CN220148863U - Wire winding device for anti-jamming wire - Google Patents

Abstract

A take-up device for preventing wire from being blocked relates to a take-up device. The wire winding that it had solved traditional whole wire winding pole on evenly lead to receiving the line disorder, if wire winding is inhomogeneous on the whole wire winding pole, the problem of card line appears very easily. The utility model is composed of a roller component, a first-stage transmission mechanism, a second-stage transmission mechanism, a guide component and a base, wherein the roller component, the first-stage transmission mechanism, the second-stage transmission mechanism and the guide component are arranged above the base. Compared with the traditional wire winding device, the wire winding device for the anti-jamming wire winding device has the advantages of being even in wire winding, not easy to jam wires and the like.

Description

Wire winding device for anti-jamming wire

Technical Field

The utility model relates to a wire collecting device in life, in particular to a wire collecting device for preventing wires from being blocked.

Background

At present, the traditional wire winder is generally in the wire winding process, is difficult to ensure that wire winding is even on whole wire winding rod and leads to the wire winding disorder, if wire winding is uneven on whole wire winding rod, the problem of card line appears very easily. Therefore, we propose a wire-rewinding device for preventing wire from being blocked, which is used for solving the above problems.

Disclosure of Invention

The utility model provides a wire winding device for preventing wire from being blocked, which solves the problems in the background art as follows:

the utility model relates to a wire winding device for preventing wire clamping, which consists of a roller assembly, a first-stage transmission mechanism, a second-stage transmission mechanism, a guide assembly and a base, wherein a conical gear at the right end of the roller assembly is meshed with a conical gear of the first-stage transmission mechanism, the output end of the first-stage transmission mechanism is meshed with a cylindrical gear at the input end of the second-stage transmission mechanism, the conical gear at the output end of the second-stage transmission mechanism is meshed with a conical gear at the right end of the guide assembly, and the first-stage transmission mechanism, the second-stage transmission mechanism and the guide assembly of the roller assembly are arranged above the base;

the roller assembly consists of a hand-turning crank, a wire-collecting roller, two deep groove ball bearings, a left wire-collecting roller upright post, a right wire-collecting roller upright post and a conical gear, wherein the hand-turning crank is arranged on the left side;

the first-stage transmission mechanism consists of a conical gear, a cylindrical gear, a secondary transmission fixing frame, a left deep groove ball bearing, a right deep groove ball bearing and a secondary transmission shaft, wherein two ends of the secondary transmission shaft are respectively sleeved on the left deep groove ball bearing and the right deep groove ball bearing;

the second-stage transmission mechanism consists of a cylindrical gear, two deep groove ball bearings, a left three-stage transmission fixing frame, a right three-stage transmission fixing frame, a three-stage transmission shaft and a conical gear, wherein the cylindrical gear is arranged at the left end of the three-stage transmission shaft, the outer rings of the two deep groove ball bearings are respectively sleeved in concave cavities at the upper parts of the left three-stage transmission fixing frame and the right three-stage transmission fixing frame, the conical gear is arranged at the right end of the three-stage transmission shaft, and the conical gear of the second-stage transmission mechanism is meshed with the conical gear of the guide assembly;

the guide assembly consists of a conical gear, an EF ball screw supporting seat, a reciprocating screw sliding block, a crescent sliding block, a spring, a lead limiting block, a reciprocating screw support and a sliding rail, wherein the conical gear is arranged at the right end of the reciprocating screw, the EF ball screw supporting seat is symmetrically arranged above the reciprocating screw support at the left side and the right side, a rolling bearing is arranged in the EF ball screw supporting seat, the rolling bearing is sleeved on journals at two ends of the reciprocating screw, the lower part of the reciprocating screw sliding block is assembled with the sliding rail, the upper part of the reciprocating screw sliding block is assembled with the reciprocating screw, the crescent sliding block and the spring are arranged at the joint of the reciprocating screw sliding block and the lead limiting block, the crescent sliding block is pressed in the reciprocating screw tooth groove by downward elasticity of the spring, a limiting hole is formed in the lead limiting block, and two ends of the sliding rail with functions of guiding and limiting are connected with the reciprocating screw support symmetrically arranged at the left side and the right side.

