CN219259154U - Horizontal winding machine for cables - Google Patents

Abstract

The utility model relates to a device for cables, in particular to a horizontal winding machine for cables, which comprises a bearing base, a rotating base and at least one pair of clamping clamps, wherein the bearing base is provided with a rotating support, the rotating base and the rotating support are coaxially fixed, the shaft is a rotating shaft, the bottom of the rotating shaft is fixed on the bearing base, the clamping clamps mainly comprise two clamping parts which are oppositely arranged, one clamping part is a fixed clamping part, the fixed clamping part is fixedly arranged on the rotating base, the other clamping part is a movable clamping part, and the movable clamping part moves along the radial direction of the rotating base and is matched with the fixed clamping part to form a clamping effect.

Description

Horizontal winding machine for cables

Technical Field

The utility model relates to device equipment of cables, in particular to a horizontal winding machine for cables.

Background

There is often a need to cut a portion of the entire cable for shipment when the cable, particularly a lightweight cable, is in use. It is currently common practice to manually drag, i.e. pull the appropriate length from the whole cable by an operator and then cut it off again, to obtain the desired cable length. This approach is not only difficult, but also inefficient, and requires a lot of space during the operation due to the rigidity of the cable.

Disclosure of Invention

The utility model aims to solve the technical problem of providing a device capable of achieving the purpose of acquiring a rated length of a cable without resorting to and depending on a cable drum.

In order to solve the technical problems, the utility model discloses a horizontal winding machine for cables, which comprises a bearing base, wherein a rotary support is arranged on the bearing base, the rotary support rotates under the action of a driving motor, the horizontal winding machine also comprises a rotary base, the rotary base and the rotary support are coaxially fixed, a shaft is a rotating shaft, the bottom of the rotating shaft is fixed on the bearing base, the horizontal winding machine also comprises at least one pair of symmetrically arranged clamping clamps, the clamping mainly comprises two oppositely arranged clamping parts, one clamping part is a fixed clamping part, the fixed clamping part is fixedly arranged on the rotary base, the other clamping part is a movable clamping part, and the movable clamping part moves along the radial direction of the rotary base and is matched with the fixed clamping part to form a clamping effect.

The rotating base is coaxially fixed with the rotary support, and when the rotary support rotates under the action of the driving motor, the rotating base can be driven to rotate. The cable is clamped in the clamp, and because the clamp is fixed on the rotating base, when the rotating base rotates, the cable rotates with the rotating shaft of the rotating base, so that the winding function is realized.

Preferably, the rotating base is further provided with a movable clamping part moving supporting table along the radial direction. When the movable clamping part moves from inside to outside along the radial direction, the movable clamping part is attached to the movable clamping part moving support table, so that a more stable moving state is realized.

In a preferred technical scheme, the device further comprises a movable clamping part pushing mechanism, wherein the movable clamping part pushing mechanism comprises a push rod and a movable framework, the push rod is connected with the movable framework through a first connecting rod, the device further comprises a second connecting rod, two ends of the second connecting rod are respectively connected to the first connecting rod and the rotating shaft, and the device further comprises a power device, and the power device is connected with the movable framework and controls the movable framework to move up and down along the direction of the rotating shaft.

In a preferred technical scheme, the push rod consists of two push plates with rounded top ends, and a plurality of connecting plates are arranged between the two push plates to connect the two push plates together. The pushing stability can be guaranteed, and meanwhile, the production cost can be saved.

Further preferably, the power device is an electric cylinder.

In a preferred embodiment, the second link is rotatably connected to the push rod fixing side of the first link.

The connection position of the second connecting rod and the first connecting rod can determine the movement range of the push rod, and the fixing mode close to one side of the push rod can realize larger movement and adjustment range, so that the winding operation requirements of more cables with different radiuses are met.

As a preferable technical scheme, the rotary base further comprises a clamping supporting table, wherein the fixed clamping part is fixedly arranged on the clamping supporting table, and the clamping supporting table is fixed on the outer side of the rotary base.

As an optimized technical scheme, the horizontal winding machine for the cables comprises two pairs of clamps, wherein the clamps are opposite to each other in pairs and are arranged on the rotating base at equal intervals. The fewer the clip settings, the lower the cost, the more clip settings, and the higher the winding stability. The provision of two pairs of clips is a preferred arrangement, with stability and cost reaching a preferred point value.

