CN213864777U - Cable telescopic type rewinding machine - Google Patents

Abstract

The utility model discloses a telescopic rewinder of cable, including the base that is used for fixed settling, the fixed initiative end stand of settling on the base transversely runs through the driving shaft of settling on the initiative end stand through the bearing, and the fixed rotation motor of being settled on the initiative end stand and being connected with driving shaft one end transmission is fixed to be settled in the telescopic drum subassembly of the driving shaft other end to and settle on the base and with the adjustable driven drum subassembly that telescopic drum subassembly matches, wherein, driven drum subassembly with adjustable telescopic drum subassembly orientation, the adjustable driven drum subassembly is along driving shaft axial displacement, realizes the joint and the separation with telescopic drum subassembly, and makes telescopic drum subassembly extends when the joint, contracts when the separation. The utility model discloses a remove driven drum adjustably and realized installing and removing conveniently the dish utensil, made things convenient for the dismantlement of dish utensil, no longer need other baffles and locking part when installing and removing the dish utensil, improved the use convenience.

Description

Cable telescopic type rewinding machine

Technical Field

The utility model relates to a rewinder, specifically say, relate to a telescopic rewinder of cable.

Background

The rewinding machine is an auxiliary device used when cables such as copper wires, aluminum wires, iron wires, plastic aluminum wires and plastic copper wires are rewound on the coiling tool, and is generally matched with an outgoing wire of a wire unit (an extruder) and a stranding unit for twisting. In the conventional rewinding machine, a cable reel is arranged on a power shaft of the rewinding machine and fixed when in use, and the rewinding machine drives the cable reel to rotate when rotating so as to rewind the cable on the reel. Because parts such as fixed baffle of needs independent operation and locking piece when the dish utensil is fixed, the process is comparatively loaded down with trivial details to because the dish utensil has certain length (according to the specification) in axial direction, also comparatively troublesome when wearing the dish utensil on the power shaft and when taking off from the power shaft, make current rewinder structure very inconvenient in practical application.

SUMMERY OF THE UTILITY MODEL

To the above-mentioned problem among the above-mentioned prior art, the utility model provides a convenient to use's telescopic rewinder of cable.

In order to realize the purpose, the utility model discloses a technical scheme as follows:

the utility model provides a telescopic rewinding machine of cable, is including the base that is used for fixed settling, the drive end stand of fixed settling on the base, transversely run through the driving shaft of settling on the drive end stand through the bearing, the rotating electrical machines who fixedly settles on the drive end stand and be connected with the transmission of driving shaft one end, the telescopic drum subassembly of fixed settling at the driving shaft other end, and settle on the base and with the adjustable driven drum subassembly of telescopic drum subassembly matching, wherein, telescopic drum subassembly is towards adjustable driven drum subassembly, adjustable driven drum subassembly is along driving shaft axial displacement, realizes the joint and the separation with telescopic drum subassembly, and makes telescopic drum subassembly extend when the joint, shrink when the separation.

Specifically, driven drum subassembly with adjustable settle on the base and along the guide rail of driving shaft axial trend, settle the driven end stand on the guide rail, one end is connected on the base and the other end is used for driving the cylinder that driven end stand moved along the guide rail and be connected with driven end stand, transversely runs through the driven shaft of settling on driven end stand and with the coaxial setting of driving shaft through the bearing to and the fixed driven drum subassembly of settling in driven shaft towards driving shaft one end, wherein, driven drum subassembly with telescopic drum subassembly matches.

Further, the driven wire coil assembly comprises a driven chassis, a top ring, a driven outer ring and a driven rib plate, wherein the driven chassis is fixedly sleeved on the driven shaft at the central part, the top ring is arranged at the center of the driven chassis, the driven outer ring is arranged at the edge of the driven chassis and used for arranging a wire coil, and the driven rib plate is arranged on the driven chassis and located between the top ring and the driven outer ring, wherein the top ring extends when being engaged with the telescopic wire coil assembly.

Furthermore, a cone part with the radial size gradually reduced is arranged at one end, facing the driving shaft, of the driven outer ring.

And a driven outer fence is arranged on the outer edge of the driven chassis or the driven outer ring.