Compared with the prior art, the wire winding device for preventing wire from being blocked has the following beneficial effects: the device effectively avoids the problem that wire winding is uneven and wire clamping is easy to occur; the wire limiting block which does transverse reciprocating motion is adopted, so that the winding position on the winding drum is dynamically changed, the winding uniformity on the whole winding drum is ensured, and the problem of wire clamping caused by piling of the winding is prevented.

Drawings

Fig. 1 is a schematic perspective view of the present utility model, fig. 2 is a schematic side view of the present utility model, fig. 3 is a front view of the drum assembly of fig. 1, fig. 4 is a schematic perspective view of the first stage transmission mechanism of fig. 1, fig. 5 is a schematic perspective view of the second stage transmission mechanism of fig. 1, and fig. 6 is a schematic perspective view of the guide assembly of fig. 1.

Detailed Description

The first embodiment is as follows: the present embodiment is described with reference to fig. 1 to 6. The embodiment consists of a roller assembly 1, a first-stage transmission mechanism 2, a second-stage transmission mechanism 3, a guide assembly 4 and a base, wherein a conical gear 1-6 at the right end of the roller assembly 1 is meshed with a conical gear 2-1 of the first-stage transmission mechanism 2, the output end of a cylindrical gear 2-2 of the first-stage transmission mechanism 2 is meshed with a cylindrical gear 3-1 at the input end of the second-stage transmission mechanism 3, a conical gear 3-6 at the output end of the second-stage transmission mechanism 3 is meshed with a conical gear 4-1 at the right end of the guide assembly 4, and the roller assembly 1, the first-stage transmission mechanism 2, the second-stage transmission mechanism 3 and the guide assembly 4 are arranged above the base 5.

The second embodiment is as follows: this embodiment will be described with reference to fig. 1 and 3. The drum assembly 1 in this embodiment is composed of a hand crank 1-1, a take-up drum 1-2, two deep groove ball bearings 1-3, a left take-up drum upright 1-4, a right take-up drum upright 1-5 and a bevel gear 1-6, wherein the hand crank 1-1 is arranged on the left, the two deep groove ball bearings 1-3 are symmetrically arranged on the upper parts of the left take-up drum upright 1-4 and the right take-up drum upright 1-5, the right side of the hand crank 1-1 is assembled with the deep groove ball bearings 1-3, an output shaft on the right side of the take-up drum 1-2 is assembled with the deep groove ball bearings 1-3, the right end of the hand crank 1-1 is connected with the left end of the take-up drum 1-2, the right end of the take-up drum 1-2 is provided with the bevel gear 1-6, the upper part of the right take-up drum upright 1-5 is arranged between the take-up drum 1-2 and the bevel gear 1-6, and the bevel gear 1-6 of the drum assembly 1-1 meshes with the bevel gear 1-2 of the first stage bevel gear transmission mechanism.

And a third specific embodiment: this embodiment will be described with reference to fig. 1 and 4. The first-stage transmission mechanism 2 in the embodiment is composed of a conical gear 2-1, a cylindrical gear 2-2, a left secondary transmission fixing frame 2-3, a right secondary transmission fixing frame 2-4, a left deep groove ball bearing 2-5, a right deep groove ball bearing 2-6 and a secondary transmission shaft 2-7, two ends of the secondary transmission shaft 2-7 are respectively sleeved on the left deep groove ball bearing 2-5 and the right deep groove ball bearing 2-6, the conical gear 2-1 and the cylindrical gear 2-2 are respectively sleeved on two ends of the secondary transmission shaft 2-7, and the secondary transmission shaft 2-7 is supported by the left secondary transmission fixing frame 2-3 and the right secondary transmission fixing frame 2-4.