By adopting the technical scheme disclosed by the utility model, the automatic winding work of cables with different specifications can be realized, so that the working efficiency is greatly improved, the labor cost is saved, and meanwhile, the extracted cables are still collected in a disc-shaped form, so that excessive working space is not required to be occupied.

Drawings

Fig. 1 is a schematic view of a horizontal winding machine for cables in an opened state.

Fig. 2 is a schematic view of a horizontal winding machine for cables in a closed state.

Detailed Description

For a better understanding of the present utility model, we will further describe the present utility model with reference to specific examples.

Example 1

The horizontal winding machine for cables shown in fig. 1 and 2 comprises a bearing base 1, wherein a rotary support 2 is arranged on the bearing base, the rotary support 2 rotates under the action of a driving motor 3, the horizontal winding machine further comprises a rotary base 4, the rotary base 4 and the rotary support 2 are coaxially fixed, a shaft is a rotating shaft 5, the bottom of the rotating shaft 5 is fixed on the bearing base 1, the horizontal winding machine further comprises at least one pair of symmetrically arranged clamping clamps, the clamping clamps mainly comprise two oppositely arranged clamping parts, one clamping part is a fixed clamping part 601, the fixed clamping part 601 is fixedly arranged on the rotary base 4, the other clamping part is a movable clamping part 602, and the movable clamping part 602 moves along the radial direction of the rotary base and is matched with the fixed clamping part to form a clamping effect. As shown in fig. 1, in this embodiment it is preferable to further include a clip support 603, the fixing engagement portion 601 being fixedly provided on the clip support 603, the clip support being fixed outside the swivel base 4.

The rotating base is coaxially fixed with the rotary support, and when the rotary support rotates under the action of the driving motor, the rotating base can be driven to rotate. The cable is clamped in the clamp, and because the clamp is fixed on the rotating base, when the rotating base rotates, the cable rotates with the rotating shaft of the rotating base, so that the winding function is realized.

Preferably, in this embodiment, the rotating base is further provided with a movable engaging portion movement supporting table 604 in the radial direction as shown in fig. 1. When the movable clamping part moves from inside to outside along the radial direction, the movable clamping part is attached to the movable clamping part moving support table, so that a more stable moving state is realized.

Preferably, in this embodiment, as can be seen in fig. 1, the horizontal winding machine for cables further includes a movable clamping portion pushing mechanism, where the movable clamping portion pushing mechanism includes a push rod 7 and a movable framework 8, the push rod 7 is connected with the movable framework 8 through a first connecting rod 9, and further includes a second connecting rod 10, two ends of the second connecting rod 10 are respectively connected to the first connecting rod 9 and the rotating shaft 5, in this embodiment, it can be seen in fig. 1 that the second connecting rod 10 is fixed with the rotating shaft through a supporting framework 11, and further includes a power device, and the power device is connected with the movable framework and controls the movable framework to move up and down along the rotating shaft direction. In this embodiment, the power device is an electric cylinder, the electric cylinder is placed in the rotating shaft, the movable frame 8 is fixed at the top end of the piston rod 13 of the electric cylinder, the movable frame can move up and down along with the movement of the piston rod of the electric cylinder, and the direction of the up and down movement is consistent with the rotating shaft because the electric cylinder is located in the rotating shaft.

It can be seen that the connection point between the second connecting rod 10 and the rotating shaft 5, the connection point between the first connecting rod 9 and the second connecting rod 10, and the point where the movable skeleton 8 is located form three vertexes of a triangle, in this triangle, since the movable skeleton 8 can move up and down along the rotating shaft 5, the distance between the two points of the movable skeleton 8, the connection point between the second connecting rod 10 and the rotating shaft 5 will change, so that the triangle formed by the three vertexes changes, the included angle at the connection point between the first connecting rod and the second connecting rod changes along with the up and down movement of the movable skeleton, when the movable skeleton 8 moves up, the included angle increases, and when the movable skeleton 9 resets down, the included angle decreases. Correspondingly, along with the change of the triangle, the push rod fixed at the tail end of the first connecting rod correspondingly moves inwards or outwards in the radial direction, and the movement of the push rod can further drive the movable clamping part to move forwards and backwards in the radial direction. Specifically, when the included angle is increased, the push rod moves inwards in the radial direction to drive the movable clamping part to move backwards, and the clamp is released; when the included angle is reduced, the push rod moves outwards along the radial direction, the movable clamping part is driven to move forwards, and the clamp is tightened.

