CN221079706U - Cable conveying device - Google Patents

Abstract

The utility model discloses a cable conveying device, which relates to the technical field of cable production and comprises a double-layer platform and a conveying assembly, wherein the double-layer platform comprises an upper platform and a lower platform, the conveying assembly comprises a conveying frame, a driving piece and a wire conveying piece, the conveying frame is connected with the upper platform, the driving piece is connected with the conveying frame, and the wire conveying piece is connected with the driving piece; wherein a plurality of pay-off racks are distributed on the upper platform and the lower platform, the driving piece drives the wire conveying piece to move between the upper platform and the lower platform, the wire conveying piece pulls the wire ends of the cable cores on the pay-off rack of the upper platform. The cable conveying device has the effects of improving the space utilization rate of a factory building, guaranteeing the practical convenience of lead wires of a double-layer platform and improving the production efficiency.

Description

Cable conveying device

Technical Field

The utility model relates to the technical field of cable production, in particular to a cable conveying device.

Background

A cabling machine is a device for the production of cables, which functions to twist together insulated wire cores for filling and winding, thereby forming a cable product. The cabling machine is generally provided with a plurality of pay-off racks, and the pay-off racks are used for paying off different cable cores, so that the stranding operation of the cabling machine is facilitated.

In the prior art, a plurality of pay-off frames prepared by a cabling machine are arranged on the ground, and the pay-off frames are arranged in a staggered manner, so that the problem of large occupied ground space exists.

Disclosure of utility model

Therefore, the technical problem to be solved by the utility model is to solve the problem that a plurality of pay-off racks prepared by a cabling machine occupy larger ground space in the prior art.

In order to solve the above technical problems, the present utility model provides a cable conveying device, including:

the double-layer platform comprises an upper platform and a lower platform;

The conveying assembly comprises a conveying frame, a driving piece and a wire conveying piece, wherein the conveying frame is connected with the upper platform, the driving piece is connected with the conveying frame, and the wire conveying piece is connected with the driving piece;

The wire feeding device comprises a wire feeding device, a wire feeding device and a wire feeding device, wherein the wire feeding device is arranged on an upper platform and a lower platform in a distributed mode, the wire feeding device is driven to move between the upper platform and the lower platform, and the wire feeding device pulls a wire head of a wire core on the wire feeding device of the upper platform.

In one embodiment of the present utility model, the wire feeding member includes:

the wire conveying seat is connected with the driving piece in a sliding way;

The wire pressing piece is connected with the wire conveying seat, and the wire pressing piece compresses the wire heads of the cable cores on the wire conveying seat.

In one embodiment of the present utility model, the wire pressing member includes:

The wire pressing seat is connected with the wire conveying seat;

The wire pressing handle is hinged with the wire pressing seat;

one end of the wire pressing cross rod is hinged with the wire pressing seat;

The wire pressing adapter is embedded between the wire pressing handle and the wire pressing cross rod, and two ends of the wire pressing adapter are respectively hinged with the wire pressing handle and the wire pressing cross rod;

the wire pressing block is connected with the other end of the wire pressing cross rod;

The wire pressing handle can be stressed to rotate, and when the wire pressing handle rotates, the wire pressing block is driven to rotate to press or rotate away from the wire conveying seat through the transmission of the wire pressing adapter and the wire pressing cross rod.

In one embodiment of the present utility model, the wire pressing member further includes:

the adjusting rod is connected with the wire pressing block and is arranged on the wire pressing cross rod in a penetrating mode;

The adjusting nut is provided with external threads on the rod body of the adjusting rod and is in threaded connection with the adjusting rod, at least two adjusting nuts are arranged, and the two adjusting nuts are respectively located on two sides of the line pressing cross rod.

In one embodiment of the utility model, the wire pressing cross rod is provided with a strip-shaped groove arranged along the length direction of the wire pressing cross rod, and the adjusting rod is arranged in the strip-shaped groove in a penetrating way.