Specifically, the telescopic wire coil assembly comprises a driving chassis, a chassis shaft, a telescopic sliding frame, a plurality of disk shaft assemblies and a connecting rod, wherein the driving chassis is fixedly sleeved on a driving shaft, the chassis shaft is fixedly arranged at the center of the driving chassis, the telescopic sliding frame is sleeved on the chassis shaft, the disk shaft assemblies are hinged with the driving chassis and are circumferentially and uniformly distributed along the edge of the driving chassis, the connecting rod is hinged with the telescopic sliding frame and the disk shaft assemblies at two ends respectively, when the telescopic sliding frame moves along the axial direction of the chassis shaft to be close to the driving chassis, the disk shaft assemblies are supported to form a wire coil main shaft which is in an annular outline and is used for arranging and clamping disk tools, and when the telescopic sliding frame moves along the axial direction of the chassis shaft to be far away from the driving chassis, the disk shaft assemblies shrink towards the axis position.

Further, flexible balladeur train includes that the sliding sleeve of sliding sleeve on arranging the chassis epaxial to and a plurality of sliding frame pieces that are the circumference equipartition on fixed connection the sliding sleeve, wherein the quantity of sliding frame piece matches with the dish axle subassembly number, the connecting rod is articulated with the sliding frame piece.

Further, the dish axle subassembly is including the curved dish axle piece that is used for forming the drum main shaft, with dish axle connection board of dish axle piece fixed connection to and with the dish axle piece with the dish axle fagging that the dish axle is even connected, wherein, the one end that dish axle connection board is close to the initiative chassis in the axial of driving shaft is articulated with the initiative chassis, and the other end is articulated with the connecting rod.

Further, a driving rib plate is arranged on the driving chassis.

And the outer edge of the driving chassis is provided with a driving outer fence.

Compared with the prior art, the utility model discloses following beneficial effect has:

(1) the utility model discloses solve original axle part of rewinder ingeniously for two parts of initiative drum and driven drum, realized installing and removing the dish utensil conveniently through removing driven drum adjustably, and will take the initiative drum design for the joint and the form that the separation that utilize driven drum extends and contracts, can directly lock the dish utensil after having installed the dish utensil, and the dish utensil has been dismantled to the driven drum and has contracted initiative drum diameter simultaneously, the dismantlement of dish utensil has been made things convenient for greatly, utilize the structure realization of itself through this kind of design, no longer need other baffles and locking part when installing and removing the dish utensil, the convenience of use has been improved effectively. And the utility model discloses simple structure, design benefit, convenient to use is suitable for and uses in cable rewinder.

(2) The utility model discloses a guide rail and cylinder come the removal of controlling driven drum stand and driven drum subassembly, control is stable, easily operation to can directly dock current ripe electrical system and pneumatic system, the practicality is strong.

(3) The utility model discloses a driven drum subassembly sets up a apical ring ingeniously at central point, with the chassis axle and the flexible balladeur train matching of initiative drum subassembly central point, promote flexible balladeur train when two drum subassemblies joint and inwards move and realized the extension of initiative drum subassembly, and relieved the restriction that blocks to flexible balladeur train when separating, the effort that the drum axle subassembly received the dish utensil can be reverse releases flexible balladeur train, realizes the shrink of initiative drum subassembly from this, can easily take off the dish utensil conveniently.

(4) The utility model discloses set up the cone portion on driven drum subassembly's outer lane, outer lane part butt joint forms the drum main shaft wholly when making things convenient for two drum subassemblies to join, and driven gusset on it has strengthened the structural strength performance on driven chassis, and driven fence auxiliary disc utensil side is spacing.

(5) The utility model discloses a telescopic drum subassembly has utilized articulated linkage relation between flexible balladeur train, connecting rod and the dish axle subassembly ingeniously to form the changeable drum main shaft of diameter to the top when the cooperation is connected from the drum subassembly pushes away the effect and has realized the maintenance of drum main shaft external diameter, but also helps improving the joint locking ability of drum main shaft to the dish utensil.

