CN219408680U

CN219408680U - Copper wire transmission tightness adjusting device

Info

Publication number: CN219408680U
Application number: CN202320718686.2U
Authority: CN
Inventors: 李志龙
Original assignee: Nantong Haiteng Copper Co ltd
Current assignee: Nantong Haiteng Copper Co ltd
Priority date: 2023-04-04
Filing date: 2023-04-04
Publication date: 2023-07-25
Anticipated expiration: 2033-04-04

Abstract

The utility model discloses a copper wire transmission tightness adjusting device which comprises a support frame, wherein the bottom end of the support frame is fixedly connected with a bottom frame, the bottom end of the bottom frame is movably connected with a mounting bottom groove, the top end inside the support frame is provided with a first lifting frame, and the bottom end inside the support frame is provided with a second lifting frame. This copper line transmission elasticity adjusting device is through being provided with locating shaft, first crane, screw thread axle, runner, first screw thread sleeve, constant head tank and supporting roller, before transmitting the copper line, the runner that rotates the top drives the screw thread axle rotation of bottom, the screw thread axle promotes the first crane of bottom when first screw thread sleeve inside is rotatory and descends, the supporting roller descends through inside locating shaft drive when first crane descends, make supporting roller press the top at the copper line, in order to realize the location to the copper line, the problem of unable effective location to the copper line is solved.

Description

Copper wire transmission tightness adjusting device

Technical Field

The utility model relates to the technical field of copper wire processing, in particular to a copper wire transmission tightness adjusting device.

Background

In the field of copper wire processing, a special copper wire conveying device is required to convey copper wires, and meanwhile, processes such as stretching and calendaring can be performed on the copper wires, and copper wires with different sizes need different tightness degrees to maintain a smooth and tight state in the transmission process during transmission, but the tightness adjusting device for copper wire transmission still has some defects in use;

according to copper line transmission tightness adjusting device and calendering transmission equipment that chinese patent application number CN201721925163.6 proposed, the specific content is including: the copper wire winding device comprises a tensioning wheel, a supporting rod and an elastic resetting device, wherein the supporting rod supports the tensioning wheel, a copper wire is wound on the tensioning wheel, when the copper wire is too loose, the elastic resetting device enables the supporting rod to extend, the advancing route of the copper wire is prolonged, and the copper wire is tightened; when the copper wire is too tight, the copper wire compresses the tensioning wheel, the tensioning wheel enables the elastic resetting device to deform through the supporting rod, the supporting rod is shortened, the advancing route of the copper wire is shortened, and the copper wire is loosened;

according to the copper wire transmission tightness adjusting device and the calendaring transmission equipment, the copper wire cannot be effectively positioned in the use process to prevent the copper wire from shifting, so that the copper wire is separated from the device once the tightness of the copper wire is too loose in the adjustment process;

a novel copper wire transmission tightness adjusting device is proposed to solve the problems.

Disclosure of Invention

The utility model aims to provide a copper wire transmission tightness adjusting device, which is used for solving the problem that copper wires cannot be positioned effectively in the background art.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the copper wire transmission tightness adjusting device comprises a support frame, wherein the bottom end of the support frame is fixedly connected with a bottom frame, the bottom end of the bottom frame is movably connected with a mounting bottom groove, the top end of the interior of the support frame is provided with a first lifting frame, and the bottom end of the interior of the support frame is provided with a second lifting frame;

the top fixedly connected with first screw sleeve of support frame, the inside swing joint of first screw sleeve has the screw shaft, the top fixedly connected with runner of screw shaft, the top fixedly connected with constant head tank of first crane, the screw shaft runs through first screw sleeve and extends to the inside and the constant head tank swing joint of support frame, the inside both ends of first crane and second crane respectively swing joint have a set of locating shaft, the one end fixedly connected with support roller of locating shaft.

Preferably, the center line of the positioning shaft and the center line of the supporting roller are on the same vertical plane, and the center line of the rotating wheel and the center line of the threaded shaft are on the same vertical plane.

