CN217544239U - Active pay-off device for cable production - Google Patents

Abstract

A pair of slideways are arranged on the upper surface of a workbench, a pair of sliding blocks are arranged on the pair of slideways, a driving mechanism is arranged on the outer sides of the pair of slideways, a pair of clamping plates are arranged above the pair of sliding blocks, a pair of guide pillars are arranged between the pair of clamping plates and the pair of sliding blocks, springs are sleeved on the peripheries of the guide pillars, a pair of backstops are arranged on the front sides of the pair of sliding blocks, a pair of guide rods are arranged on the front sides of the backstops, a pair of fixing seats are arranged at two ends of each guide rod, a pair of transverse sliding sleeves are arranged on the pair of guide rods, a pair of front backstops are arranged at the right ends of the transverse sliding sleeves, a pair of springs are arranged on the peripheries of the guide rods, a pair of inclined sliding sleeves are obliquely arranged above the transverse sliding sleeves, supporting rods are arranged between the pair of inclined sliding sleeves and the pair of transverse sliding sleeves, and a pair of sliding rods are arranged in the inclined sliding sleeves; a pair of slider and a pair of splint centre gripping cable in turn and carry forward in turn, have increased the clamping face to the cable, can effectively improve the frictional force between splint, slider and the cable, prevent that the cable from skidding in transportation process.

Description

Active pay-off device for cable production

Technical Field

The utility model relates to the field of cable manufacturing, in particular to an active pay-off device for cable production.

Background

The wire and cable is from the conductor processing, add insulation, shielding, cabling, sheath etc. and make the wire and cable product on the periphery of the conductor layer by layer, while the wire and cable, need to convey the wire from receiving the line roller to the processing equipment through the pay-off, the pay-off of the present usually uses a pair of grooved wheels to grasp the wire, drive the cable to convey from receiving the line roller to the processing equipment through driving a pair of race tracks to rotate, because the grooved wheel is circular, too small with the contact surface of the wire grasped, the cable is because of receiving the friction undersize in the wire defense process, often the slippage phenomenon appears back, seriously influence the production efficiency of the cable, therefore, how to solve and grasp the wire defense by the grooved wheel, the contact surface of the grooved wheel and cable, friction too small, the problem that the cable is easy to slip in the pay-off process becomes the technical problem that has been difficult to solve for a long time.

In view of the above, an active pay-off device for cable production has been developed.

SUMMERY OF THE UTILITY MODEL

The utility model relates to an overcome prior art not enough, a initiative pay-off for cable manufacture is provided, through a pair of slider of a pair of electronic jar drive and a pair of splint, make a pair of slider and a pair of splint centre gripping cable in turn and carry forward, through splint and slider centre gripping cable, the clamping face to the cable has been increased, can effectively improve splint, frictional force between slider and the cable, prevent that the cable from skidding in transportation process, improve unwrapping wire stability and unwrapping wire efficiency, the effectual problem of skidding easily of cable at the unwrapping wire in-process of having solved.

