CN216686939U - Conveying assembly for data line production - Google Patents

Abstract

The utility model discloses a conveying assembly for data line production, which comprises a pay-off rack, a first conveying wheel and a second conveying wheel, wherein data line body bodies are wound on the first conveying wheel and the second conveying wheel; the data line body is attached to the monitoring roller on the second conveying wheel, pressure applied to the monitoring roller is transmitted to the pressure sensor, tension in conveying of the data line body can be monitored in real time through the pressure sensor, workers can conveniently adjust conveying speed of the data line body correspondingly, the situations that the data line body is too tight and too loose in conveying are avoided, and under the cooperation of the conversion assemblies, separation can be carried out in conveying of the subsequent data line body through staggered selection of the slide ways on the first conversion sleeve and the second conversion sleeve, and the situation that the data line body is wound in conveying is avoided.

Description

Conveying assembly for data line production

Technical Field

The utility model relates to the technical field related to data line production, in particular to a conveying assembly for data line production.

Background

At present, electronic products are increasingly accelerated to update, and gradually tend to the development in the directions of comprehensive functions, small size, light weight, touch operation and the like, and data lines are required to be used in the interconnection of the electronic products, so that the use amount of the data lines in daily life is large, and meanwhile, the data lines are required to be conveyed to the data line body by using the conveying assembly in production, so that the efficient proceeding of subsequent processing procedures is ensured.

The prior art has the following defects: the existing conveying assembly cannot continuously and stably convey the data line and cannot convert the conveying position of the data line, so that the data line is extremely easy to be mutually wound and interfered during conveying, meanwhile, the existing conveying assembly does not have a tension monitoring function, cannot monitor the tension of the data line in real time, and cannot guarantee the stability of the data line during conveying.

Disclosure of Invention

The utility model aims to provide a conveying assembly for data line production, which aims to solve the problems in the background technology.

In order to achieve the purpose, the utility model provides the following technical scheme: the utility model provides a conveying subassembly is used in data line production, includes pay off rack, a delivery wheel and No. two delivery wheels, all around being equipped with data line body on a delivery wheel, No. two delivery wheels, the whole T shape structure that is of pay off rack, No. one delivery wheel, No. two delivery wheel symmetry lockings are installed on pay off rack inner wall top, install the conversion subassembly on the pay off rack, conversion subassembly one side is extended there is spacing subassembly, No. two embedded on-line monitoring subassemblies that are equipped with of delivery wheel.

The conversion assembly comprises a first conversion sleeve, a moving portion and a second conversion sleeve, the first conversion sleeve is installed in the middle of the top end of the inner wall of the pay-off rack in a locking mode, the moving portion is installed at the bottom of the inner wall of the pay-off rack, the second conversion sleeve is installed on the moving portion, and the first conversion sleeve and the second conversion sleeve are distributed in parallel.

A conversion sleeve, No. two conversion sleeve's size is the same, a multiunit slide has evenly been seted up to a conversion sleeve, No. two conversion sleeve outer walls, a conversion sleeve, No. two conversion sleeve outsidess all extend there is the guide roll.

The moving part comprises a sliding rail, a sliding seat and a fastener, the sliding rail is installed at the bottom end of the inner wall of the pay-off rack in a locking mode, the sliding seat is sleeved outside the sliding rail in a sliding and clamping mode, multiple groups of threaded holes are evenly formed in the sliding rail, and the fastener penetrates through the sliding seat in a screwing mode to be fastened and connected with the threaded holes.

Spacing subassembly includes bottom plate, two sets of compression rollers and two sets of compression rollers No. two, the bottom plate closure is installed in slip track one side, a compression roller parallel rotation installs at the bottom plate front end, No. two compression roller parallel rotation install at the bottom plate front end, and No. two compression rollers and a compression roller are vertical distribution.

The on-line monitoring subassembly includes recess, slide, pressure sensor, location frame, two sets of tracks, two sets of movable plates, two sets of absorption springs and monitoring roller, the recess is seted up at the interior top of No. two delivery wheels, slide slidable mounting is in the recess, pressure sensor installs in the recess bottom and with the laminating of slide lower surface, pressure sensor passes through wireless data and is connected with external alarm, location frame closure is installed at the slide upper surface, the track symmetry is seted up on location frame both sides wall top, movable plate slidable mounting is in the track, absorption springs installs between track, movable plate, monitoring roller both ends are passed through the bearing and are rotated with the movable plate and are connected.

