CN109319577B

CN109319577B - Wire feeding linkage wire coiling device

Info

Publication number: CN109319577B
Application number: CN201811075917.2A
Authority: CN
Inventors: 吴高波; 潘沛峰; 张军; 杨志义; 李刚; 郑坤力; 李龙达; 诸晓颖; 吴涛
Original assignee: Electric Power Engineering Installation Branch Of Ningbo Yongneng Electric Power Industry Investment Co ltd; Ningbo Power Supply Co of State Grid Zhejiang Electric Power Co Ltd
Current assignee: Electric Power Engineering Installation Branch Of Ningbo Yongneng Electric Power Industry Investment Co ltd; Ningbo Power Supply Co of State Grid Zhejiang Electric Power Co Ltd
Priority date: 2018-09-14
Filing date: 2018-09-14
Publication date: 2024-04-09
Anticipated expiration: 2038-09-14
Also published as: CN109319577A

Abstract

The invention provides a wire feeding linkage wire coiling device, which is characterized in that a motor and a reduction gearbox for controlling the rotating speed of the motor are arranged on a second frame, a driving wheel and a first driven wheel which is in transmission connection with the driving wheel are arranged on the motor, a lifting screw rod and a lifting speed reducing motor are arranged on the second frame, a second driven wheel is arranged on the lifting screw rod in a sliding manner, the second driven wheel is connected with the first driven wheel through a transmission chain, a cable drum is arranged on the periphery of the second driven wheel, a fourth installation shaft is also arranged on the second frame, a sliding groove is arranged on the fourth installation shaft, a third rotating shaft is arranged in the sliding groove in a sliding manner, a third limiting wheel is arranged on the third rotating shaft, the third rotating shaft is connected with the lifting screw rod through the third installation shaft, a fourth piston and a fourth piston shaft are arranged on the third installation shaft, a fifth piston is arranged on the fourth piston shaft, and the fourth rotating shaft is arranged in the sliding groove in the sliding manner, and a fourth limiting wheel is arranged on the fourth rotating shaft. The invention can effectively improve the efficiency and quality of the cable county line.

Description

Wire feeding linkage wire coiling device

Technical Field

The invention relates to the technical field of cable equipment, in particular to a wire feeding linkage wire coiling device.

Background

The cable is typically a rope-like cable stranded from several wires or groups of wires (at least two in each group), each group being insulated from each other and often twisted around a center, with a highly insulating coating over the entire outer surface. The cable has an inner energized, outer insulated feature. The cables include power cables, control cables, compensation cables, shield cables, high temperature cables, computer cables, signal cables, coaxial cables, fire resistant cables, marine cables, mining cables, aluminum alloy cables, and the like. They are composed of single or multi-strand wires and insulating layers for connecting circuits, appliances, etc. With the substantial increase in labor costs, the need for automated production machinery is becoming more and more urgent. The existing cable coiling device mainly passes through a winding bracket, needs manual auxiliary operation, has high labor intensity, and the surface of the winding bracket is easy to damage the surface of a cable, so that the service life of the cable is influenced. And the wire inlet angle can not be adjusted during winding, and the same wire inlet angle is adopted for cables with different toughness, so that the efficiency and quality of the cable coiling are greatly reduced.

Disclosure of Invention

The invention aims to provide a wire feeding linkage wire coiling device which can effectively improve the efficiency and quality of a cable coiling.

In order to achieve the above purpose, the invention adopts the following technical scheme: the utility model provides a send traditional thread binding to move linkage dish line device, includes first frame and second frame, install in the first frame and shell tangential machine, whole line machine and send traditional thread binding sensor, install the cable tray that is used for the dish line in the second frame, install the motor in the second frame, be equipped with the reducing gear box that is used for controlling motor rotational speed on the motor, install action wheel and the first follow driving wheel of being connected with the action wheel transmission on the motor, install the lift lead screw in the second frame, lift lead screw slidable mounting has the second to follow the driving wheel, the second follows the driving wheel and is connected with the first follow driving wheel through drive chain, the cable tray is installed in the periphery of second follow driving wheel, install the lift gear motor of control second follow driving wheel sliding speed on the lift lead screw, still install the fourth installation axle in the second frame, be equipped with the spout on the fourth installation axle, the slip is equipped with the third pivot in the spout, install the third spacing wheel in the third pivot, the third pivot is connected with the lift lead screw through the third installation axle, install the fourth piston is kept away from to fourth axis, install the fourth piston is located to fourth piston in the fourth axis, the fourth piston is installed to fourth piston is kept away from to fourth axis.

