CN218595797U - Cable reel take-up device - Google Patents

Abstract

The utility model discloses a cable drum take-up device, a first top and a second top which are arranged oppositely are arranged on a chuck actuating mechanism, a clamping position for clamping the cable drum is formed between the first top and the second top, a chuck driving mechanism is used for driving the first top and/or the second top to move so as to clamp the cable drum, and a take-up driving mechanism is used for driving the first top and/or the second top to rotate so as to drive the cable drum to rotate; the cable end clamping mechanism is arranged on the first tip and/or the second tip, and one end of the cable end clamping mechanism extends into the cable drum. According to the cable drum take-up device with the optimized design, the cable end clamping mechanism is arranged on the top on one side, the clamping mechanism is located inside the cable drum after the cable is wound, the front end of the cable penetrates through the lead hole and then is clamped and fixed by the cable end clamping mechanism before the take-up is started, so that the automatic winding-up and take-up of the cable can be completed without manual auxiliary fixation, and the cable is guaranteed to be uniformly wound on the cable drum and is not loose.

Description

Cable reel take-up device

Technical Field

The utility model relates to a line technical field is received to the cable, especially relates to a cable drum take-up.

Background

In the production process of the existing small-sized cable, the operations of tray loading, tray unloading, film coating and the like of a cable tray need to be completed manually. For the cable reel after being wound up, the weight of each reel is about 30kg, and the problems of easy fatigue of personnel and low production efficiency are caused by adopting an operation mode of manual carrying. Therefore, people can automatically load and unload the wire by adding the upper and lower disk assemblies to the existing wire collecting equipment, thereby reducing the manual labor. However, such a take-up device also does not allow for a fully automated take-up. After the empty reel is reeled, the front end of the cable still needs to be fixed on the cable reel manually, and then the subsequent wire rewinding operation can be carried out. Therefore, how to realize full automation of cable take-up is a problem to be solved urgently by those skilled in the art.

SUMMERY OF THE UTILITY MODEL

For solving the technical problem who exists among the background art, the utility model provides a cable dish take-up.

The utility model provides a cable dish take-up for receive the line on the cable dish, the bobbin lateral wall of cable dish has the pin hole, its characterized in that, take-up includes: the cable end clamping mechanism comprises a chuck actuating mechanism, a take-up driving mechanism, a cable end clamping mechanism and a chuck driving mechanism;

the cable disc winding device comprises a chuck actuating mechanism, a chuck driving mechanism, a winding driving mechanism and a winding driving mechanism, wherein the chuck actuating mechanism is provided with a first tip and a second tip which are arranged oppositely, a clamping position for clamping the cable disc is formed between the first tip and the second tip, the chuck driving mechanism is used for driving the first tip and/or the second tip to move so as to clamp the cable disc, and the winding driving mechanism is used for driving the first tip and/or the second tip to rotate so as to drive the cable disc to rotate; the cable end clamping mechanism is arranged on the first tip and/or the second tip, and one end of the cable end clamping mechanism extends into the cable drum.

Preferably, the chuck actuating mechanism comprises an active bearing seat, an active rotating shaft, an active tip, a passive bearing seat, a passive rotating shaft and a passive tip;

the cable end clamping mechanism is arranged on the driving rotating shaft, and an opening used for accommodating the cable end clamping mechanism is formed in the middle of the driving center.

Preferably, the cable end clamping mechanism adopts a pneumatic clamping jaw, an air supply port is formed in the pneumatic clamping jaw, and an air supply channel communicated with the air supply port is formed in the active rotating shaft.

Preferably, the air supply channel is coaxially arranged with the driving rotating shaft, and a pneumatic joint is arranged at one end of the air supply channel, which is far away from the pneumatic clamping jaw;

the take-up driving mechanism comprises a driving motor and a transmission assembly, wherein the driving motor is positioned on one side of the driving rotating shaft and drives the driving rotating shaft to rotate through the transmission assembly.

Preferably, the transmission assembly comprises a driving turntable and a synchronous belt, the driving turntable is coaxially arranged on an output shaft of the driving motor, a fluted disc which is coaxially arranged is arranged on the outer wall of the driving rotating shaft, and the synchronous belt sequentially bypasses the driving turntable and the fluted disc.