Preferably, the bottom fixedly connected with cylinder inside the chassis, the output of cylinder runs through the bottom of support frame and extends to the inside and the second crane fixed connection of support frame, a set of limit side groove has been seted up respectively at the inside both ends of support frame, limit side groove and first crane sliding connection.

Preferably, the center line of the cylinder and the center line of the second lifting frame are on the same vertical plane, and the limit side groove is in sliding connection with the second lifting frame.

Preferably, a group of second threaded sleeves are fixedly connected to two sides of the installation bottom groove respectively, positioning bolts are movably connected to the inside of the second threaded sleeves, positioning holes are formed in the bottom ends of two sides of the bottom frame, and arc-shaped grooves are formed in the outer portion of the supporting roller.

Preferably, the positioning bolt penetrates through the second threaded sleeve and extends to the inside of the installation bottom groove to be movably connected with the positioning hole, and the center line of the positioning hole and the center line of the arc-shaped groove are on the same vertical plane.

Compared with the prior art, the utility model has the beneficial effects that: the copper wire transmission tightness adjusting device not only realizes that the copper wire can be conveniently positioned, ensures the stability in the copper wire transmission process, but also can adjust the aperture according to the size of the copper wire;

(1) Through being provided with locating shaft, first crane, screw thread axle, runner, first screw thread sleeve, constant head tank and supporting roller, before carrying out the transmission to the copper line, the runner that rotates the top drives the screw thread axle rotation of bottom, and the screw thread axle promotes the first crane of bottom to descend when first screw thread sleeve is inside rotatory, and the supporting roller descends through inside locating shaft drive when first crane descends, makes the supporting roller press on the top of copper line to realize the location to the copper line, realized can conveniently to the copper line location, prevent that the copper line from loosening;

(2) Through being provided with first crane, spacing side groove, second crane, chassis and cylinder, before carrying out the transmission, pass the copper line from two sets of support roller between, later start the inside second crane of bottom cylinder promotion support frame and rise, the inside support roller of drive rises when the second crane rises, support roller rises and make the copper line tighten, and second crane and first crane laminating are in the inside motion of the spacing side groove at the inside both ends of support frame, can be effectively spacing second crane and first crane, thereby guarantee the stability of support roller in the transmission, realized can transmitting the copper line steadily;

(3) Through being provided with chassis, installation kerve, positioning bolt, second screw sleeve, arc wall and locating hole, before carrying out the transmission, rotate positioning bolt earlier and make its inside that breaks away from the locating hole, later remove the inside chassis of installation kerve and drive the support frame motion on top to drive the support roller motion and adjust its arc wall's position, adjust the arc wall to suitable position according to the size of copper line back gyration positioning bolt makes its locating hole inside of tearing into corresponding position to the chassis location, later arrange the copper line in the inside of the outside arc wall of support roller, realized can be according to the position of copper line size adjustment arc wall to the copper line transmission.

Drawings

FIG. 1 is a schematic cross-sectional elevation view of the present utility model;

FIG. 2 is a schematic side view of a limiting side slot of the present utility model;

FIG. 3 is a schematic side view of the chassis of the present utility model;

FIG. 4 is a schematic side view of the installation base of the present utility model.

In the figure: 1. a support frame; 2. positioning a shaft; 3. a first lifting frame; 4. a threaded shaft; 5. a rotating wheel; 6. a first threaded sleeve; 7. a positioning groove; 8. a support roller; 9. limit side grooves; 10. a second lifting frame; 11. a chassis; 12. a cylinder; 13. installing a bottom groove; 14. positioning bolts; 15. a second threaded sleeve; 16. an arc-shaped groove; 17. and positioning holes.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Example 1: referring to fig. 1-4, a copper wire transmission tightness adjusting device comprises a support frame 1, wherein the bottom end of the support frame 1 is fixedly connected with a bottom frame 11, the bottom end of the bottom frame 11 is movably connected with a mounting bottom groove 13, the top end inside the support frame 1 is provided with a first lifting frame 3, and the bottom end inside the support frame 1 is provided with a second lifting frame 10;