Further, a third spring is arranged between the fourth piston and the fifth piston, and the third spring is sleeved on the periphery of the fourth piston shaft.

Further, whole line machine includes first installation axle, axle sleeve, mounting panel, first pivot and first spacing wheel, first installation axle is installed in first frame and is equipped with two, the mounting panel is installed between two first installation axles and the both ends of mounting panel are all fixed at the periphery of first installation axle through the axle sleeve, be equipped with a plurality of first pivots on the mounting panel, first spacing wheel is all installed in the first pivot.

Further, still be equipped with direction supporting mechanism between first frame and the second frame, direction supporting mechanism includes second installation axle, spacing case, transmission cavity and transmission mouth, spacing case is installed on the second installation axle, the transmission mouth is equipped with a pair of, and one of them locates spacing case and is close to one side of first frame, and another locates spacing case and is close to one side of second frame, the third piston is installed to the bottom of transmission cavity, install the third piston axle on the third piston, install the second pivot on the third piston axle, the second spacing wheel is installed to the periphery of second pivot.

Further, the guide supporting mechanism further comprises a first piston, a first piston shaft, a second piston shaft and a first limiting plate, the first limiting plate is arranged at the lower end of the second installation shaft, the second piston shaft is arranged at one side of the first limiting plate far away from the second installation shaft, the second piston is arranged at one side of the second piston shaft far away from the first limiting plate, the first piston shaft is arranged at one side of the second piston far away from the second piston shaft, and the first piston is arranged at one side of the first piston shaft far away from the second piston.

Further, a first spring is arranged between the first limiting plate and the second piston, and the first spring is sleeved on the periphery of the second piston shaft.

After the technical scheme is adopted, the invention has the following advantages:

1. when the cable wire stripping machine is used, the cable is stripped and tangent line processed by the wire stripping machine, the cable is then tidied by the wire stripping machine, the wire feeding condition is detected by the wire feeding sensor, then the cable is fed between the third limiting wheel and the fourth limiting wheel, the limiting operation of the cable is realized by the third limiting wheel and the fourth limiting wheel, the control of the wire feeding path of the cable is realized, and when the cable is fed between the third limiting wheel and the fourth limiting wheel, the buffer effect generated by the cooperation of the fourth piston, the fourth piston shaft and the fifth piston realizes the coiling speed of the cable drum, the lifting efficiency and the quality of the cable drum are improved, the cable drum can be effectively prevented from being damaged in the limiting process when the cable is limited, the cable drum is fed through the periphery of the cable drum after the cable passes through the third limiting wheel and the fourth limiting wheel, the first driven wheel is driven by the motor to rotate, the first driven wheel is driven by the first driven wheel to rotate under the action of the driving chain, the coiling operation of the cable drum is realized, the rotating speed of the motor is controlled by the reduction box, the coiling speed of the cable drum is further realized, the lifting efficiency and the quality of the cable drum is improved, the cable drum is effectively improved, the lifting efficiency of the cable drum is also can be adjusted, the cable drum is different in the winding angle is adjusted, and the cable drum is different in angle is provided.

2. Through set up the third spring between fourth piston and fifth piston, and cup joint the third spring in the periphery of fourth piston axle, realized the buffering of third spacing wheel and fourth spacing wheel pair cable extrusion force by the third spring, effectively avoid the damage of extrusion force to the cable.

3. The cable conductor removes between first spacing wheel, and the in-process that the cable conductor removed, first spacing wheel rotate, and the rotation of first spacing wheel realizes the adjustment to cable conductor travel path, has realized the crookedness to the cable through setting up a plurality of first spacing wheels simultaneously and has been put in order, has effectively improved cable inlet wire's efficiency and quality.

4. Through setting up direction supporting mechanism between first frame and second frame, realize the support and the guide effect to cable conductor transmission process by direction supporting mechanism, the cable conductor passes in and out by the transmission mouth, then realizes the guide effect of cable conductor removal process by the rotation of second spacing wheel to realized the cable conductor and supported and the effect of direction by direction supporting mechanism between first frame to the first frame, improved the stability that the cable conductor was sent line, guaranteed that the cable conductor carries out the wire winding operation with high efficiency.