Preferably, the pneumatic gripper comprises a gripper body, a first gripper arm, a second gripper arm and a pneumatic piston;

the clamp body is internally provided with a pneumatic space, the air supply port is arranged on the side wall of the pneumatic space, the pneumatic space is provided with a through hole, the pneumatic piston is installed in the pneumatic space in a sliding and sealing mode, the pneumatic piston is provided with a driving rod, and one end, far away from the starting piston, of the driving rod penetrates through the through hole and extends out of the pneumatic space;

first arm lock and second arm lock are located respectively the through-hole both sides just can rotate respectively to be installed on the anchor clamps body, are equipped with on the first arm lock to being close to the first waist shape hole that the actuating lever direction extends, are equipped with on the second arm lock to being close to the second waist shape hole that the actuating lever direction extends, actuating lever one side be equipped with first waist shape hole and second waist shape hole sliding fit's traveller.

Preferably, the middle part of the driving center is provided with two positioning bulges, the two positioning bulges are respectively positioned at two sides of the opening, and one side of the positioning bulge, which is close to the opening, is provided with a groove for accommodating the pneumatic clamping jaw.

Preferably, still including sending the line subassembly, send the line subassembly to include base, balladeur train and send the line spare, the base is located centre gripping position one side is equipped with to keeping away from on the base the slide rail that the centre gripping position direction extends, but the balladeur train passes through slide rail slidable mounting on the base, send line spare fixed mounting on the balladeur train and correspond the setting with cable end fixture, send the inside through-hole that supplies the cable to pass that has of line spare.

Preferably, the wire feeding part adopts a pipe body structure extending along the direction of the slide rail.

Preferably, the end plate of the cable drum is provided with an identification hole arranged corresponding to the lead hole, the cable drum take-up device further comprises a detection mechanism for detecting the identification hole, and the detection mechanism is located on one side of the first tip or the second tip.

Preferably, the detection mechanism employs an infrared probe.

In the cable drum take-up device, the chuck actuating mechanism is provided with the first top and the second top which are arranged oppositely, a clamping position for clamping the cable drum is formed between the first top and the second top, the chuck actuating mechanism is used for driving the first top and/or the second top to move so as to clamp the cable drum, and the take-up actuating mechanism is used for driving the first top and/or the second top to rotate so as to drive the cable drum to rotate; the cable end clamping mechanism is arranged on the first tip and/or the second tip, and one end of the cable end clamping mechanism extends into the cable drum. According to the cable drum take-up device with the optimized design, the cable end clamping mechanism is arranged on the top on one side, the clamping mechanism is located inside the cable drum after the cable is wound, the front end of the cable penetrates through the lead hole and then is clamped and fixed by the cable end clamping mechanism before the take-up is started, so that the automatic winding-up and take-up of the cable can be completed without manual auxiliary fixation, and the cable is guaranteed to be uniformly wound on the cable drum and is not loose.

Drawings

Fig. 1 is a schematic structural view of a cable drum of an embodiment of a cable drum take-up device provided by the present invention.

Fig. 2 is a schematic structural view of an embodiment of the cable drum take-up device provided by the present invention.

Fig. 3 is the utility model provides an air circuit structure diagram of pneumatic fixture in an embodiment of cable drum take-up.

Fig. 4 is a schematic view of a driving structure of the active rotating shaft in an embodiment of the cable drum take-up device.

Fig. 5 is a schematic structural view of the active center and the pneumatic clamp in one embodiment of the cable drum take-up device.

Fig. 6 is a schematic structural view of a wire feeding assembly in an embodiment of the cable drum take-up device provided by the present invention.

Fig. 7 is a schematic structural view of the wire feeding assembly and the cable drum in cooperation in an embodiment of the cable drum take-up device provided by the present invention.

Fig. 8 is a partial schematic view of the wire feeding assembly and the cable drum in an embodiment of the cable drum take-up device provided by the present invention.