The utility model discloses a realize above-mentioned purpose, adopt following technical scheme, an initiative pay-off for cable manufacture is by: the device comprises a workbench, a slideway, a sliding block, a clamping plate, a guide pillar, a spring, a rear stop block, a guide rod, a fixed seat, a transverse sliding sleeve, a front stop block, an inclined sliding sleeve, a support rod, a sliding rod, an electric cylinder, a grooved pulley and a rubber layer; a pair of slide ways are transversely arranged on two sides of the upper surface of the workbench, a pair of slide blocks are arranged on the pair of slide ways in a sliding manner, a driving mechanism is arranged at the outer ends of the pair of slide ways and drives the pair of slide blocks to reciprocate leftwards and rightwards along the pair of slide ways, a pair of clamping plates are horizontally arranged above the pair of slide blocks, a pair of guide posts are respectively arranged between the left sides and the right sides of the pair of clamping plates and the pair of slide blocks, the lower ends of each pair of guide posts are fixedly connected with the upper surfaces of the corresponding slide blocks, the upper ends of each pair of guide posts penetrate through the corresponding clamping plates and are connected with the clamping plates in a sliding manner, a pair of springs are respectively sleeved at the peripheries of each pair of guide posts, the springs at the peripheries of each pair of guide posts are respectively positioned between the corresponding clamping plates and the slide blocks, a pair of rear stop blocks are arranged on the front side surfaces of the pair of slide blocks, the front side of a pair of backstop transversely sets up a pair of guide arm, and the both ends of a pair of guide arm all set up a pair of fixing base, slide on a pair of guide arm and set up a pair of horizontal sliding sleeve, a pair of guide arm through a pair of fixing base and workstation fixed connection, the right-hand member tip of a pair of horizontal sliding sleeve set up a pair of backstop, the periphery of the right side of a pair of horizontal sliding sleeve corresponding a pair of guide arm sets up a pair of spring, the rear side top slope of a pair of horizontal sliding sleeve sets up a pair of oblique sliding sleeve, sets up the bracing piece between a pair of oblique sliding sleeve and a pair of horizontal sliding sleeve, the left surface of a pair of backstop and the right flank of a pair of backstop mutually corresponding, a pair of oblique sliding sleeve in slide and set up a pair of slide bar, the one end that a pair of slide bar is close to a pair of splint and the upper surface middle part fixed connection of splint.

The driving mechanism is structurally characterized in that a pair of electric cylinders are transversely arranged at the outer ends of the pair of slideways, and the piston ends of the pair of electric cylinders are fixedly connected with the outer ends of the pair of slide blocks.

The upper surfaces of the end parts of the two ends of the workbench are rotatably provided with a pair of grooved wheels, and the circumferential surfaces of the grooved wheels correspond to the middle parts of the outer side surfaces of the sliding blocks.

Rubber layers are arranged in the middle of the lower surfaces of the clamping plates and in the middle of the upper surfaces of the sliding blocks.

The working principle is as follows: when the sliding block is used, the pair of sliding blocks are driven to slide in the pair of slide ways by the electric cylinder, the pair of sliding blocks are moved to the left ends of the pair of slide ways, the cable is placed between the pair of sliding blocks and the pair of clamping plates, the electric cylinder connected with the sliding block in the slide way at the right side of the workbench is started, the electric cylinder drives the sliding block to move rightwards, meanwhile, the sliding rod in the inclined slide sleeve at the right side slides downwards along the inclined slide sleeve in an inclined way to drive the clamping plate at the upper side of the sliding block in the slide way at the right side to move downwards, the cable is clamped between the clamping plate and the rubber layer on the sliding block, the sliding block drives the cable to move rightwards, when the stop block on the sliding block in the slide way at the right side is contacted with the stop block on the transverse slide sleeve at the front side of the stop block, the sliding block in the slide way at the right side drives the transverse slide sleeve at the front side of the stop block to move rightwards along the slide block to move the slide block to follow the slide block to move rightwards, at the moment, a cable between the sliding block on the right side and the clamping plate on the right side is always in a clamping state, when the sliding block in the slide way on the right side moves to the right end of the slide way, the electric cylinder on the left side is started to push the sliding block on the left side to move rightwards, meanwhile, the electric cylinder on the right side is controlled to drive the sliding block on the right side to move leftwards, when the sliding block on the right side moves leftwards, the sliding rod in the inclined sliding sleeve on the right side moves upwards along the inclined sliding sleeve, the clamping plate on the right side moves upwards under the elastic force of a spring on the periphery of a guide pillar connected with the clamping plate on the right side, the clamped cable is released, meanwhile, the transverse sliding sleeve on the right side slides leftwards under the elastic force of the spring on the guide pillar on the right side, meanwhile, the sliding block on the left side and the clamping plate clamp the cable move leftwards, and according to the above operation steps, the pair of sliding blocks move leftwards in an alternating reciprocating mode to drive the pair of sliding blocks and the clamping plate to carry out clamping and rightward conveying on the cable.

