CN213772127U

CN213772127U - Steel wire rope stress relieving device

Info

Publication number: CN213772127U
Application number: CN202022887469.5U
Authority: CN
Inventors: 王海涛; 陆则龙; 岳守斌; 汪金; 吴敌; 霍玉昆
Original assignee: Tianjin Goldsun Wire Rope Ltd
Current assignee: Tianjin Goldsun Wire Rope Ltd
Priority date: 2020-12-04
Filing date: 2020-12-04
Publication date: 2021-07-23
Anticipated expiration: 2030-12-04

Abstract

The utility model relates to a wire rope destressing device, comprises a workbench, workstation up end both sides detachable is equipped with the backup pad, the spout has been seted up to backup pad inside wall face, backup pad up end detachable is equipped with the roof, the inside wall of backup pad has round bar one through a rotation connection in the bearing, and bearing one is located the spout below, the outer wall of round bar one is equipped with bevel gear one, gear one and a plurality of pressure wheel one respectively from a left side to the right side, and pressure wheel one is used for bearing wire rope, the spout is embedded to have the slider, the medial extremity of slider extends outside the spout. The device can be effectual carries out the destressing operation to many wire rope at the in-process of marcing, has improved wire rope's production efficiency, brings very big facility for wire rope production work, and the practicality is higher, more accords with the user demand of reality.

Description

Steel wire rope stress relieving device

Technical Field

The utility model relates to a wire rope processing equipment technical field especially relates to a wire rope destressing device.

Background

In the production process, any produced workpiece generates stress, all enterprises related to machinery need to solve the problem of workpiece stress elimination, a steel wire generates certain stress after being stressed in the peeling and drawing processes, the stress can be heated and released in the subsequent steel wire hardening process, and accordingly the steel wire is curled section by section and is corrugated, the quality of the steel wire is seriously affected by the stress, the safety factor of the use of the steel wire rope is reduced, and therefore the stress problem of the steel wire rope is solved in the steel wire rope production process.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the above problems and providing a wire rope destressing device.

The utility model discloses a realize above-mentioned purpose, adopt following technical scheme:

a steel wire rope stress removing device comprises a workbench, wherein supporting plates are detachably arranged on two sides of the upper end face of the workbench, sliding grooves are formed in the inner side wall face of each supporting plate, a top plate is detachably arranged on the upper end face of each supporting plate, the inner side wall of each supporting plate is rotatably connected with a first round rod through a bearing, the first bearing is located below each sliding groove, the first bearing is used for fixing two ends of each first round rod and facilitating the rotation of the first round rods through the first bearings, a first conical gear, a first gear and a plurality of first pressure wheels are respectively arranged on the outer wall of each first round rod from left to right, each first pressure wheel is used for supporting a steel wire rope, a sliding block is embedded in each sliding groove, the inner side end of each sliding block extends out of each sliding groove, each sliding groove is provided with a connecting block, each sliding groove and each sliding block are used for improving the stability of each connecting block when the connecting blocks move up and down, the inner side wall of each connecting block is rotatably connected with a second round rod through a second bearing, the outer wall of the round rod II is respectively provided with a gear II and a plurality of pressure wheels II, the gear II is positioned above the gear I and is meshed with the gear I, the pressure wheels II and the pressure wheels I are equal in number and are arranged oppositely up and down, the steel wire rope is subjected to stress relieving operation under the extrusion action between the pressure wheels I and the pressure wheels II, the upper end face of the connecting block is detachably provided with a supporting rod, the upper end face of the supporting rod is provided with a connecting rod, the middle part of the upper end face of the connecting rod is detachably provided with a hydraulic oil cylinder for pushing the pressure wheels II to move up and down, and the top of the hydraulic oil cylinder is fixedly connected with the lower end face of the top plate;

the motor is detachably arranged on the workbench and is positioned on the inner side of the supporting plate, and a conical gear II meshed with the conical gear I is arranged at the output end of the motor;

the supporting mechanism, the up end of workstation and the lower terminal surface of connecting rod are located to supporting mechanism's one end, the outer wall of round bar one and round bar two is located to supporting mechanism's the other end.