The specific embodiment IV is as follows: this embodiment will be described with reference to fig. 1 and 5. The second-stage transmission mechanism 3 in the embodiment is composed of a cylindrical gear 3-1, two deep groove ball bearings 3-2, a left-side three-stage transmission fixing frame 3-3, a right-side three-stage transmission fixing frame 3-4, a three-stage transmission shaft 3-5 and a conical gear 3-6, wherein the cylindrical gear 3-1 is arranged at the left end of the three-stage transmission shaft 3-5, the outer rings of the two deep groove ball bearings 3-2 are respectively sleeved in concave cavities at the upper parts of the left-side three-stage transmission fixing frame 3-3 and the right-side three-stage transmission fixing frame 3-4, the conical gear 3-6 is arranged at the right end of the three-stage transmission shaft 3-5, and the conical gear 3-6 of the second-stage transmission mechanism 3 is meshed with the conical gear 4-1 of the guide assembly 4.

Fifth embodiment: this embodiment will be described with reference to fig. 1, 2, and 6. The guide assembly 4 in the embodiment is composed of a conical gear 4-1, EF ball screw supporting seats 4-2, a reciprocating screw 4-3, a reciprocating screw sliding block 4-4, a crescent sliding block 4-5, a spring 4-6, a lead limiting block 4-7, a reciprocating screw support 4-8 and a sliding rail 4-9, wherein the conical gear 4-1 is arranged at the right end of the reciprocating screw 4-3, the EF ball screw supporting seats 4-2 are symmetrically arranged above the reciprocating screw support 4-8 at the left side and the right side, rolling bearings are arranged in the EF ball screw supporting seats 4-2, the rolling bearings are sleeved on journals at two ends of the reciprocating screw 4-3, the lower part of the reciprocating screw sliding block 4-4 is assembled with the sliding rail 4-9, the upper part of the reciprocating screw sliding block 4-4 is assembled with the reciprocating screw 4-3, the crescent sliding block 4-5 and the spring 4-6 are arranged at the joint of the multifilament sliding block 4-7, the downward elasticity of the spring 4-6 fixes the crescent sliding block 4-5 on the reciprocating screw 4-3, the lead limiting block 4-7 is sleeved on the journal at the left side and right side of the reciprocating screw 4-3, and the lead limiting block 4-7 is provided with limiting holes 4-7 and the left side of the reciprocating screw 4-7 is symmetrically connected with the sliding rail 4-4.

Specific embodiment six: this embodiment will be described with reference to fig. 1, 2, 3, 5, and 6. In the embodiment, holes are formed in bases of upright posts, three-stage transmission fixing frames and supports of the roller assembly 1, the first-stage transmission mechanism 2, the second-stage transmission mechanism 3 and the guide assembly 4, and are connected with the base 5 through bolts.

The working process of the device comprises the following steps:

the hand-rotating crank 1-1 of the rocking roller assembly 1 rotates to drive the take-up roller 1-2 and the conical gear 1-6 to rotate, the conical gear 1-6 of the roller assembly 1 and the conical gear 2-1 of the first-stage transmission mechanism 2 are meshed and driven, and the secondary transmission shaft 2-7, the cylindrical gear 2-2, the cylindrical gear 3-1 and the conical gear 3-6 of the first-stage transmission mechanism 2 are driven to drive the conical gear 3-6 of the second-stage transmission mechanism 3 and the conical gear 4-1 of the guide assembly 4 to mutually meshed and drive the reciprocating screw 4-3 to rotate, and due to the matching relation of the crescent slide 4-5 and the reciprocating screw 4-3, the reciprocating screw slide 4-4 also transversely reciprocates on the reciprocating screw 4-3 when the reciprocating screw 4-3 rotates, and the wire is wound on the take-up drum 1-2 of the roller assembly 1 through the limit hole 4-7-1 on the wire limiting block 4-7.

The above embodiments are illustrative only and not limiting of the utility model, it should be noted that for the art

Other equivalent changes, modifications, substitutions and alterations are also contemplated by those skilled in the art, and are intended to be within the scope of the present utility model.