The utility model has the advantages that: the utility model has the advantages of being simple in structure and convenient in use, can be through a pair of slider of a pair of electronic jar drive and a pair of splint, make a pair of slider and a pair of splint centre gripping cable in turn and carry forward in turn, through splint and slider centre gripping cable, the clamping face to the cable has been increased, can effectively improve splint, the frictional force between slider and the cable, prevent that the cable from skidding in transportation process, improve unwrapping wire stability and unwrapping wire efficiency, the effectual problem of skidding easily of cable at the unwrapping wire in-process of having solved, be fit for generally using widely.

Drawings

The present invention will be further explained with reference to the accompanying drawings:

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

FIG. 2 is an enlarged schematic view of the structure at A in FIG. 1;

fig. 3 is a schematic top view of the present invention;

FIG. 4 is an enlarged schematic view of the structure at B in FIG. 3;

in the figure: the device comprises a workbench 1, a slideway 2, a sliding block 3, a clamping plate 4, a guide pillar 5, a spring 6, a rear stop block 7, a guide rod 8, a fixed seat 9, a transverse sliding sleeve 10, a front stop block 11, an inclined sliding sleeve 12, a support rod 13, a sliding rod 14, an electric cylinder 15, a grooved pulley 16 and a rubber layer 17.

Detailed Description

The present invention will be described in further detail with reference to the following detailed description and accompanying drawings:

a pair of slide ways 2 are transversely arranged on two sides of the upper surface of the workbench 1, a pair of slide blocks 3 are arranged on the pair of slide ways 2 in a sliding manner, a driving mechanism is arranged at the outer ends of the pair of slide ways 2 and drives the pair of slide blocks 3 to reciprocate leftwards and rightwards along the pair of slide ways 2, a pair of clamping plates 4 are horizontally arranged above the pair of slide blocks 3, a pair of guide posts 5 are respectively arranged between the left sides and the right sides of the pair of clamping plates 4 and the pair of slide blocks 3, the lower ends of the guide posts 5 are respectively fixedly connected with the upper surface of the corresponding slide block 3, the upper ends of the guide posts 5 are respectively connected with the corresponding clamping plates 4 in a sliding manner through the corresponding clamping plates 4, a pair of springs 6 are respectively sleeved on the peripheries of the guide posts 5, the springs 6 on the peripheries of the guide posts 5 are respectively positioned between the corresponding clamping plates 4 and the slide blocks 3, and a pair of rear stop blocks 7 are arranged on the front side surfaces of the pair of the slide blocks 3, the front side of a pair of backstop 7 transversely sets up a pair of guide arm 8, and the both ends of a pair of guide arm 8 all set up a pair of fixing base 9, slide on a pair of guide arm 8 and set up a pair of horizontal sliding sleeve 10, a pair of guide arm 8 through a pair of fixing base 9 and workstation 1 fixed connection, the right-hand member tip of a pair of horizontal sliding sleeve 10 set up a pair of positive stop 11, the periphery of a pair of guide arm 8 that the right side of a pair of horizontal sliding sleeve 10 corresponds sets up a pair of spring 6, the rear side top slope of a pair of horizontal sliding sleeve 10 sets up a pair of oblique sliding sleeve 12, set up bracing piece 13 between a pair of oblique sliding sleeve 12 and a pair of horizontal sliding sleeve 10, the left surface of a pair of positive stop 11 and the right flank of backstop 7 mutually corresponding, a pair of oblique sliding sleeve 12 in slide and set up a pair of slide bar 14, a pair of slide bar 14 is close to the one end of splint 4 and the upper surface middle part fixed connection of splint 4.

The driving mechanism is structurally characterized in that a pair of electric cylinders 15 are transversely arranged at the outer ends of the pair of slideways 2, and the piston ends of the pair of electric cylinders 15 are fixedly connected with the outer ends of the pair of slide blocks 3.

The upper surfaces of the end parts of the two ends of the workbench 1 are rotatably provided with a pair of grooved wheels 16, and the circumferential surfaces of the grooved wheels 16 correspond to the middle parts of the outer side surfaces of the sliders 3.