Preferably, the outer ring of the first bearing is fixedly connected to the outer wall of the supporting plate through a bearing seat, the inner ring of the first bearing is connected with the outer wall of the first round rod in an interference fit manner, the outer ring of the second bearing is fixedly connected to the outer wall of the connecting block through a bearing seat, and the inner ring of the second bearing is connected with the outer wall of the second round rod in an interference fit manner.

Preferably, the first pressure wheel is arranged on the outer wall of the first round rod in a clearance mode.

Preferably, the outer wall of the sliding block is in a dovetail structure.

Preferably, the supporting mechanism comprises a supporting seat and a bearing III, the supporting seat is arranged on the upper end face of the workbench and on the lower end face of the connecting rod, the outer wall of the supporting seat is connected with the outer ring of the bearing III through a bearing seat fixedly connected with, a round rod I and a round rod II are connected with the inner ring of the bearing III in an interference fit mode, and the outer walls of the round rod I and the round rod II penetrate through the supporting seat and are movably connected with the supporting seat.

Preferably, the supporting seat is arranged at the trisection of the respective lengths of the first round rod and the second round rod.

The utility model has the advantages that:

the hydraulic oil cylinder pushes the connecting rod, the second pressure wheel, the round rod and the like to move downwards, the second pressure wheel moves downwards to be in contact with the steel wire rope and continues to move downwards to extrude the steel wire rope until the first gear is meshed with the second gear, the first conical gear drives the first round rod, the first gear and the first pressure wheel to rotate through the motor, the second gear drives the second round rod and the second pressure wheel to rotate through the first gear, the steel wire rope can move forwards between the first pressure wheel and the second pressure wheel through the rotation of the first pressure wheel and the second pressure wheel, and simultaneously, the steel wire rope is destressing operated through the extrusion between the first pressure wheel and the second pressure wheel. The cost of reducing the input has improved wire rope's production efficiency, has reduced manufacturing cost, brings very big facility for wire rope production work, and the practicality is higher, more accords with actual user demand.

Drawings

Fig. 1 is a front view of the present invention;

fig. 2 is a right side view of the first gear and the second gear of the present invention.

In the figure: 1. the device comprises a workbench, 2, a supporting plate, 3, a sliding groove, 4, a top plate, 5, a first bearing, 6, a first round rod, 7, a first conical gear, 8, a first gear, 9, a first pressure wheel, 10, a sliding block, 11, a connecting block, 12, a second bearing, 13, a second round rod, 14, a second gear, 15, a second pressure wheel, 16, a supporting rod, 17, a connecting rod, 18, a hydraulic oil cylinder, 19, a motor, 20, a second conical gear, 21, a supporting seat, 22 and a third bearing.

The following detailed description will be made in conjunction with embodiments of the present invention with reference to the accompanying drawings.

Detailed Description

The invention will be further explained with reference to the following figures and examples:

as shown in fig. 1-2, a steel wire rope stress removing device comprises a workbench 1, wherein two sides of the upper end surface of the workbench 1 are detachably provided with supporting plates 2, the inner side wall surface of each supporting plate 2 is provided with a sliding groove 3, the upper end surface of each supporting plate 2 is detachably provided with a top plate 4, the inner side wall of each supporting plate 2 is rotatably connected with a first round rod 6 through a first bearing 5, the first bearing 5 is positioned below the sliding groove 3, the first bearing 5 is used for fixing two ends of the first round rod 6 and facilitating the rotation of the first round rod 6 through the first bearing 5, the outer wall of the first round rod 6 is respectively provided with a first conical gear 7, a first gear 8 and a plurality of first pressure wheels 9 from left to right, the first pressure wheels 9 are used for bearing a steel wire rope, a sliding block 10 is embedded in the sliding groove 3, the inner side end of the sliding block 10 extends out of the sliding groove 3, and is detachably provided with a connecting block 11, the sliding groove 3 and the sliding block 10 are used for improving the stability when the connecting block 11 moves up and down, the inner side wall of the connecting block 11 is rotatably connected with a second round bar 13 through a second bearing 12, the outer wall of the second round bar 13 is respectively provided with a second gear 14 and a plurality of second pressure wheels 15, the second gear 14 is positioned above the first gear 8 and is meshed and connected with the first gear 8, the second pressure wheels 15 and the first pressure wheels 9 are equal in number and are arranged oppositely up and down, the first pressure wheels 9 and the second pressure wheels 15 are extruded to perform stress relieving operation on the steel wire rope, a supporting rod 16 is detachably arranged on the upper end face of the connecting block 11, a connecting rod 17 is arranged on the upper end face of the supporting rod 16, a hydraulic oil cylinder 18 used for pushing the second pressure wheels 15 to move up and down is detachably arranged in the middle of the upper end face of the connecting rod 17, and the top of the hydraulic oil cylinder 18 is fixedly connected with the lower end face of the top plate 4; the motor 19 is detachably arranged on the workbench 1 and is positioned on the inner side of the supporting plate 2, and a second bevel gear 20 meshed and connected with the first bevel gear 7 is arranged at the output end of the motor 19; the supporting mechanism is arranged at one end of the supporting mechanism and is arranged on the upper end face of the workbench 1 and the lower end face of the connecting rod 17, and the other end of the supporting mechanism is arranged on the outer walls of the first round rod 6 and the second round rod 13.

Preferably, the outer ring of the first bearing 5 is fixedly connected to the outer wall of the support plate 2 through a bearing seat, the inner ring of the first bearing 5 is connected with the outer wall of the first round rod 6 in an interference fit manner, the outer ring of the second bearing 12 is fixedly connected to the outer wall of the connecting block 11 through a bearing seat, and the inner ring of the second bearing 12 is connected with the outer wall of the second round rod 13 in an interference fit manner.

Preferably, the first pressure wheel 9 is arranged on the outer wall of the first round rod 6 with a gap.

Preferably, the outer wall of the slider 10 is shaped in a dovetail configuration.

Preferably, the supporting mechanism comprises a supporting seat 21 and a bearing III 22, the supporting seat 21 is arranged on the upper end face of the workbench 1 and the lower end face of the connecting rod 17, the outer wall of the supporting seat 21 is connected with an outer ring of the bearing III 22 through a bearing seat fixedly connected with, the first round rod 6 and the second round rod 13 are connected with an inner ring of the bearing III 22 in an interference fit manner, and the outer walls of the first round rod 6 and the second round rod 13 penetrate through the supporting seat 21 and are movably connected with the supporting seat 21.

Preferably, the supporting seat 21 is disposed at the third half of the length of each of the first round bar 6 and the second round bar 13.

When the utility model is used, the steel wire rope is placed on the first pressure wheel 9 in sequence, the hydraulic oil cylinder 18 is used for pushing the connecting rod 17, the supporting rod 16, the second pressure wheel 15, the second gear 14, the second round bar 13, the second bearing 12 and the connecting block 11 to move downwards, the connecting block 11 is stabilized through the sliding chute 3 and the sliding block 10, so that the connecting block 11 drives the second round bar 13 and the second pressure wheel 15 to move upwards and downwards more stably, the second pressure wheel 15 moves downwards to be contacted with the steel wire rope and continues to move downwards to extrude the steel wire rope until the first gear 8 is meshed with the second gear 14, the supporting seat 21 is used for supporting the outer walls of the first round bar 6 and the second round bar 13, the motor 19 is used for driving the second conical gear 20 to rotate, the first conical gear 7 is used for driving the first round bar 6, the first gear 8 and the first pressure wheel 9 to rotate, the first gear 8 is used for driving the second round bar 13 and the second pressure wheel 15 to rotate, the steel wire rope can move forwards between the first pressure wheel 9 and the second pressure wheel 15 through the rotation of the first pressure wheel 9 and the second pressure wheel 15, and meanwhile, the steel wire rope is subjected to stress removing operation through the extrusion effect between the first pressure wheel 9 and the second pressure wheel 15, and the stress removing operation can be performed on a plurality of steel wire ropes in the advancing process.