Detailed Description

As shown in fig. 1 to 8, fig. 1 is the utility model provides an embodiment's of cable dish take-up cable dish structure schematic diagram, fig. 2 is the utility model provides an embodiment's of cable dish take-up cable dish structural schematic diagram, fig. 3 is the utility model provides a pneumatic clamp's gas circuit structure schematic diagram in an embodiment of cable dish take-up cable dish, fig. 4 is the utility model provides a drive structure schematic diagram of initiative pivot in an embodiment of cable dish take-up cable dish, fig. 5 is the utility model provides an in an embodiment of cable dish take-up cable dish initiative top and pneumatic clamp complex structural schematic diagram, fig. 6 is the utility model provides a send the structure schematic diagram of line subassembly in an embodiment of cable dish take-up cable dish, fig. 7 is the utility model provides a send line subassembly and cable dish complex structural schematic diagram in an embodiment of cable dish take-up cable dish, fig. 8 is the utility model provides a local schematic diagram of sending the local subassembly and the cable dish complex in an embodiment of cable dish take-up cable dish.

Referring to fig. 1 and 2, the utility model provides a cable drum take-up for receive the line on cable drum 100, cable drum 100's bobbin lateral wall has wire hole 101, its characterized in that, take-up includes: the cable end clamping mechanism comprises a chuck actuating mechanism, a take-up driving mechanism, a cable end clamping mechanism and a chuck driving mechanism;

the cable disc 100 clamping mechanism comprises a chuck actuating mechanism, a chuck driving mechanism and a take-up driving mechanism, wherein a first tip and a second tip which are oppositely arranged are arranged on the chuck actuating mechanism, a clamping position for clamping the cable disc 100 is formed between the chuck actuating mechanism and the chuck actuating mechanism, the chuck driving mechanism is used for driving the first tip and/or the second tip to move so as to clamp the cable disc 100, and the take-up driving mechanism is used for driving the first tip and/or the second tip to rotate so as to drive the cable disc 100 to rotate; the cable end clamping mechanism is mounted on the first centre and/or the second centre and has one end extending into the cable drum 100.

In the specific working process of the cable drum take-up device, the cable drum is loaded between two apexes of the chuck actuating mechanism through the cable drum loading mechanism, then the two apexes clamp the cable drum from two sides through the chuck actuating mechanism, so that the cable end clamping mechanism is located in the cable drum, then the front end of the cable penetrates through a lead hole in the cable drum and is fed into the cable drum, and the cable end is clamped through the cable end clamping mechanism. When the cable is wound, the driving mechanism drives the cable disc to rotate through the tip, the cable winding is completed through rotation, and the cables are guaranteed to be uniformly distributed.

In the embodiment, in the cable drum take-up device, a first tip and a second tip which are arranged oppositely are arranged on a chuck actuating mechanism, a clamping position for clamping the cable drum is formed between the first tip and the second tip, a chuck driving mechanism is used for driving the first tip and/or the second tip to move so as to clamp the cable drum, and a take-up driving mechanism is used for driving the first tip and/or the second tip to rotate so as to drive the cable drum to rotate; the cable end clamping mechanism is arranged on the first tip and/or the second tip, and one end of the cable end clamping mechanism extends into the cable drum. According to the cable drum take-up device with the optimized design, the cable end clamping mechanism is arranged on the top on one side, the clamping mechanism is located inside the cable drum after the cable is wound, the front end of the cable penetrates through the lead hole and then is clamped and fixed by the cable end clamping mechanism before the take-up is started, so that the automatic winding-up and take-up of the cable can be completed without manual auxiliary fixation, and the cable is guaranteed to be uniformly wound on the cable drum and is not loose.