Rubber layers 17 are arranged in the middle of the lower surfaces of the pair of clamping plates 4 and the middle of the upper surfaces of the pair of sliding blocks 3.

Claims (4)

1. An active pay-off device for cable production, comprising: the device comprises a workbench (1), a slideway (2), a sliding block (3), a clamping plate (4), a guide post (5), a spring (6), a rear stop block (7), a guide rod (8), a fixed seat (9), a transverse sliding sleeve (10), a front stop block (11), an inclined sliding sleeve (12), a supporting rod (13), a sliding rod (14), an electric cylinder (15), a grooved wheel (16) and a rubber layer (17); the method is characterized in that: the two sides of the upper surface of the workbench (1) are transversely provided with a pair of slide ways (2), a pair of sliding blocks (3) are arranged on the pair of slide ways (2) in a sliding manner, the outer ends of the pair of slide ways (2) are provided with driving mechanisms, the driving mechanisms drive the pair of sliding blocks (3) to reciprocate leftwards and rightwards along the pair of slide ways (2), a pair of clamping plates (4) are horizontally arranged above the pair of sliding blocks (3), a pair of guide posts (5) are respectively arranged between the left sides and the right sides of the pair of clamping plates (4) and the pair of sliding blocks (3), the lower ends of each pair of guide posts (5) are respectively fixedly connected with the upper surface of the corresponding sliding block (3), the upper ends of each pair of guide posts (5) penetrate through the corresponding clamping plate (4) and are connected with the clamping plate (4) in a sliding manner, the peripheries of the pair of springs (6) are respectively sleeved on the peripheries of the pair of guide posts (5), the springs (6) are respectively positioned between the corresponding clamping plate (4) and the sliding block (3), a pair of rear stoppers (7) are respectively arranged on the front side surfaces of the pair of sliding blocks (3), a pair of rear stoppers (8) is transversely arranged on the front sides of rear stoppers (7), a pair of guide rods (8) is arranged on the pair of guide posts, a pair of guide rods (8) is arranged on the pair of guide rods (9), the sliding blocks (8), a pair of guide rods (9) is connected with the sliding blocks (8), the sliding blocks (9) and a pair of guide rods (9), the sliding blocks (9) is connected with the workbench (1), the pair of guide rods (8), the sliding blocks (9), the right-hand member tip of a pair of horizontal sliding sleeve (10) set up a pair of positive stop (11), the periphery of a pair of guide arm (8) that the right side of a pair of horizontal sliding sleeve (10) corresponds sets up a pair of spring (6), the rear side top slope of a pair of horizontal sliding sleeve (10) sets up a pair of sliding sleeve (12), set up bracing piece (13) between a pair of sliding sleeve (12) and a pair of horizontal sliding sleeve (10), the left surface of a pair of positive stop (11) and the right flank of a pair of backstop (7) mutually corresponding, a pair of sliding sleeve (12) in slide and set up a pair of slide bar (14), the one end that a pair of splint (4) are close to a pair of slide bar (14) and the upper surface middle part fixed connection of a pair of splint (4).

2. Active pay-off device for cable production according to claim 1, characterized in that: the driving mechanism is structurally characterized in that a pair of electric cylinders (15) are transversely arranged at the outer ends of the pair of slideways (2), and the piston ends of the pair of electric cylinders (15) are fixedly connected with the outer ends of the pair of sliding blocks (3).

3. Active pay-off device for cable production according to claim 1, characterized in that: the upper surfaces of the end parts of the two ends of the workbench (1) are rotatably provided with a pair of grooved wheels (16), and the circumferential surfaces of the grooved wheels (16) correspond to the middle parts of the outer side surfaces of the sliders (3).

4. Active pay-off device for cable production according to claim 1, characterized in that: rubber layers (17) are arranged in the middle of the lower surfaces of the pair of clamping plates (4) and in the middle of the upper surfaces of the pair of sliding blocks (3).

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