In one embodiment of the utility model, the wire feeding seat is a metal piece, and the bottom end of the wire pressing block is provided with an adhesive piece capable of being repeatedly bonded.

In one embodiment of the present utility model, further comprising a guide assembly comprising:

the first guide roller is connected with the conveying frame;

the guide frame is connected with the lower platform;

The second guide roller is connected with the guide frame and is arranged in parallel with the first guide roller;

When the wire head of the cable core on the pay-off rack is pulled by the wire conveying piece, the cable head sequentially passes through the first guide roller and the second guide roller for guiding and conveying.

In one embodiment of the utility model, the guide assembly further comprises:

the third guide roller is connected with the conveying frame;

the fourth guide roller is connected with the conveying frame, and the third guide roller is arranged in parallel with the fourth guide roller;

When the wire head of the cable core on the pay-off rack is pulled by the wire conveying piece, the wire head moves to the position of the first guide roller after being guided by a gap between the third guide roller and the fourth guide roller.

In one embodiment of the utility model, the guiding assembly further comprises a plurality of first branching rollers, the first branching rollers are connected with the conveying frame, the plurality of first branching rollers are vertically arranged in parallel, and branching inlet channels are formed between adjacent first branching rollers; the first branching roller is arranged in front of the first guide roller, and the thread ends move to the position of the first guide roller after passing through the corresponding branching inlet channel.

In one embodiment of the utility model, the guide assembly further comprises a plurality of second branching rollers, the second branching rollers are connected with the guide frame, the plurality of second branching rollers are vertically arranged in parallel, and branching outlet passages are formed between adjacent second branching rollers; the second wire distributing roller is arranged behind the second guide roller, and the wire ends move to the corresponding wire distributing outlet channels to be transmitted after passing through the second guide roller.

Compared with the prior art, the technical scheme of the utility model has the following advantages:

The cable conveying device comprises a double-layer platform and a conveying assembly, wherein the double-layer platform comprises an upper platform and a lower platform, the conveying assembly comprises a conveying frame, a driving piece and a wire conveying piece, the conveying frame is connected with the upper platform, the driving piece is connected with the conveying frame, and the wire conveying piece is connected with the driving piece; wherein a plurality of pay-off racks are distributed on the upper platform and the lower platform, the driving piece drives the wire conveying piece to move between the upper platform and the lower platform, the wire conveying piece pulls the wire ends of the cable cores on the pay-off rack of the upper platform. The cable conveying device is provided with the double-layer platform, so that a plurality of pay-off frames can be distributed on the upper platform and the lower platform, the occupied area of a tiled ground space is reduced, and the space utilization rate of a factory building is improved; through setting up conveying component, made things convenient for the end of a thread with the last cable core of pay off rack of upper platform to pulling to the suitable position that ground cabling machine corresponds, avoided artifical intensity of labour of acting as go-between, ensured bilayer platform's practical convenience, improved production efficiency.

Drawings

In order that the utility model may be more readily understood, a more particular description of the utility model will be rendered by reference to specific embodiments thereof that are illustrated in the appended drawings, in which

FIG. 1 is a schematic view of a cable transport device in accordance with a preferred embodiment of the present utility model;

FIG. 2 is a schematic view of a wire feeding member of the wire feeding device shown in FIG. 1;

FIG. 3 is a schematic view of the cable transport device of FIG. 1 with the cable members rotated open;

FIG. 4 is an enlarged schematic view at A in FIG. 1;

Fig. 5 is an enlarged schematic view at B in fig. 1.