In a specific embodiment of the chuck actuating mechanism, the chuck actuating mechanism comprises an active bearing seat 11, an active rotating shaft 12, an active center 13, a passive bearing seat 14, a passive rotating shaft 15 and a passive center 16; the cable end clamping mechanism comprises a driving bearing seat 11, a driven bearing seat 14, a driving rotating shaft 12, a driven rotating shaft 15, a cable end clamping mechanism and a cable end clamping mechanism, wherein the driving bearing seat 11 and the driven bearing seat 14 are arranged oppositely, the driving rotating shaft 12 and the driven rotating shaft 15 are coaxially and horizontally arranged and are respectively rotatably arranged on the driving bearing seat 11 and the driven bearing seat 14, a driving center 13 and a driven center 16 are arranged oppositely and are respectively arranged on the driving rotating shaft 12 and the driven rotating shaft 15, the cable end clamping mechanism is arranged on the driving rotating shaft 12, and an opening for accommodating the cable end clamping mechanism is formed in the middle of the driving center 13.

In the concrete design, through setting up cable end fixture in pivot one end, the position is placed in initiative pivot and top formation, reduces (holding) chuck actuating mechanism's space occupancy greatly, and the biggest reduction is convenient for reform transform current (holding) chuck actuating mechanism to the influence of current structure. Meanwhile, in the wire winding process, the cable end clamping mechanism rotates along with the cable disc and is arranged on the driving rotating shaft, and the integral consistency of rotation is improved.

Referring to fig. 3, in a specific design manner of the cable end clamping mechanism, the cable end clamping mechanism adopts a pneumatic clamping jaw 2, an air supply port is arranged on the pneumatic clamping jaw 2, and an air supply channel communicated with the air supply port is arranged on the active rotating shaft 12. The pneumatic clamping jaw is small in structure, and the air supply path is provided in the driving rotating shaft, so that the occupied space is further reduced.

Referring to fig. 4 and 5, in a further specific embodiment, the air supply channel is arranged coaxially with the driving rotating shaft 12, and the end of the air supply channel far away from the pneumatic clamping jaw 2 is provided with a pneumatic connector 3; the wire rewinding driving mechanism comprises a driving motor 41 and a transmission assembly, wherein the driving motor 41 is located at one side of the driving rotating shaft 12 and drives the driving rotating shaft 12 to rotate through the transmission assembly. The air supply channel and the driving rotating shaft are coaxially arranged, and one end, far away from the clamping jaw, of the driving rotating shaft is connected with the outside through the pneumatic connector, so that the air path and the outside are conveniently connected. And when rotating, the driving motor drives the driving rotating shaft to rotate through the transmission assembly on one side of the driving rotating shaft, the pneumatic connector ensures stable air supply of the air path, and further ensures stable clamping of the cable end when winding.

In practical design, the transmission assembly may include a driving turntable 42 and a synchronous belt 43, the driving turntable 42 is coaxially disposed on the output shaft of the driving motor 41, a toothed disc 44 coaxially disposed on the outer wall of the driving shaft 12, and the synchronous belt 43 sequentially bypasses the driving turntable 42 and the toothed disc 44.

In addition, in a specific design manner of the pneumatic clamping jaw, the pneumatic clamping jaw 2 comprises a clamp body 21, a first clamping arm 22, a second clamping arm 24 and a pneumatic piston 23;

a pneumatic space is arranged in the clamp body 21, the air supply port is arranged on the side wall of the pneumatic space, a through hole is formed in the pneumatic space, the pneumatic piston 23 is installed in the pneumatic space in a sliding and sealing mode, a driving rod 25 is arranged on the pneumatic piston 23, and one end, far away from the starting piston, of the driving rod 25 penetrates through the through hole and extends out of the pneumatic space; first arm lock 22 and second arm lock 24 are located respectively the through-hole both sides just can rotate respectively to be installed on anchor clamps body 21, are equipped with to the first waist shape hole that is close to the extension of actuating lever 25 direction on the first arm lock 22, are equipped with to the second waist shape hole that is close to the extension of actuating lever 25 direction on the second arm lock 24, and actuating lever 25 one side is equipped with the traveller with first waist shape hole and second waist shape hole sliding fit.

During clamping, the pneumatic space is supplied with air through the air circuit, and the piston drives the driving rod to drive the first clamping arm and the second clamping arm to rotate by adjusting air pressure in the pneumatic space, so that the clamping and the opening of the two clamping arms to the cable end are realized. Through the rotation centre gripping design of arm lock, the stroke of actuating lever restricts the turning moment of arm lock to when guaranteeing that the arm lock is stable to cable end centre gripping, avoid causing the damage to cable end transition centre gripping.