the top end of the support frame 1 is fixedly connected with a first threaded sleeve 6, the inside of the first threaded sleeve 6 is movably connected with a threaded shaft 4, the top end of the threaded shaft 4 is fixedly connected with a rotating wheel 5, the top end of the first lifting frame 3 is fixedly connected with a positioning groove 7, the threaded shaft 4 penetrates through the first threaded sleeve 6 and extends to the inside of the support frame 1 to be movably connected with the positioning groove 7, two ends of the inside of the first lifting frame 3 and two ends of the inside of the second lifting frame 10 are respectively movably connected with a group of positioning shafts 2, and one end of each positioning shaft 2 is fixedly connected with a support roller 8;

the center line of the positioning shaft 2 and the center line of the supporting roller 8 are on the same vertical plane, and the center line of the rotating wheel 5 and the center line of the threaded shaft 4 are on the same vertical plane;

specifically, as shown in fig. 1 and 2, before the copper wire is transmitted, the rotating wheel 5 at the top end rotates to drive the threaded shaft 4 at the bottom to rotate, the threaded shaft 4 drives the first lifting frame 3 at the bottom to descend while rotating in the first threaded sleeve 6, and the first lifting frame 3 drives the supporting roller 8 to descend through the positioning shaft 2 inside, so that the supporting roller 8 is pressed at the top end of the copper wire, positioning of the copper wire is realized, positioning of the copper wire can be facilitated, and copper wire loosening is prevented.

Example 2: the bottom end of the inside of the underframe 11 is fixedly connected with an air cylinder 12, the output end of the air cylinder 12 penetrates through the bottom end of the support frame 1 and extends to the inside of the support frame 1 to be fixedly connected with the second lifting frame 10, a group of limit side grooves 9 are respectively formed in two ends of the inside of the support frame 1, and the limit side grooves 9 are in sliding connection with the first lifting frame 3;

the center line of the air cylinder 12 and the center line of the second lifting frame 10 are on the same vertical plane, and the limiting side groove 9 is in sliding connection with the second lifting frame 10;

specifically, as shown in fig. 1, fig. 2 and fig. 3, before transmission, the copper wire passes through two groups of supporting rollers 8, then the cylinder 12 at the bottom end is started to push the second lifting frame 10 inside the supporting frame 1 to ascend, the second lifting frame 10 ascends and drives the supporting rollers 8 inside the supporting frame to ascend, the supporting rollers 8 ascend to tighten the copper wire, and the second lifting frame 10 and the first lifting frame 3 are attached to the limiting side grooves 9 at two ends inside the supporting frame 1 to move inside, so that the second lifting frame 10 and the first lifting frame 3 can be effectively limited, the stability of the supporting rollers 8 in the transmission process is guaranteed, and the copper wire can be stably transmitted.

Example 3: a group of second threaded sleeves 15 are fixedly connected to two sides of the mounting bottom groove 13 respectively, positioning bolts 14 are movably connected to the inside of the second threaded sleeves 15, positioning holes 17 are formed in the bottom ends of two sides of the underframe 11, and arc-shaped grooves 16 are formed in the outside of the supporting roller 8;

the positioning bolt 14 penetrates through the second threaded sleeve 15 and extends into the installation bottom groove 13 to be movably connected with the positioning hole 17, and the center line of the positioning hole 17 and the center line of the arc-shaped groove 16 are on the same vertical plane;

specifically, as shown in fig. 1, 2, 3 and 4, before transmission, the positioning bolt 14 is rotated to separate from the inside of the positioning hole 17, then the bottom frame 11 inside the mounting bottom groove 13 is moved to drive the top support frame 1 to move, so as to drive the support roller 8 to move to adjust the position of the outer arc groove 16, the arc groove 16 is adjusted to a proper position according to the size of the copper wire, then the positioning bolt 14 is rotated to detach the copper wire into the inside of the positioning hole 17 at a corresponding position to position the bottom frame 11, and then the copper wire is placed into the inside of the arc groove 16 outside the support roller 8, so that the copper wire can be transmitted according to the position of the arc groove 16, which is adjusted according to the size of the copper wire.