(6) The utility model discloses a telescopic drum subassembly also utilizes the structural strength on initiative gusset reinforcing initiative chassis equally, utilizes the spacing of supplementary dish utensil another side of initiative guardrail.

(7) The utility model discloses a dish axle subassembly utilizes the arc dish axle piece of a plurality of circumference equipartitions to constitute drum main shaft profile, is actually with the help of the indirect thrust effect that the cylinder produced, has guaranteed the stable arrangement of dish utensil effectively, possesses the shrink reducing ability under articulated linkage relation again simultaneously to the use convenience has been improved.

Drawings

Fig. 1 is a schematic view of the overall structure of an embodiment of the present invention.

Fig. 2 is a cross-sectional view of an embodiment of the invention.

Fig. 3 is a schematic structural diagram of a driven wire coil assembly according to an embodiment of the present invention.

Fig. 4 is a schematic structural diagram of a retractable wire coil assembly in an embodiment of the present invention.

Fig. 5 is a schematic structural view of a telescopic carriage according to an embodiment of the present invention.

Fig. 6 is a schematic structural diagram of a disc shaft assembly according to an embodiment of the present invention.

In the drawings, the names of the parts corresponding to the reference numerals are as follows:

1-a base, 2-a driving end upright post, 3-a driving shaft, 4-a rotating motor, 5-a lifting ring,

100-telescopic wire coil component, 101-active chassis, 102-chassis shaft, 103-connecting rod, 104-active rib plate, 105-active outer ring, 106-active outer fence, 110-telescopic carriage, 111-sliding sleeve, 112-sliding frame sheet, 120-disk shaft component, 121-disk shaft sheet, 122-disk shaft connecting plate, 123-disk shaft supporting plate,

200-adjustable driven wire coil assembly, 201-guide rail, 202-air cylinder, 203-driven end upright post, 204-driven shaft, 205-dust cover, 210-driven wire coil assembly, 211-driven chassis, 212-top ring, 213-driven outer ring, 214-driven rib plate, 215-cone part and 216-driven outer fence.

Detailed Description

The present invention will be further described with reference to the following drawings and examples, and embodiments of the present invention include, but are not limited to, the following examples.

Examples

As shown in fig. 1 to 6, the retractable cable rewinder comprises a base 1 for fixed installation, a driving end upright post 2 fixedly installed on the base, a driving shaft 3 transversely installed on the driving end upright post through a bearing, a rotating motor 4 fixedly installed on the driving end upright post and in transmission connection with one end of the driving shaft, a retractable wire coil assembly 100 fixedly installed at the other end of the driving shaft, and an adjustable driven wire coil assembly 200 installed on the base and matched with the retractable wire coil assembly, wherein the retractable wire coil assembly faces the adjustable driven wire coil assembly, the adjustable driven wire coil assembly moves axially along the driving shaft, engagement and disengagement with the retractable wire coil assembly are achieved, and the retractable wire coil assembly is extended when engaged and retracted when disengaged.

Specifically, the adjustable driven wire coil assembly 200 comprises a guide rail 201 arranged on the base and moving along the axial direction of the driving shaft, a driven end upright 203 arranged on the guide rail, a cylinder 202, one end of which is connected to the base and the other end of which is connected with the driven end upright for driving the driven end upright to move along the guide rail, a driven shaft 204 arranged on the driven end upright and coaxial with the driving shaft in a transverse penetrating manner through a bearing, and a driven wire coil assembly 210 fixedly arranged at one end of the driven shaft facing the driving shaft, wherein the driven wire coil assembly is matched with the telescopic wire coil assembly, and a dust cover 205 is arranged at the other end of the driven shaft. The driven wire coil assembly 210 includes a driven chassis 211 fixedly inserted on the driven shaft at the center, a top ring 212 disposed at the center of the driven chassis, a driven outer ring 213 disposed at the edge of the driven chassis for accommodating a wire coil, and a driven rib plate 214 disposed on the driven chassis between the top ring and the driven outer ring, wherein the top ring extends when engaged with the retractable wire coil assembly. Specifically, the driven outer ring is provided with a tapered portion 215 having a gradually decreasing radial dimension toward one end of the drive shaft. And a driven outer fence 216 is arranged on the outer edge of the driven chassis or the driven outer ring.