5. Through installing second piston, second piston axle and first piston axle in second installation axle lower extreme, first piston axle can be flexible in first piston, has realized the regulation of spacing case vertical direction height to satisfy the demand that the difference was sent line height, simultaneously, the second piston axle is flexible in the second piston, has realized the in-process that the cable conductor is moving, and the second piston axle can absorb the vibrations that the cable conductor removed, has improved the efficiency that the cable conductor was sent line.

6. The buffer action of the first spring can further improve the shock absorption to the movement of the cable, and the efficiency of the cable feeding is improved.

Drawings

The invention is further described below with reference to the accompanying drawings:

fig. 1 is a schematic front view of a wire feeding linkage wire coiling device according to a first embodiment of the present invention;

fig. 2 is a schematic diagram of a front view structure of a wire arranging machine in a wire feeding linkage wire coiling device according to an embodiment of the present invention;

fig. 3 is a schematic front view of a guiding and supporting mechanism in a wire feeding linkage wire coiling device according to a first embodiment of the present invention;

FIG. 4 is an enlarged partial schematic view of FIG. 1 at A;

the names of the components marked in the figure are as follows:

1-a first frame, 2-a wire stripping and cutting machine, 3-a wire straightening machine, 4-a guide supporting mechanism, 5-a wire feeding sensor, 6-a second frame, 7-a variable frequency controller, 8-a reduction gearbox, 9-a motor, 10-a driving wheel, 11-a fourth mounting shaft, 12-a first driven wheel, 13-a transmission chain, 14-a second driven wheel, 15-a cable drum, 16-a lifting screw rod, 17-a lifting speed reducing motor, 18-a third mounting shaft, 19-a third rotating shaft, 20-a third limiting wheel, 21-a fourth piston, 22-a third spring, 23-a fourth piston shaft, 24-a fifth piston, 25-a fourth rotating shaft, 26-a fourth limiting wheel and 27-a sliding groove,

301-first mounting shaft, 302-shaft sleeve, 303-mounting plate, 304-first rotating shaft, 305-first limit wheel,

401-first piston, 402-first piston shaft, 403-second piston, 404-second piston shaft, 405-first spring, 406-first limit plate, 407-second mounting shaft, 408-limit box, 409-transmission chamber, 410-third piston, 411-third piston shaft, 412-second rotating shaft, 413-second limit wheel.

Detailed Description

The invention will be further described with reference to the drawings and the specific examples. It is to be understood that the terms "upper," "lower," "left," "right," "longitudinal," "transverse," "inner," "outer," "vertical," "horizontal," "top," "bottom," and the like, as used herein, are merely based on the orientation or positional relationship shown in the drawings and are merely for convenience in describing the present invention and to simplify the description, and do not indicate or imply that the devices/elements referred to must have or be configured and operated in a particular orientation and therefore should not be construed as limiting the invention.