The utility model provides a conveying assembly for data line production, which has the following beneficial effects:

(1) according to the utility model, the online monitoring assembly is arranged, the data line body is attached to the monitoring roller on the second conveying wheel, the pressure applied to the monitoring roller is transmitted to the pressure sensor, the tension in the conveying of the data line body can be monitored in real time through the pressure sensor, the conveying speed of the data line body can be conveniently and correspondingly adjusted by a worker, the situations that the data line body is too tight and too loose in the conveying process are avoided, and the monitoring roller can flexibly absorb the external impact force due to the fact that the monitoring roller slides up and down along with the movable plate in the track and buffers the monitoring roller through the absorption spring;

(2) according to the utility model, the conversion assembly is arranged, the first conversion sleeve and the second conversion sleeve are arranged in parallel, a plurality of groups of slideways are arranged on the outer walls of the first conversion sleeve and the second conversion sleeve, the slideways on the first conversion sleeve and the second conversion sleeve are selected in a staggered mode, the first conversion sleeve and the second conversion sleeve can be separated in the subsequent data line body conveying process, the data line body is prevented from being wound in the conveying process, and the sliding seat slides on the sliding track under the cooperation of the moving part, so that the position of the second conversion sleeve is adjusted, the fine adjustment treatment can be conveniently carried out according to the actual distance, and the stability of the data line body conveying is ensured.

Drawings

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

FIG. 2 is a schematic structural view of a spacing assembly of the present invention;

FIG. 3 is a schematic view of a conversion assembly of the present invention;

FIG. 4 is a schematic view of an on-line monitoring assembly according to the present invention;

FIG. 5 is an enlarged view taken at A in FIG. 4 according to the present invention;

in the figure: 1. a pay-off rack; 2. a first conveying wheel; 3. a second conveying wheel; 4. a data line body; 5. a first conversion sleeve; 6. a second conversion sleeve; 7. a slideway; 8. a guide roller; 9. a sliding track; 10. a sliding seat; 11. a fastener; 12. a base plate; 13. a first press roller; 14. a second press roll; 15. a groove; 16. a slide plate; 17. a pressure sensor; 18. a positioning frame; 19. a track; 20. a movable plate; 21. an absorbing spring; 22. the roll is monitored.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

Example 1

As shown in fig. 1-3, the present invention provides the technical solution: the utility model provides a conveying subassembly is used in data line production, includes pay off rack 1, a delivery wheel 2 and No. two delivery wheels 3, all around being equipped with data line body 4 on a delivery wheel 2, No. two delivery wheels 3, pay off rack 1 wholly is T shape structure, install on 1 inner wall top of pay off rack 1 for a delivery wheel 2, No. two delivery wheel 3 symmetry lockings, install the conversion subassembly on the pay off rack 1, conversion subassembly one side extends there is spacing subassembly, No. two delivery wheel 3 embedded on-line monitoring subassemblies that are equipped with.

In this embodiment, specifically: the conversion assembly comprises a conversion sleeve 5, a moving portion and a second conversion sleeve 6, wherein the first conversion sleeve 5 is installed in the middle of the top end of the inner wall of the pay-off rack 1 in a locking mode, the moving portion is installed at the bottom of the inner wall of the pay-off rack 1, the second conversion sleeve 6 is installed on the moving portion, the first conversion sleeve 5 and the second conversion sleeve 6 are distributed in parallel, and the first conversion sleeve 5 and the second conversion sleeve 6 can be separated in the subsequent data line body 4 conveying process through the staggered selection of the slide ways 7 on the first conversion sleeve 5 and the second conversion sleeve 6, so that the winding condition of the data line body 4 in the conveying process is avoided.

In this embodiment, specifically: the size of a first conversion sleeve 5 is the same as that of a second conversion sleeve 6, a plurality of groups of slideways 7 are uniformly formed in the outer walls of the first conversion sleeve 5 and the second conversion sleeve 6, and guide rollers 8 extend out of the first conversion sleeve 5 and the second conversion sleeve 6.