Specifically, the retractable wire coil assembly 100 includes a driving chassis 101 fixedly sleeved on the driving shaft at the center, a chassis shaft 102 fixedly disposed at the center of the driving chassis, a retractable carriage 110 sleeved on the chassis shaft, a plurality of disk shaft assemblies 120 hinged to the driving chassis and circumferentially and uniformly distributed along the edge of the driving chassis, and a connecting rod 103 having two ends respectively hinged to the retractable carriage and the disk shaft assemblies, wherein when the retractable carriage moves along the axial direction of the chassis shaft to approach the driving chassis, the disk shaft assemblies are supported to form a wire coil main shaft with an annular profile for accommodating and clamping the disk, and when the retractable carriage moves along the axial direction of the chassis shaft to depart from the driving chassis, the disk shaft assemblies retract to the axial position. In addition, a driving rib plate 104 is arranged on the driving chassis, and the disc shaft assembly can also be hinged on the driving rib plate; the edge of the active chassis can also be provided with an active outer ring 105; and an active outer fence 106 is arranged on the outer edge of the active chassis or the active outer ring.

Specifically, the telescopic carriage 110 includes a sliding sleeve 111 disposed on the chassis shaft, and a plurality of circumferentially and uniformly distributed carriage pieces 112 fixedly connected to the sliding sleeve, wherein the number of the carriage pieces matches the number of the disc shaft assemblies, and the connecting rod is hinged to the carriage pieces.

Specifically, the disc shaft assembly 120 includes an arc-shaped disc shaft piece 121 for forming a main shaft of the disc, a disc shaft connecting plate 122 fixedly connected to the disc shaft piece, and a disc shaft supporting plate 123 connected to both the disc shaft piece and the disc shaft connecting plate, wherein one end of the disc shaft connecting plate, which is close to the driving chassis in the axial direction of the driving shaft, is hinged to the driving chassis, and the other end is hinged to the connecting rod.

In addition, in order to facilitate hoisting and moving, the driving end upright post and/or the driven end upright post can be provided with a hoisting ring 5.

When the utility model is used, the base is arranged at a designated position, the adjustable driven wire coil component is moved away by the cylinder and separated from the telescopic wire coil component, the wire coil is arranged in a gap between the base and the telescopic wire coil component (generally, a hoisting mode is adopted, so that a wire coil shaft hole corresponds to the wire coil component), then the cylinder acts to push the driven end upright post and the driven wire coil component to approach to the telescopic wire coil component for jointing, the top ring is contacted with the telescopic sliding frame and the chassis shaft and gradually pushes the telescopic sliding frame to move towards the driving chassis, the telescopic sliding frame drives the connecting rod and drives the disk shaft component to prop up when moving, when in place, the disk shaft component forms the support and extrusion locking of the wire coil shaft hole, the driven wire coil component is simultaneously clamped into the wire coil shaft hole to be jointed with the main shaft end part formed by the disk shaft component, and simultaneously the driving outer fence and the driven outer fence play the role of auxiliary positioning at both sides of the wire coil, then the hoisting of the disc can be released to carry out cable rewinding operation. After the rotating motor is started, the wire coil assembly and the wire coil tool are driven to rotate, and cable rewinding is carried out. After accomplishing, can connect the hoist and mount with the dish utensil earlier, then the separation of control cylinder drive driven drum subassembly, this moment because the top ring of driven drum subassembly divides the dissociation except the restriction to flexible balladeur train, under the exogenic action of dish utensil, the articulated relevant reverse action between dish axle subassembly, connecting rod, the flexible balladeur train makes flexible balladeur train keep away from initiative chassis and removes to make the drum main shaft profile that dish axle subassembly formed can not keep, become the state that radially dwindles, and then make the dish utensil can easily lift off.

The above-mentioned embodiment is only the preferred embodiment of the present invention, and is not a limitation to the protection scope of the present invention, but all the changes made by adopting the design principle of the present invention and performing non-creative work on this basis should belong to the protection scope of the present invention.