In a specific design manner of the driving center, the middle part of the driving center 13 is provided with two positioning protrusions 131, the two positioning protrusions 131 are respectively located at two sides of the opening, and one side of the positioning protrusion 131 close to the opening is provided with a groove for accommodating the pneumatic clamping jaw 2. The positioning bulge is matched with the through hole in the middle of the cable drum, the groove in the positioning bulge provides an opening space for the pneumatic clamping jaw, and meanwhile, when the pneumatic clamping jaw is opened, the inner wall of the cable drum is protected, and the clamping jaw is prevented from being opened to collide the cable drum.

Referring to fig. 6 to 8, in order to achieve automatic winding of a cable drum, in other specific embodiments, the winding device of this embodiment further includes a cable feeding assembly, the cable feeding assembly includes a base 51, a carriage 52 and a cable feeding member 53, the base 51 is located on one side of the clamping position, a slide rail extending in a direction away from the clamping position is disposed on the base 51, the carriage 52 is slidably mounted on the base 51 through the slide rail, the cable feeding member 53 is fixedly mounted on the carriage 52 and is disposed corresponding to the cable end clamping mechanism, and a through hole for a cable to pass through is disposed inside the cable feeding member 53. Before the wire is taken up, the wire feeding piece moves towards the direction of the cable tray along the sliding frame, the wire feeding piece feeds the front end of the cable into a threading hole of the cable tray, a cable end clamping mechanism in the cable tray is controlled to clamp the cable end, then the wire feeding piece returns, and finally the cable tray is driven to rotate through the chuck actuating mechanism to finish the wire taking up, so that the automatic wire taking up without manual assistance is realized.

In a specific design of the wire feeding member, the wire feeding member 53 has a tubular structure extending in the direction of the slide rail. The cable is positioned in the pipe body structure of the cable feeding piece, and the cable is protected during cable feeding.

In order to ensure that the wire feeding piece can accurately feed the cable end into the cable drum, the cable drum needs to be positioned in the direction during the disc feeding process, so that the lead hole on the cable drum faces the wire feeding piece. Therefore, the end plate of the cable drum 100 is provided with an identification hole 102 arranged corresponding to the lead wire hole 101, and the cable take-up device of the cable drum 100 further comprises a detection mechanism for the identification hole 102, wherein the detection mechanism is positioned at one side of the first apex or the second apex. During hanging the disc, the identification hole is detected through the detection mechanism, and then the position of the lead hole is detected.

In a specific selection mode of the detection mechanism, the detection mechanism can adopt an infrared probe.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (11)

1. A cable drum take-up device for taking up a cable drum (100) having a spool side wall with a lead hole (101), the take-up device comprising: the cable end clamping mechanism comprises a chuck actuating mechanism, a take-up driving mechanism, a cable end clamping mechanism and a chuck driving mechanism;

the cable disc clamping device comprises a chuck actuating mechanism, a chuck driving mechanism, a cable winding driving mechanism and a cable winding driving mechanism, wherein a first tip and a second tip which are oppositely arranged are arranged on the chuck actuating mechanism, a clamping position for clamping the cable disc (100) is formed between the first tip and the second tip, the chuck driving mechanism is used for driving the first tip and/or the second tip to move so as to clamp the cable disc (100), and the cable winding driving mechanism is used for driving the first tip and/or the second tip to rotate so as to drive the cable disc (100) to rotate; the cable end clamping mechanism is arranged on the first tip and/or the second tip, and one end of the cable end clamping mechanism extends into the cable drum (100).