Working principle: when the copper wire positioning device is used, firstly, before a copper wire is transmitted, the rotating wheel 5 at the top end drives the threaded shaft 4 at the bottom to rotate, the threaded shaft 4 drives the first lifting frame 3 at the bottom end to descend while the first threaded sleeve 6 rotates, the first lifting frame 3 descends and drives the supporting roller 8 to descend through the inner positioning shaft 2, the supporting roller 8 is pressed at the top end of the copper wire, so that the copper wire is positioned, the copper wire passes through the two groups of supporting rollers 8, then the air cylinder 12 at the bottom end is started to push the second lifting frame 10 in the supporting frame 1 to ascend, the second lifting frame 10 ascends and drives the inner supporting roller 8 to ascend, the supporting roller 8 ascends to tighten the copper wire, and the second lifting frame 10 and the first lifting frame 3 are attached to the limit side grooves 9 at the two ends in the supporting frame 1 to move inwards, the second lifting frame 10 and the first lifting frame 3 can be effectively limited, and therefore stability of the supporting roller 8 in the transmission process is guaranteed, before the copper wire is transmitted, the positioning bolts 14 are rotated to enable the copper wire to pass through the two groups of supporting rollers 8, then the second lifting frame 10 and the air cylinder 12 at the bottom end are started to push the second lifting frame 10 in the supporting roller 10 in the copper wire positioning holes to ascend, the copper wire positioning holes 16 are moved to the proper positions, and then the copper wire positioning bolts 16 are adjusted to the inner arc-shaped grooves 16 are positioned at the positions of the inner arc-shaped supporting roller 16, and the inner supporting roller 16 is correspondingly moved to the inner arc-shaped positioning grooves 16, and the inner positioning grooves 16 are adjusted.

Claims

1. The utility model provides a copper line transmission elasticity adjusting device, includes support frame (1), its characterized in that: the bottom end of the support frame (1) is fixedly connected with a bottom frame (11), the bottom end of the bottom frame (11) is movably connected with a mounting bottom groove (13), the top end of the interior of the support frame (1) is provided with a first lifting frame (3), and the bottom end of the interior of the support frame (1) is provided with a second lifting frame (10);

the utility model discloses a support frame, including support frame (1), screw thread sleeve (6) of top fixedly connected with, screw thread sleeve (6) of inside swing joint has screw thread axle (4), screw thread axle (4) of top fixedly connected with runner (5), screw thread axle (4) run through screw thread sleeve (6) and extend to inside and constant head tank (7) swing joint of support frame (1), inside both ends of first crane (3) and second crane (10) respectively swing joint have a set of locating shaft (2), the one end fixedly connected with support roller (8) of locating shaft (2).

2. The copper wire transmission tightness adjustment device according to claim 1, wherein: the center line of the positioning shaft (2) and the center line of the supporting roller (8) are on the same vertical plane, and the center line of the rotating wheel (5) and the center line of the threaded shaft (4) are on the same vertical plane.

3. The copper wire transmission tightness adjustment device according to claim 1, wherein: the bottom fixedly connected with cylinder (12) inside chassis (11), the output of cylinder (12) runs through the bottom of support frame (1) and extends to the inside and second crane (10) fixed connection of support frame (1), a set of limit side groove (9) have been seted up respectively at the inside both ends of support frame (1), limit side groove (9) and first crane (3) sliding connection.

4. A copper wire transmission slack adjuster according to claim 3, wherein: the center line of the air cylinder (12) and the center line of the second lifting frame (10) are on the same vertical plane, and the limiting side groove (9) is in sliding connection with the second lifting frame (10).

5. The copper wire transmission tightness adjustment device according to claim 1, wherein: the two sides of the installation bottom groove (13) are respectively fixedly connected with a group of second threaded sleeves (15), positioning bolts (14) are movably connected in the second threaded sleeves (15), positioning holes (17) are formed in the bottom ends of the two sides of the bottom frame (11), and arc-shaped grooves (16) are formed in the outer portion of the supporting roller (8).

6. The copper wire transmission tightness adjustment device according to claim 5, wherein: the positioning bolt (14) penetrates through the second threaded sleeve (15) and extends to the inside of the installation bottom groove (13) to be movably connected with the positioning hole (17), and the center line of the positioning hole (17) and the center line of the arc-shaped groove (16) are on the same vertical plane.