Claims (10)

1. The utility model provides a telescopic rewinder of cable which characterized in that, including base (1) that is used for fixed arrangement, fixed drive end stand (2) of settling on the base, transversely run through the bearing and settle driving shaft (3) on the drive end stand, fixed rotation motor (4) of settling on the drive end stand and being connected with driving shaft one end transmission, fixed telescopic drum subassembly (100) of settling at the driving shaft other end, and settle on the base and with adjustable driven drum subassembly (200) that telescopic drum subassembly matches, wherein, the driven drum subassembly is towards adjustable, adjustable driven drum subassembly moves along the driving shaft axial, realize with the joint and the separation of telescopic drum subassembly, and make telescopic drum subassembly extend when the joint, shrink when the separation.

2. The telescopic cable rewinding machine as claimed in claim 1, characterized in that said adjustable driven spool assembly (200) comprises a guide rail (201) disposed on the base and running axially along the driving shaft, a driven end post (203) disposed on the guide rail, a cylinder (202) connected to the base at one end and to the driven end post at the other end for driving the driven end post to move along the guide rail, a driven shaft (204) disposed on the driven end post and coaxially with the driving shaft through a bearing, and a driven spool assembly (210) fixedly disposed on the driven shaft at an end facing the driving shaft, wherein said driven spool assembly is matched with said telescopic spool assembly.

3. The retractable cable rewinder as claimed in claim 2, wherein the driven drum assembly (210) comprises a driven chassis (211) fixedly sleeved at the center of the driven shaft, a top ring (212) disposed at the center of the driven chassis, a driven outer ring (213) disposed at the edge of the driven chassis for accommodating the disc, and a driven rib (214) disposed on the driven chassis and between the top ring and the driven outer ring, wherein the top ring extends the retractable drum assembly when engaged therewith.

4. The machine according to claim 3, characterized in that said driven outer ring is provided with a tapered portion (215) of decreasing radial dimension towards one end of the driving shaft.

5. The telescopic cable rewinder machine according to claim 3, wherein the driven chassis outer edge or the driven outer ring is provided with a driven outer fence (216).

6. The telescopic cable rewinder as claimed in any one of claims 1 to 5, the telescopic wire coil assembly (100) comprises a driving chassis (101) with the central part fixedly sleeved on the driving shaft, a chassis shaft (102) fixedly arranged at the center of the driving chassis, a telescopic carriage (110) sleeved on the chassis shaft, a plurality of disk shaft assemblies (120) hinged with the driving chassis and uniformly distributed along the periphery of the driving chassis, and connecting rods (103) with two ends respectively hinged with the telescopic carriage and the disk shaft assemblies, wherein when the telescopic carriage moves along the axial direction of the chassis shaft to be close to the driving chassis, the plurality of disk shaft assemblies are supported to form a wire coil main shaft which is in an annular outline and is used for arranging and clamping the disk tool, when the telescopic sliding frame moves along the axial direction of the chassis shaft and is far away from the driving chassis, the disk shaft assembly contracts towards the axis position.

7. Telescopic rewinding machine according to claim 6, characterized in that said telescopic carriage (110) comprises a sliding sleeve (111) sliding over the chassis shaft and a plurality of circumferentially distributed carriage plates (112) fixedly connected to the sliding sleeve, wherein the number of said carriage plates matches the number of the components of the chassis shaft and said connecting rods are hinged to the carriage plates.

8. The retractable cable rewinding machine as claimed in claim 6, characterized in that said reel shaft assembly (120) comprises a disc shaft piece (121) in the shape of an arc for forming a main axis of the reel, a disc shaft connecting plate (122) fixedly connected to the disc shaft piece, and a disc shaft supporting plate (123) connected to both the disc shaft piece and the disc shaft connecting plate, wherein the disc shaft connecting plate is hinged to the driving chassis at one end thereof in the axial direction of the driving shaft near the driving chassis and is hinged to the connecting rod at the other end thereof.

9. The telescopic cable rewinder according to claim 6, wherein an active web (104) is provided on the active chassis.

10. The machine according to claim 6, characterized in that the active chassis is provided with an active outer fence (106) at its outer edge.

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