Description of the specification reference numerals: 1. a double-deck platform; 11. a top platform; 12. a lower platform; 2. a transport assembly; 21. a carriage; 22. a driving member; 23. a wire conveying member; 231. a wire conveying seat; 232. a wire pressing member; 2321. a wire pressing seat; 2322. a wire pressing handle; 2323. a wire pressing cross rod; 2324. a wire pressing adapter; 2325. a wire pressing block; 2326. an adjusting rod; 2327. an adjusting nut; 3. a guide assembly; 31. a first guide roller; 32. a guide frame; 33. a second guide roller; 34. a third guide roller; 35. a fourth guide roller; 36. a first thread-dividing roller; 37. a second thread dividing roller; 4. and (5) paying off the wire frame.

Detailed Description

The present utility model will be further described with reference to the accompanying drawings and specific examples, which are not intended to be limiting, so that those skilled in the art will better understand the utility model and practice it.

Referring to fig. 1 to 5, the present utility model discloses a cable conveying device, comprising:

A double-deck platform 1, the double-deck platform 1 including an upper platform 11 and a lower platform 12;

The conveying assembly 2, the conveying assembly 2 comprises a conveying frame 21, a driving piece 22 and a wire conveying piece 23, the conveying frame 21 is connected with the upper platform 11, the driving piece 22 is connected with the conveying frame 21, and the wire conveying piece 23 is connected with the driving piece 22;

wherein, a plurality of pay-off frames 4 are distributed and arranged on the upper platform 11 and the lower platform 12, the driving piece 22 drives the wire conveying piece 23 to move between the upper platform 11 and the lower platform 12, and the wire conveying piece 23 pulls the wire heads of the cable cores on the pay-off frames 4 positioned on the upper platform 11.

The cable conveying device is provided with the double-layer platform 1, so that a plurality of pay-off frames 4 can be distributed on the upper platform 11 and the lower platform 12, the occupied area of a tiled ground space is reduced, and the utilization rate of a factory building space is improved; the lower platform 12 can also be directly selected as the ground, so that the equipment cost is reduced; through setting up conveying component 2, made things convenient for the end of a thread with the pay off rack 4 of upper platform 11 to pull to the appropriate position that ground cabling machine corresponds, avoided artifical intensity of labour of acting as go-between, ensured the practicality convenience of bilayer platform 1, improved production efficiency.

The driving member 22 may be a device having a lifting function, such as a linear motor, a hydraulic cylinder, or the like, and in this embodiment, it is preferable that the driving member 22 is a linear motor for driving the wire feeding member 23 to move up and down.

In this embodiment, referring to fig. 2, specifically, the wire feeding member 23 includes:

the wire conveying seat 231, the wire conveying seat 231 is connected with the driving piece 22 in a sliding way;

The line ball spare 232, line ball spare 232 is connected with defeated line seat 231, and line head of line cable core is pressed on defeated line seat 231 to line ball spare 232.

Through setting up defeated line seat 231 and line ball spare 232, line ball spare 232 supports the line head tightly and removes the acting as go-between on defeated line seat 231, has ensured cable conveyor's stability of acting as go-between.

In the present embodiment, referring to fig. 2 and 3, preferably, the pressing member 232 includes:

the wire pressing seat 2321, the wire pressing seat 2321 is connected with the wire conveying seat 231;

The wire pressing handle 2322, the wire pressing handle 2322 is hinged with the wire pressing seat 2321;

The wire pressing cross rod 2323, wherein one end of the wire pressing cross rod 2323 is hinged with the wire pressing seat 2321;

The wire pressing switch piece 2324 is embedded between the wire pressing handle 2322 and the wire pressing cross rod 2323, and two ends of the wire pressing switch piece 2324 are hinged with the wire pressing handle 2322 and the wire pressing cross rod 2323 respectively;

the wire pressing block 2325, the wire pressing block 2325 is connected with the other end of the wire pressing cross bar 2323;

Wherein, line ball handle 2322 can atress rotate, and line ball handle 2322 rotates, through line ball adapter 2324, line ball horizontal pole 2323's transmission, drive line ball piece 2325 rotates to support to press or rotate and keep away from line delivery seat 231.