Example 1

As shown in fig. 1-4, the invention provides a wire feeding linkage wire coiling device, which comprises a first rack 1 and a second rack 6, wherein a wire stripping and cutting machine 2, a wire straightening machine 3 and a wire feeding sensor 5 are arranged on the first rack 1, a wire coiling 15 for coiling wires is arranged on the second rack 6, a motor 9 is arranged on the second rack 6, a reduction gearbox 8 for controlling the rotating speed of the motor 9 is arranged on the motor 9, a driving wheel 10 and a first driven wheel 12 in transmission connection with the driving wheel 12 are arranged on the motor 9, a lifting screw 16 is arranged on the second rack 6, a second driven wheel 14 is arranged on the lifting screw 16 in a sliding manner, the second driven wheel 14 is connected with the first driven wheel 12 through a transmission chain 13, a lifting speed reducing motor 17 for controlling the sliding speed of the second driven wheel 14 is arranged on the lifting screw 16, a fourth mounting shaft 11 is also arranged on the second rack 6, a sliding chute 27 is arranged on the fourth mounting shaft 11, a third sliding shaft 27 is arranged on the fourth mounting shaft 27, a fourth sliding shaft 21 is arranged on the fourth sliding shaft 24 and is arranged on the fourth shaft 25, a fourth piston 18 is arranged on the fourth side, and is far away from the fourth shaft 25, and is arranged on the fourth shaft 25 sliding shaft 25. When in use, the cable is firstly stripped and cut by the wire stripping and cutting machine, then is tidied by the wire tidying machine, the wire feeding condition of the cable is detected by the wire feeding sensor 5, then enters between the third limiting wheel 20 and the fourth limiting wheel 26, the third limiting wheel 20 and the fourth limiting wheel 26 realize the limiting of the cable, the control of the wire feeding path of the cable is realized, when the cable enters between the third limiting wheel 20 and the fourth limiting wheel 26, the buffer effect generated by the cooperation of the fourth piston 21, the fourth piston shaft 23 and the fifth piston 24 realizes the damage to the cable in the limiting process of the cable by the third limiting wheel 20 and the fourth limiting wheel 26, after the cable passes through the space between the third spacing wheel 20 and the fourth spacing wheel 26, enter the periphery of the cable drum 15, the driving wheel 10 is driven by the motor 9 to drive the first driven wheel 12 to rotate, then the first driven wheel 12 drives the cable drum 15 to rotate under the action of the transmission chain 13, the coiling operation of the cable is realized, the rotating speed of the motor 9 is controlled by the reduction gearbox 8 in the coiling process of the cable drum 15, the speed of the cable drum 15 coiling the cable is further realized, the efficiency and the quality of the cable drum wire are improved, the lifting screw 16 is used for driving the cable drum 15 to adjust the height in the vertical direction, the adjustment of the winding angle of the cable drum 15 is realized, different winding angles can be provided according to different toughness of the cable wires, and the efficiency of the cable drum wire is effectively improved.

In this embodiment, a third spring 22 is disposed between the fourth piston 21 and the fifth piston 24, and the third spring 22 is sleeved on the outer periphery of the fourth piston shaft 23. Through setting up third spring 22 between fourth piston 21 and fifth piston 24, and cup joint third spring 22 in the periphery of fourth piston shaft 23, realized the buffering of third spacing wheel 20 and fourth spacing wheel 26 to the cable extrusion force by third spring 22, effectively avoid the damage of extrusion force to the cable.

In this embodiment, the wire arranging machine 3 includes a first mounting shaft 301, a shaft sleeve 302, a mounting plate 303, a first rotating shaft 304 and first limiting wheels 305, the first mounting shaft 301 is mounted on the first frame 1 and is provided with two mounting plates, the mounting plate 303 is mounted between the two first mounting shafts 301, two ends of the mounting plate are fixed on the periphery of the first mounting shaft 301 through the shaft sleeve 302, a plurality of first rotating shafts 304 are arranged on the mounting plate 303, and the first limiting wheels 305 are mounted on the first rotating shafts 304. The cable conductor removes between first spacing wheel 305, and the in-process that the cable conductor removed, first spacing wheel 305 rotate, and the rotation of first spacing wheel 305 realizes the adjustment to cable conductor travel path, has realized the crookedness to the cable through setting up a plurality of first spacing wheels 305 simultaneously and has been put in order, has effectively improved cable inlet wire's efficiency and quality. It can be appreciated that the first limiting wheels 305 are provided with a plurality of limiting wheels to realize more stable wire arrangement operation on the cable wires, and improve the wire arrangement efficiency.

In this embodiment, a guiding and supporting mechanism 4 is further disposed between the first frame 1 and the second frame 6, the guiding and supporting mechanism 4 includes a second mounting shaft 407, a limit box 408, a transmission chamber 409 and a transmission port 414, the limit box 408 is mounted on the second mounting shaft 407, the transmission port 414 is provided with a pair, one of the transmission ports is disposed on one side of the limit box 408 near the first frame 1, the other one is disposed on one side of the limit box 408 near the second frame 6, a third piston 404 is mounted at the bottom of the transmission chamber 409, a third piston shaft 411 is mounted on the third piston 404, a second rotating shaft 412 is mounted on the third piston shaft 411, and a second limiting wheel 413 is mounted on the periphery of the second rotating shaft 412. Through setting up direction supporting mechanism 4 between first frame 1 and second frame 6, realize the support and the guide effect to the cable conductor transmission process by direction supporting mechanism 4, the cable conductor passes in and out by transmission mouth 414, then by the rotatory guide effect that realizes the cable conductor removal process of second spacing wheel 413 to realized the cable conductor and supported and the effect of direction by direction supporting mechanism 4 between first frame 1 to first frame 6, improved the stability that the cable conductor was sent line, guaranteed that the cable conductor carries out the wire winding operation with high efficiency.