Claims (6)

1. A take-up for preventing card line, it comprises cylinder subassembly, first order drive mechanism, second grade drive mechanism, guide assembly and base, its characterized in that: the conical gear at the right end of the roller assembly is meshed with the conical gear of the first-stage transmission mechanism, the output end of the first-stage transmission mechanism is meshed with the cylindrical gear at the input end of the second-stage transmission mechanism, the conical gear at the output end of the second-stage transmission mechanism is meshed with the conical gear at the right end of the guide assembly, and the first-stage transmission mechanism, the second-stage transmission mechanism and the guide assembly of the roller assembly are arranged above the base.

2. A take-up device for anti-seize wire as defined in claim 1, wherein: the roller assembly consists of a hand-rotating crank, a wire-collecting roller, two deep groove ball bearings, a left wire-collecting roller column, a right wire-collecting roller column and a conical gear, wherein the hand-rotating crank is arranged on the left side, the two deep groove ball bearings are symmetrically arranged on the upper parts of the left wire-collecting roller column and the right wire-collecting roller column, the right end of the hand-rotating crank is connected with the left end of the wire-collecting roller, the conical gear is arranged on the right side of the wire-collecting roller, the upper part of the right wire-collecting roller column is arranged between the wire-collecting roller and the conical gear, and the conical gear of the roller assembly is meshed with the conical gear of the first-stage transmission mechanism.

3. A take-up device for anti-seize wire as defined in claim 1, wherein: the first-stage transmission mechanism consists of a conical gear, a cylindrical gear, a secondary transmission fixing frame, a left deep groove ball bearing, a right deep groove ball bearing and a secondary transmission shaft, wherein two ends of the secondary transmission shaft are respectively sleeved on the left deep groove ball bearing and the right deep groove ball bearing, the conical gear and the cylindrical gear are respectively sleeved at two ends of the secondary transmission shaft, the secondary transmission shaft is supported by the left secondary transmission fixing frame and the right secondary transmission fixing frame, and the cylindrical gear of the first-stage transmission mechanism is meshed with the cylindrical gear of the second-stage transmission mechanism.

4. A take-up device for anti-seize wire as defined in claim 1, wherein: the second-stage transmission mechanism consists of a cylindrical gear, a pair of deep groove ball bearings, a left three-stage transmission fixing frame, a right three-stage transmission fixing frame, a three-stage transmission shaft and a conical gear, wherein the cylindrical gear is arranged at the left end of the three-stage transmission shaft, the outer rings of the two deep groove ball bearings are respectively sleeved in concave cavities at the upper parts of the left three-stage transmission fixing frame and the right three-stage transmission fixing frame, the conical gear is arranged at the right end of the three-stage transmission shaft, and the conical gear of the second-stage transmission mechanism is meshed with the conical gear of the guide assembly.

5. A take-up device for anti-seize wire as defined in claim 1, wherein: the guide assembly consists of a conical gear, an EF ball screw supporting seat, a reciprocating screw sliding block, a crescent sliding block, a spring, a wire limiting block, a reciprocating screw support and a sliding rail, wherein the conical gear is arranged at the right end of the reciprocating screw, the EF ball screw supporting seat is symmetrically arranged above the reciprocating screw support at the left side and the right side, rolling bearings are arranged in the EF ball screw supporting seat, the rolling bearings are sleeved on journals at the two ends of the reciprocating screw, the lower part of the reciprocating screw sliding block is assembled with the sliding rail, the upper part of the reciprocating screw sliding block is assembled with the reciprocating screw, the crescent sliding block and the spring are arranged at the joint of the reciprocating screw sliding block and the wire limiting block, the crescent sliding block is pressed in the reciprocating screw tooth groove by downward elasticity of the spring, limiting holes are formed in the wire limiting block, and the two ends of the sliding rail are connected with the reciprocating screw support which is symmetrically arranged at the left side and the right side.

6. A take-up device for anti-seize wire as defined in claim 1, wherein: the roller assembly, the first-stage transmission mechanism, the second-stage transmission mechanism and the guide assembly are connected with the base through bolts, and holes are formed in the bottoms of the upright posts, the three-stage transmission fixing frame and the support.