The wire pressing seat 2321 is used as an installation base to provide wire pressing guarantee; when an operator pushes the wire pressing handle 2322 to rotate, the wire pressing handle 2322 is driven by the wire pressing switching piece 2324 and the hinged connecting rod of the wire pressing cross rod 2323, so that the wire pressing block 2325 is driven to move; when the wire pressing handle 2322 is pushed to the vertical position, the wire pressing block 2325 rotates to press the wire conveying seat 231, the wire head is pressed on the wire conveying seat 231, and then the wire conveying seat 231 moves to drive the wire head to move from the upper platform 11 to the lower platform 12; when the line pressing block 2325 rotates to be far away from the line conveying seat 231, a larger gap is opened between the line pressing block 2325 and the line conveying seat 231, so that the line taking and paying-off head is convenient. The line pressing member 232 is simple to operate, practical and effective, and the line pulling efficiency is further improved.

In this embodiment, preferably, the pressing member 232 further includes:

The adjusting rod 2326, the adjusting rod 2326 is connected with the line pressing block 2325, and the adjusting rod 2326 is arranged on the line pressing cross rod 2323 in a penetrating mode;

The adjusting nut 2327, the shaft body of the adjusting rod 2326 is provided with external threads, the adjusting nut 2327 is in threaded connection with the adjusting rod 2326, the adjusting nut 2327 is at least provided with two pieces, and the two adjusting nuts 2327 are respectively located on two sides of the line pressing cross rod 2323.

Through setting up regulation pole 2326 and adjusting nut 2327 to conveniently adjust the interval between line ball piece 2325 and the transport seat, when guarantee line ball handle 2322 is in vertical state, line ball horizontal pole 2323 is in the horizontality, can stabilize the packing end of a thread, thereby adapts to the end of a thread of the cable core of equidimension and carries.

In this embodiment, preferably, the wire pressing cross bar 2323 is provided with a bar slot along the length direction, and the adjusting rod 2326 is arranged in the bar slot in a penetrating manner.

Through setting up the bar groove, conveniently adjust pole 2326 and can follow line ball horizontal pole 2323's length direction and carry out position adjustment to adjust line ball position of line ball piece 2325, guarantee cable conveyor's firm stability.

In this embodiment, preferably, the wire-feeding seat 231 is a metal member, and the bottom end of the wire-pressing block 2325 is configured as an adhesive member capable of being repeatedly bonded.

Through setting up the sticky piece that can repeatedly bond, line ball piece 2325 is when compressing tightly the end of a thread, exists the adhesion stress between line transmission seat 231 and the line ball piece 2325, further improves line ball reliability, and specifically, the bottom of line ball piece 2325 sets up to sticky rubber spare, reduces the damage that compresses tightly the end of a thread and led to the fact to the cable core.

In the present embodiment, as shown with reference to fig. 4 and 5, preferably, the cable conveying device further includes a guide assembly 3, and the guide assembly 3 includes:

A first guide roller 31, the first guide roller 31 being connected to the carriage 21;

the guide frame 32, the guide frame 32 connects with lower terrace 12;

The second guide roller 33, the second guide roller 33 is connected with the guide frame 32, the second guide roller 33 is parallel to the first guide roller 31;

Wherein, when the wire end of the cable core on the pay-off rack 4 is pulled by the wire conveying piece 23, the wire end sequentially passes through the first guide roller 31 and the second guide roller 33 for guiding and conveying.

Through setting up guide assembly 3, the end of a thread of cable core on pay off rack 4 passes through in proper order the direction of first guide roller 31 and second guide roller 33 is carried, has provided the end of a thread and has pulled stable route when going to lower platform 12 from upper platform 11, and follow-up cable core is when pulling, tangent contact with first guide roller 31, second guide roller 33 respectively, has improved cable conveyor's reliability.