2. The cable drum take-up device according to claim 1, wherein the chuck actuating mechanism comprises a driving bearing seat (11), a driving rotating shaft (12), a driving tip (13), a driven bearing seat (14), a driven rotating shaft (15) and a driven tip (16);

the cable end clamping mechanism comprises a driving bearing seat (11) and a driven bearing seat (14) which are arranged oppositely, a driving rotating shaft (12) and a driven rotating shaft (15) which are coaxially and horizontally arranged are respectively and rotatably arranged on the driving bearing seat (11) and the driven bearing seat (14), a driving tip (13) and a driven tip (16) which are oppositely arranged are respectively arranged on the driving rotating shaft (12) and the driven rotating shaft (15), a cable end clamping mechanism is arranged on the driving rotating shaft (12), and an opening for accommodating the cable end clamping mechanism is formed in the middle of the driving tip (13).

3. The cable drum take-up device as claimed in claim 2, wherein the cable end clamping mechanism is a pneumatic clamping jaw (2), the pneumatic clamping jaw (2) is provided with an air supply port, and the active rotating shaft (12) is provided with an air supply passage communicated with the air supply port.

4. The cable drum take-up device according to claim 3, characterized in that the gas supply channel is arranged coaxially with the active spindle (12), and a pneumatic joint (3) is provided at the end of the gas supply channel remote from the pneumatic clamping jaw (2);

the wire rewinding driving mechanism comprises a driving motor (41) and a transmission assembly, wherein the driving motor (41) is positioned on one side of the driving rotating shaft (12) and drives the driving rotating shaft (12) to rotate through the transmission assembly.

5. The cable drum take-up device as claimed in claim 4, wherein the transmission assembly comprises a driving turntable (42) and a synchronous belt (43), the driving turntable (42) is coaxially disposed on the output shaft of the driving motor (41), the outer wall of the driving rotating shaft (12) is provided with a toothed disc (44) coaxially disposed, and the synchronous belt (43) sequentially bypasses the driving turntable (42) and the toothed disc (44).

6. The cable drum take-up according to claim 3, characterized in that the pneumatic jaw (2) comprises a clamp body (21), a first clamping arm (22), a second clamping arm (24) and a pneumatic piston (23);

a pneumatic space is arranged in the clamp body (21), the air supply port is arranged on the side wall of the pneumatic space, a through hole is formed in the pneumatic space, the pneumatic piston (23) is installed in the pneumatic space in a sliding and sealing mode, a driving rod (25) is arranged on the pneumatic piston (23), and one end, far away from the starting piston, of the driving rod (25) penetrates through the through hole and extends out of the pneumatic space;

first arm lock (22) and second arm lock (24) are located respectively the through-hole both sides just are rotatable to be installed respectively on anchor clamps body (21), are equipped with on first arm lock (22) to being close to the first waist shape hole that actuating lever (25) direction extends, are equipped with on second arm lock (24) to being close to the second waist shape hole that actuating lever (25) direction extends, actuating lever (25) one side be equipped with first waist shape hole and second waist shape hole sliding fit's traveller.

7. The cable drum take-up device as claimed in claim 3, wherein the center of the driving center (13) is provided with two positioning protrusions (131), the two positioning protrusions (131) are respectively arranged at two sides of the opening, and one side of the positioning protrusion (131) close to the opening is provided with a groove for accommodating the pneumatic clamping jaw (2).

8. The cable drum take-up device as claimed in claim 1, further comprising a wire feeding assembly, wherein the wire feeding assembly comprises a base (51), a carriage (52) and a wire feeding member (53), the base (51) is located on one side of the clamping position, a slide rail extending in a direction away from the clamping position is arranged on the base (51), the carriage (52) is slidably mounted on the base (51) through the slide rail, the wire feeding member (53) is fixedly mounted on the carriage (52) and arranged corresponding to the cable end clamping mechanism, and a through hole for a cable to pass through is formed in the wire feeding member (53).

9. A drum take-up device as claimed in claim 8, wherein the wire feeding member (53) is of a tubular structure extending in the direction of the slide.

10. The cable drum take-up device of claim 1, wherein the end plate of the cable drum (100) is provided with an identification hole (102) arranged corresponding to the lead hole (101), and the cable drum take-up device (100) further comprises a detection mechanism for the identification hole (102), wherein the detection mechanism is positioned on one side of the first tip or the second tip.

11. A drum take-up as claimed in claim 10, characterised in that the detection means (6) employs an infrared probe.

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