The present invention has been described above with reference to the accompanying drawings, and it is obvious that the present invention is not limited by the above embodiments, and various improvements made by the method concept and technical solution of the present invention or directly applied to other occasions without improvement are all within the protection scope of the present invention.

Claims

1. A steel wire rope stress relieving device is characterized in that:

comprises a workbench (1), wherein detachable supporting plates (2) are arranged on two sides of the upper end face of the workbench (1), a sliding groove (3) is formed in the inner side wall face of each supporting plate (2), a top plate (4) is arranged on the detachable upper end face of each supporting plate (2), the inner side wall of each supporting plate (2) is rotatably connected with a first round rod (6) through a first bearing (5), the first bearing (5) is positioned below the sliding groove (3), the outer wall of the first round rod (6) is respectively provided with a first bevel gear (7), a first gear (8) and a plurality of first pressure wheels (9) from left to right, the first pressure wheels (9) are used for bearing a steel wire rope, a sliding block (10) is embedded in the sliding groove (3), the inner side end of the sliding block (10) extends out of the sliding groove (3), a detachable connecting block (11) is arranged, and the sliding grooves (3) and the sliding block (10) are used for improving the stability of the connecting block (11) during up-down movement, the inner side wall of the connecting block (11) is rotatably connected with a second round rod (13) through a second bearing (12), the outer wall of the second round rod (13) is provided with a second gear (14) and a plurality of second pressure wheels (15), the second gear (14) is positioned above the first gear (8) and is meshed with the first gear (8), the second pressure wheels (15) and the first pressure wheels (9) are equal in number and are arranged in an up-and-down opposite mode, a supporting rod (16) is detachably arranged on the upper end face of the connecting block (11), a connecting rod (17) is arranged on the upper end face of the supporting rod (16), a hydraulic oil cylinder (18) used for pushing the second pressure wheels (15) to move up and down is detachably arranged in the middle of the upper end face of the connecting rod (17), and the top of the hydraulic oil cylinder (18) is fixedly connected with the lower end face of the top plate (4);

the motor (19) is detachably arranged on the workbench (1) and is positioned on the inner side of the supporting plate (2), and a second bevel gear (20) meshed and connected with the first bevel gear (7) is arranged at the output end of the motor (19);

the supporting mechanism, the up end of workstation (1) and the lower terminal surface of connecting rod (17) are located to supporting mechanism's one end, the other end of supporting mechanism is located round bar one (6) and round bar two (13) outer wall.

2. A steel cord stress relief device as claimed in claim 1, wherein: the outer ring of the first bearing (5) is fixedly connected to the outer wall of the supporting plate (2) through a bearing seat, the inner ring of the first bearing (5) is connected with the outer wall of the first round rod (6) in an interference fit mode, the outer ring of the second bearing (12) is fixedly connected to the outer wall of the connecting block (11) through the bearing seat, and the inner ring of the second bearing (12) is connected with the outer wall of the second round rod (13) in an interference fit mode.

3. A steel cord stress relief device as claimed in claim 1, wherein: the first pressure wheels (9) are arranged on the outer wall of the first round rod (6) in a clearance mode.

4. A steel cord stress relief device as claimed in claim 1, wherein: the outer wall of the sliding block (10) is in a dovetail structure.

5. A steel cord stress relief device as claimed in claim 1, wherein: the supporting mechanism comprises a supporting seat (21) and a bearing III (22), the upper end face of the workbench (1) and the lower end face of the connecting rod (17) are respectively provided with the supporting seat (21), the outer wall of the supporting seat (21) is connected with the outer ring of the bearing III (22) through a bearing seat fixedly connected with, a first round rod (6) and a second round rod (13) are connected with the inner ring of the bearing III (22) in an interference fit mode, and the outer wall of the first round rod (6) and the second round rod (13) penetrates through the supporting seat (21) and is movably connected with the supporting seat (21).

6. A steel cord stress relief device as claimed in claim 5, wherein: the supporting seat (21) is arranged at the trisection of the respective lengths of the first round rod (6) and the second round rod (13).