In this embodiment, the guiding support mechanism 4 further includes a first piston 401, a first piston shaft 402, a second piston 403, a second piston shaft 404, and a first limiting plate 406, where the first limiting plate 406 is installed at a lower end of the second installation shaft 407, the second piston shaft 404 is installed at a side of the first limiting plate 406 away from the second installation shaft 407, the second piston 403 is installed at a side of the second piston shaft 404 away from the first limiting plate 406, the first piston shaft 402 is installed at a side of the second piston 403 away from the second piston shaft 404, and the first piston 401 is installed at a side of the first piston shaft 402 away from the second piston 403. Through installing second piston 403, second piston shaft 404 and first piston 401 and first piston shaft 402 at second installation shaft 407 lower extreme, first piston shaft 402 can stretch out and draw back in first piston 401, has realized the regulation of the vertical direction height of spacing case 408 to satisfy the demand of different send line heights, simultaneously, second piston shaft 404 stretches out and draws back in second piston 403, has realized the in-process that the cable conductor is moving, and second piston shaft 402 can absorb the vibrations that the cable conductor removed, has improved the efficiency that the cable conductor sent line.

In this embodiment, a first spring 405 is disposed between the first limiting plate 405 and the second piston 403, and the first spring 405 is sleeved on the outer periphery of the second piston shaft 404. The buffer function of the first spring 405 can further improve the shock absorption to the movement of the cable, and improve the efficiency of the cable feeding.

In addition to the above preferred embodiments, the present invention has other embodiments, and various changes and modifications may be made by those skilled in the art without departing from the spirit of the invention, which is defined in the appended claims.

Claims

1. The wire feeding linkage wire coiling device comprises a first rack and a second rack, wherein a wire stripping and cutting machine, a wire arranging machine and a wire feeding sensor are arranged on the first rack, a cable coil for coiling is arranged on the second rack;

a third spring is arranged between the fourth piston and the fifth piston, and the third spring is sleeved on the periphery of the fourth piston shaft;

the wire straightening machine comprises a first mounting shaft, a shaft sleeve, a mounting plate, a first rotating shaft and first limiting wheels, wherein the first mounting shaft is arranged on a first rack and is provided with two mounting plates, the mounting plate is arranged between the two first mounting shafts, two ends of the mounting plate are fixed on the periphery of the first mounting shaft through the shaft sleeve, a plurality of first rotating shafts are arranged on the mounting plate, and the first limiting wheels are arranged on the first rotating shafts.

2. The wire feeding linkage wire coiling device according to claim 1, wherein a guide supporting mechanism is further arranged between the first frame and the second frame, the guide supporting mechanism comprises a second installation shaft, a limiting box, a transmission cavity and a transmission port, the limiting box is installed on the second installation shaft, the transmission port is provided with a pair, one of the transmission ports is arranged on one side of the limiting box, which is close to the first frame, the other one is arranged on one side of the limiting box, which is close to the second frame, a third piston is installed at the bottom of the transmission cavity, a third piston shaft is installed on the third piston shaft, a second rotating shaft is installed on the third piston shaft, and a second limiting wheel is installed on the periphery of the second rotating shaft.

3. The wire feeding linkage wire coiling device of claim 2, wherein the guide support mechanism further comprises a first piston, a first piston shaft, a second piston shaft and a first limiting plate, the first limiting plate is mounted at the lower end of the second mounting shaft, the second piston shaft is mounted at one side of the first limiting plate away from the second mounting shaft, the second piston is mounted at one side of the second piston shaft away from the first limiting plate, the first piston shaft is mounted at one side of the second piston away from the second piston shaft, and the first piston is mounted at one side of the first piston shaft away from the second piston.

4. The wire feeding linkage wire coiling device as in claim 3, wherein a first spring is arranged between the first limiting plate and the second piston, and the first spring is sleeved on the periphery of the second piston shaft.