In this embodiment, specifically: the moving part comprises a sliding rail 9, a sliding seat 10 and a fastener 11, the sliding rail 9 is installed at the bottom end of the inner wall of the pay-off rack 1 in a locking mode, the sliding seat 10 is sleeved outside the sliding rail 9 in a sliding clamping mode, multiple groups of threaded holes are evenly formed in the sliding rail 9, the fastener 11 penetrates through the sliding seat 10 in a screwing mode and is connected with the threaded holes in a fastening mode, the sliding seat 10 slides on the sliding rail 9, the position of the second conversion sleeve 6 is adjusted, fine adjustment processing is conveniently conducted according to actual space, and the stability of conveying of the data line body 4 is guaranteed.

In this embodiment, specifically: spacing subassembly includes bottom plate 12, two sets of compression roller 13 and two sets of compression roller 14 No. two, the locking of bottom plate 12 is installed in slip track 9 one side, compression roller 13 parallel rotation installs at bottom plate 12 front end, No. two compression roller 14 parallel rotation installs at bottom plate 12 front end, and No. two compression roller 14 and compression roller 13 are vertical distribution.

Example 2

As shown in fig. 4 and 5, an on-line monitoring assembly is provided on the basis of embodiment 1, the on-line monitoring assembly includes a groove 15, a sliding plate 16, a pressure sensor 17, a positioning frame 18, two sets of rails 19, two sets of movable plates 20, two sets of absorbing springs 21, and a monitoring roller 22, the groove 15 is arranged at the top part in the second conveying wheel 3, the sliding plate 16 is arranged in the groove 15 in a sliding way, the pressure sensor 17 is installed at the inner bottom end of the recess 15 and attached to the lower surface of the slide plate 16, the pressure sensor 17 is connected with an external alarm through wireless data, the positioning frame 18 is installed on the upper surface of the sliding plate 16 in a locking mode, the tracks 19 are symmetrically arranged at the top ends of two side walls of the positioning frame 18, the movable plate 20 is slidably arranged in the tracks 19, the absorbing spring 21 is installed between the rail 19 and the movable plate 20, and both ends of the monitoring roller 22 are rotatably connected with the movable plate 20 through bearings.

Increased the on-line monitoring subassembly for embodiment 1, through being equipped with the on-line monitoring subassembly, data line body 4 is laminated with monitoring roller 22 on No. two delivery wheels 3, and the pressure transmission that will monitor roller 22 received to pressure sensor 17 in, can carry out real-time supervision to the tension in data line body 4 transport through pressure sensor 17, make things convenient for the staff to correspond the transport speed of adjustment data line body 4, it is too tight to avoid appearing in data line body 4 transport, too loose situation, because monitoring roller 22 follows movable plate 20 and slides from top to bottom in track 19, and through the buffering of absorbing spring 21 to monitoring roller 22, can carry out the flexible absorption to external impact force.