In this embodiment, preferably, the guide assembly 3 further includes:

A third guide roller 34, the third guide roller 34 being connected to the carriage 21;

A fourth guide roller 35, the fourth guide roller 35 being connected to the carriage 21, the third guide roller 34 being arranged in parallel with the fourth guide roller 35;

When the wire end of the cable core on the pay-off rack 4 is pulled by the wire conveying piece 23, the wire end moves to the position of the first guide roller 31 after being guided by the gap between the third guide roller 34 and the fourth guide roller 35.

By arranging the third guide roller 34 and the fourth guide roller 35, the cable core passes through the gap between the third guide roller 34 and the fourth guide roller 35, so that the condition that the cable core is curled and knotted during conveying is reduced, the movable range of the cable core is limited, and the conveying reliability is improved.

In this embodiment, preferably, the guiding assembly 3 further includes a plurality of first thread dividing rollers 36, the first thread dividing rollers 36 are connected with the carriage 21, the plurality of first thread dividing rollers 36 are vertically arranged in parallel, and a thread dividing and feeding channel is formed between adjacent first thread dividing rollers 36; the first thread dividing roller 36 is arranged before the first guide roller 31, and the thread ends are moved to the position of the first guide roller 31 after passing through the corresponding thread dividing and feeding passage.

Through setting up many first branch line rollers 36, form a plurality of branch line inlet wire passageways, different cable cores get into corresponding branch line inlet wire passageway when carrying, avoided the different cable cores to twine crisscross condition each other that probably appears when carrying simultaneously, further improved the conveying reliability.

In this embodiment, preferably, the guide assembly 3 further includes a plurality of second branching rollers 37, the second branching rollers 37 are connected to the guide frame 32, the plurality of second branching rollers 37 are vertically arranged in parallel, and branching outlet passages are formed between adjacent second branching rollers 37; the second thread separating roller 37 is arranged behind the second guiding roller 33, and the thread ends pass through the second guiding roller 33 and then move to the corresponding thread separating outlet passages to be transmitted.

Through setting up many second branch rollers 37, form a plurality of separated time and go out the line passageway, wherein, separated time is gone out the line passageway and is set up with separated time inlet channel corresponds to guarantee that each kind of cable core can independently carry, guarantee conveying quality improves production efficiency.

The implementation principle of the embodiment is as follows: when the cable conveying device is used, the driving piece 22 drives the cable conveying seat 231 to move to the position of the conveying frame 21 on the upper platform 11, an operator pulls the cable heads of the cable cores on the pay-off rack 4 of the upper platform 11, and the cable heads sequentially pass through the gap between the third guide roller 34 and the fourth guide roller 35, the cable distributing inlet channel between the adjacent first cable distributing rollers 36 and the first guide roller 31, then move the cable heads to the cable conveying seat 231 and compress the cable heads through the cable pressing piece 232; then the driving piece 22 drives the wire conveying seat 231 to drive the wire head to move to the lower platform 12, the operator takes the wire head out of the wire pressing piece 232 and sequentially passes through the wire separating and outgoing channel between the second guide roller 33 and the adjacent second wire separating roller 37, and finally the wire is guided to the position of the cabling machine, so that the wire conveying and guiding operation of the double-layer platform 1 is completed. Different cable cores on the pay-off frames 4 can be continuously conveyed on the cable conveying device simultaneously corresponding to the independent wire-separating inlet channels and the wire-separating outlet channels.

It is apparent that the above examples are given by way of illustration only and are not limiting of the embodiments. Other variations and modifications of the present utility model will be apparent to those of ordinary skill in the art in light of the foregoing description. It is not necessary here nor is it exhaustive of all embodiments. And obvious variations or modifications thereof are contemplated as falling within the scope of the present utility model.

