting part (31) and a gripping part (32) which are arranged up and down, the connecting part (31) is connected with the guide rail (61), the guide rail (61) is of a cylindrical structure, and the gripper (3) can rotate around the axis of the guide rail (61).

6. The cable processing work platform according to claim 2, wherein the cable pushing mechanism (2) comprises a push plate (21) and a push plate driving assembly which are connected up and down, the push plate (21) comprises a plurality of upright push rods (211), the upright push rods (211) are spaced in the left-right direction, the push plate driving assembly can drive the push plate (21) to move back and forth, and the push rods (211) can be contacted with the cables on the cable moving platform (1).

7. The cable processing operation platform according to claim 6, wherein a push rod (211) penetrates through a gap between two adjacent first rollers (121), the push plate driving assembly is located below the first roller way (12), the push plate driving assembly comprises an air cylinder, and a sliding block (22), a sliding rail (23), a baffle plate (24) and a supporting plate (25) which are connected in sequence, the lower end of the push plate (21) is fixedly connected with the sliding block (22), and the air cylinder can drive the sliding block (22) to move back and forth.

8. The cable processing work platform according to claim 1, characterized in that the work platform (5) comprises a work plate (51) and a platform lower support (52) which are arranged up and down, the work plate (51) comprises a guide section (511) and a work section (512) which are arranged in front and back, the rear end of the upper surface of the guide section (511) is lower than the front end of the upper surface of the guide section (511), and the upper surface of the work section (512) is lower than the upper surface of the cable moving platform (1).

9. The cable processing work platform according to claim 8, further comprising a second roller way (4), wherein the second roller way (4) is located below the work plate (51), the second roller way (4) comprises a plurality of second rollers (41), the plurality of second rollers (41) are arranged at intervals along the left-right direction, and the cable on the work platform (5) can fall on the second roller way (4).

10. The cable processing work platform according to claim 9, wherein the work platform (5) further comprises a guide plate (53), a strip-shaped duct (54) is formed between the work plate (51) and the guide plate (53), the strip-shaped duct (54) is located behind the work plate (51), the front end of the guide plate (53) is inclined downwards, and the cable on the work platform (5) can pass through the strip-shaped duct (54) and then is guided by the guide plate (53) to fall on the second roller table (4).

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