The working principle is that when in use, firstly, the data line body 4 sequentially passes through the first conveying wheel 2, the conversion assembly, the second conveying wheel 3 and the limiting assembly to ensure the subsequent continuous conveying of the data line body 4, the conversion assembly is arranged, the first conversion sleeve 5 and the second conversion sleeve 6 are arranged in parallel, a plurality of groups of slideways 7 are arranged on the outer walls of the first conversion sleeve 5 and the second conversion sleeve 6, the slideways 7 on the first conversion sleeve 5 and the second conversion sleeve 6 are selected in a staggered mode to be separated in the subsequent conveying of the data line body 4, the winding condition of the data line body 4 in the conveying process is avoided, and under the matching of a moving part, the sliding seat 10 slides on the sliding track 9, so that the second conversion sleeve 6 is adjusted in position, the fine adjustment processing is convenient according to the actual distance, and the stable conveying of the data line body 4 is ensured, after the adjustment is completed, the fastening piece 11 penetrates through the sliding seat 10 to be fixed with the threaded hole, the limiting assembly is arranged, the data line body 4 passes through the first conveying wheel 2, the second conveying wheel 3 is transferred to the inside of the limiting assembly, preliminary limiting is carried out through the two groups of first pressing rollers 13, then the data line body 4 is limited through the second pressing roller 14 again, multi-directional limiting of the data line body 4 is achieved, the falling condition in conveying is avoided, the data line body 4 is attached to the monitoring roller 22 on the second conveying wheel 3 through the arrangement of the online monitoring assembly, the pressure received by the monitoring roller 22 is transmitted to the pressure sensor 17, the tension in conveying of the data line body 4 can be monitored in real time through the pressure sensor 17, the conveying speed of the data line body 4 can be adjusted conveniently by workers, and the phenomenon that the data line body 4 is too tight in conveying is avoided, In the case of an excessively loose condition, the monitoring roller 22 slides up and down in the track 19 along with the movable plate 20, and the monitoring roller 22 is buffered by the absorption spring 21, so that the external impact force can be flexibly absorbed, and the running safety of the equipment is improved.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a conveying subassembly is used in data line production, a serial communication port, includes pay off rack (1), a delivery wheel (2) and No. two delivery wheels (3), all around being equipped with data line body (4) on a delivery wheel (2), No. two delivery wheels (3), pay off rack (1) wholly is T shape structure, install on pay off rack (1) inner wall top a delivery wheel (2), No. two delivery wheel (3) symmetry closure, install conversion components on pay off rack (1), conversion components one side extends there is spacing subassembly, No. two delivery wheel (3) embedded on-line monitoring subassembly that is equipped with.

2. The conveying assembly for data line production according to claim 1, wherein: the conversion assembly comprises a conversion sleeve (5), a moving part and a second conversion sleeve (6), wherein the first conversion sleeve (5) is installed in the middle of the top end of the inner wall of the pay-off rack (1) in a locking mode, the moving part is installed at the bottom of the inner wall of the pay-off rack (1), the second conversion sleeve (6) is installed on the moving part, and the first conversion sleeve (5) and the second conversion sleeve (6) are distributed in parallel.

3. The conveying assembly for data line production according to claim 2, wherein: a conversion sleeve (5), No. two conversion sleeve (6) the same size, multiunit slide (7) have evenly been seted up to a conversion sleeve (5), No. two conversion sleeve (6) outer wall, a conversion sleeve (5), No. two conversion sleeve (6) outside all extends there is guide roll (8).

4. The conveying assembly for data line production according to claim 2, wherein: the moving part comprises a sliding rail (9), a sliding seat (10) and a fastening piece (11), the sliding rail (9) is locked and installed at the bottom end of the inner wall of the pay-off rack (1), the sliding seat (10) is slidably clamped and sleeved outside the sliding rail (9), a plurality of groups of threaded holes are uniformly formed in the sliding rail (9), and the fastening piece (11) is screwed and penetrates through the sliding seat (10) to be fastened and connected with the threaded holes.

5. The conveying assembly for data line production according to claim 1, wherein: spacing subassembly includes bottom plate (12), two sets of compression roller (13) and two sets of compression roller (14) No. two, bottom plate (12) closure is installed in slip track (9) one side, compression roller (13) parallel rotation installs at bottom plate (12) front end, No. two compression roller (14) parallel rotation installs at bottom plate (12) front end, and compression roller (14) No. two are vertical distribution with compression roller (13).

6. The conveying assembly for data line production according to claim 1, wherein: the online monitoring assembly comprises a groove (15), a sliding plate (16), a pressure sensor (17), a positioning frame (18), two groups of rails (19), two groups of movable plates (20), two groups of absorption springs (21) and a monitoring roller (22), the groove (15) is formed in the inner top of the second conveying wheel (3), the sliding plate (16) is slidably mounted in the groove (15), the pressure sensor (17) is mounted at the inner bottom end of the groove (15) and attached to the lower surface of the sliding plate (16), the pressure sensor (17) is connected with an external alarm through wireless data, the positioning frame (18) is locked and mounted on the upper surface of the sliding plate (16), the rails (19) are symmetrically formed in the top ends of the two side walls of the positioning frame (18), the movable plates (20) are slidably mounted in the rails (19), and the absorption springs (21) are mounted on the rails (19), And two ends of the monitoring roller (22) are rotatably connected with the movable plates (20) through bearings between the movable plates (20).

Images