Claims (10)

1. A cable transportation device, comprising:

the double-layer platform comprises an upper platform and a lower platform;

The conveying assembly comprises a conveying frame, a driving piece and a wire conveying piece, wherein the conveying frame is connected with the upper platform, the driving piece is connected with the conveying frame, and the wire conveying piece is connected with the driving piece;

The wire feeding device comprises a wire feeding device, a wire feeding device and a wire feeding device, wherein the wire feeding device is arranged on an upper platform and a lower platform in a distributed mode, the wire feeding device is driven to move between the upper platform and the lower platform, and the wire feeding device pulls a wire head of a wire core on the wire feeding device of the upper platform.

2. The cable transportation device of claim 1, wherein: the wire feeding member includes:

the wire conveying seat is connected with the driving piece in a sliding way;

The wire pressing piece is connected with the wire conveying seat, and the wire pressing piece compresses the wire heads of the cable cores on the wire conveying seat.

3. The cable transportation device of claim 2, wherein: the wire pressing piece includes:

The wire pressing seat is connected with the wire conveying seat;

The wire pressing handle is hinged with the wire pressing seat;

one end of the wire pressing cross rod is hinged with the wire pressing seat;

The wire pressing adapter is embedded between the wire pressing handle and the wire pressing cross rod, and two ends of the wire pressing adapter are respectively hinged with the wire pressing handle and the wire pressing cross rod;

the wire pressing block is connected with the other end of the wire pressing cross rod;

The wire pressing handle can be stressed to rotate, and when the wire pressing handle rotates, the wire pressing block is driven to rotate to press or rotate away from the wire conveying seat through the transmission of the wire pressing adapter and the wire pressing cross rod.

4. A cable transportation device according to claim 3, wherein: the wire pressing piece further includes:

the adjusting rod is connected with the wire pressing block and is arranged on the wire pressing cross rod in a penetrating mode;

The adjusting nut is provided with external threads on the rod body of the adjusting rod and is in threaded connection with the adjusting rod, at least two adjusting nuts are arranged, and the two adjusting nuts are respectively located on two sides of the line pressing cross rod.

5. The cable transportation device of claim 4, wherein: the line ball horizontal pole is last to be offered along its length direction setting's bar slot, the regulation pole wears to establish in the bar slot.

6. A cable transportation device according to claim 3, wherein: the wire conveying seat is a metal piece, and the bottom end of the wire pressing block is provided with a sticky piece capable of being repeatedly bonded.

7. The cable transportation device of claim 1, wherein: still include the direction subassembly, the direction subassembly includes:

the first guide roller is connected with the conveying frame;

the guide frame is connected with the lower platform;

The second guide roller is connected with the guide frame and is arranged in parallel with the first guide roller;

When the wire head of the cable core on the pay-off rack is pulled by the wire conveying piece, the cable head sequentially passes through the first guide roller and the second guide roller for guiding and conveying.

8. The cable transportation device of claim 7, wherein: the guide assembly further comprises:

the third guide roller is connected with the conveying frame;

the fourth guide roller is connected with the conveying frame, and the third guide roller is arranged in parallel with the fourth guide roller;

When the wire head of the cable core on the pay-off rack is pulled by the wire conveying piece, the wire head moves to the position of the first guide roller after being guided by a gap between the third guide roller and the fourth guide roller.

9. The cable transportation device of claim 7, wherein: the guide assembly further comprises a plurality of first branching rollers, the first branching rollers are connected with the conveying frame, the plurality of first branching rollers are vertically and parallelly arranged, and branching inlet channels are formed between adjacent first branching rollers; the first branching roller is arranged in front of the first guide roller, and the thread ends move to the position of the first guide roller after passing through the corresponding branching inlet channel.

10. The cable transportation device of claim 9, wherein: the guide assembly further comprises a plurality of second branching rollers, the second branching rollers are connected with the guide frame, the second branching rollers are vertically and parallelly arranged, and branching outlet passages are formed between adjacent second branching rollers; the second wire distributing roller is arranged behind the second guide roller, and the wire ends move to the corresponding wire distributing outlet channels to be transmitted after passing through the second guide roller.