Preferably, as can be seen in connection with fig. 1, in this embodiment, the second link 10 is preferably rotatably connected to the first link 9 near the push rod fixing.

The fixed position of the second connecting rod can determine the moving range of the push rod, and the connection mode close to one side of the push rod can realize larger moving and adjusting range, so that the winding operation requirements of more cables with different radiuses are met.

Preferably, in this embodiment it can be seen that the push rod consists of two push plates 701 with rounded tips, with a number of webs 702 in between, connecting the two push plates together. The pushing stability can be guaranteed, and meanwhile, the production cost can be saved.

Meanwhile, as a preferable mode, the horizontal winding machine for the cable in the embodiment comprises two pairs of clamps, which are opposite to each other in pairs and are arranged on the rotating base at equal intervals. The fewer the clip settings, the lower the cost, the more clip settings, and the higher the winding stability. The provision of two pairs of clips is a preferred arrangement, with stability and cost reaching a preferred point value.

When the cable clamp is used, the control system sends out an instruction, the electric cylinder moves upwards, the movable clamping part moves inwards, the clamp is opened, an operator places the cable head in the clamp, then the control system sends out an instruction, the electric cylinder resets, the movable clamping part moves outwards, the clamp tightens, and the cable head is fixed in the clamp. And then, the control system sends a winding command to drive the rotary supporting mechanism to rotate, and the cable winding operation is started. When the cable is wound to a proper length, a stop command is sent through the control system, the rotary supporting mechanism stops rotating, and the cable is manually cut off, so that the whole winding work is completed. Meanwhile, the cables are wound on the push plate, so that the coiled cables are directly taken down, not only is the automatic coiling realized, but also the cables are directly coiled in the paying-off process, and the space is not occupied.

What has been described above is a specific embodiment of the present utility model. It should be noted that modifications and adaptations to the utility model may occur to one skilled in the art without departing from the principles of the present utility model and are intended to be within the scope of the present utility model.

Claims (8)

1. Horizontal coiling machine is used to cable, its characterized in that: including bearing the base, bear and be provided with a gyration support on the base, the gyration support is rotatory under driving motor's effect, still including the rotating base, the rotating base is coaxial fixed with the gyration support, the axle is the axis of rotation, and the axis of rotation bottom is fixed on bearing the base, still including at least one pair of symmetrical clamping that sets up, the clamping mainly comprises two clamping portions that set up relatively, one of them is fixed clamping portion, fixed clamping portion is fixed to be set up on the rotating base, and another is movable clamping portion, movable clamping portion is along the radial motion of rotating base to form the centre gripping effect with fixed clamping portion cooperation.

2. The horizontal wire winding machine for cables according to claim 1, wherein: the rotary base is also provided with a movable clamping part motion supporting table along the radial direction.

3. The horizontal wire winding machine for cables according to claim 1 or 2, characterized in that: the movable clamping part pushing mechanism comprises a push rod and a movable framework, the push rod is connected with the movable framework through a first connecting rod, the movable clamping part pushing mechanism further comprises a second connecting rod, two ends of the second connecting rod are respectively connected to the first connecting rod and the rotating shaft, and the movable clamping part pushing mechanism further comprises a power device, and the power device is connected with the movable framework and controls the movable framework to move up and down along the direction of the rotating shaft.

4. A horizontal wire winding machine for cables according to claim 3, wherein: the push rod comprises two push plates with rounded top ends, and a plurality of connecting plates are arranged between the two push plates to connect the two push plates together.

5. A horizontal wire winding machine for cables according to claim 3, wherein: the power device is an electric cylinder.

6. A horizontal wire winding machine for cables according to claim 3, wherein: the second link is rotatably coupled to the push rod fixation side proximal to the first link.

7. The horizontal wire winding machine for cables according to claim 1, wherein: still including clamping supporting bench, fixed block portion is fixed to be set up on clamping supporting bench, clamping supporting bench is fixed in the rotation base outside.

8. The horizontal wire winding machine for cables according to claim 1, wherein: the horizontal winding machine for the cables comprises two pairs of clamps, wherein the clamps are opposite to each other, and the horizontal winding machine for the cables is arranged on the rotating base at equal intervals.

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