CN212503380U

CN212503380U - A traction device for cable processing

Info

Publication number: CN212503380U
Application number: CN202021100198.8U
Authority: CN
Inventors: 陈世文
Original assignee: Guangdong Jinpai Cable Co ltd
Current assignee: Guangdong Golden Cable Group Co ltd
Priority date: 2020-06-15
Filing date: 2020-06-15
Publication date: 2021-02-09
Anticipated expiration: 2030-06-15

Abstract

The utility model belongs to the technical field of the pulling equipment, especially, draw gear is used in cable processing to current draw gear is used in cable processing, and its cable is through drawing and coiling work back, carries out the unloading through the manual work, in addition, can't carry out automatic connecing to the winding reel after the unloading, has wasted the problem of a large amount of time. The following scheme is proposed, and the device comprises a moving seat, wherein a first working plate is fixed on one side of the top of the moving seat, a second working plate which is connected to the moving seat in a sliding mode is arranged on one side of the first working plate, and a linear motor fixed on the moving seat is arranged behind the second working plate. The utility model discloses a pushing equipment realizes the automatic unloading work of winding drum, has reduced artificial intensity of labour, and is efficient, excellent in use effect, through receiving mechanism, makes things convenient for the staff to get material work fast to the winding drum of having convoluteed the cable, has practiced thrift a large amount of time, has improved production efficiency.

Description

Draw gear is used in cable processing

Technical Field

The utility model relates to a pulling equipment technical field especially relates to a draw gear is used in cable processing.

Background

The cable is made by one or more insulated conductors and outsourcing insulating protective layer, transmits electric power or information wire from one to another, in cable production process, needs to carry out the roll-up to the cable, conveniently carries the cable.

According to the existing traction device for cable processing, after cables are drawn and wound, blanking is carried out manually, so that the labor intensity is high, the efficiency is low, in addition, automatic material receiving can not be carried out on a winding drum after blanking, a large amount of time is wasted, the production efficiency is low, and therefore the traction device for cable processing is designed.

SUMMERY OF THE UTILITY MODEL

The utility model provides a pair of draw gear for cable processing has solved current draw gear for cable processing, and its cable is through drawing and coiling work back, carries out the unloading through the manual work, in addition, can't carry out automatic connecing to the winding reel after the unloading, has wasted the problem of a large amount of time.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a traction device for cable processing comprises a moving seat, wherein a first working plate is fixed on one side of the top of the moving seat, a second working plate which is connected to the moving seat in a sliding mode is arranged on one side of the first working plate, linear motors fixed to the moving seat are arranged behind the second working plate, the output ends of the two linear motors are connected with the second working plate, two lines of wire guide wheels which are arranged in parallel are connected to the positive end face of the second working plate in a rotating mode, a winding shaft which is connected to the first working plate in a rotating mode is arranged on one side of the wire guide wheels, a fixed disc is fixed on the outer side of the winding shaft, a winding drum which is movably sleeved on the winding shaft is arranged on one side of the fixed disc, a material receiving mechanism which is installed on the moving seat is arranged in front of the winding shaft, a hand-screwed nut is connected to the outer side, far away from the fixed disc, of the rear end face of the, and a controller is fixed on one side of the top of the first working plate.

Preferably, the pushing mechanism comprises a supporting plate fixed on the rear end face of the working plate, a movable plate is slidably connected to the top of the supporting plate, a sliding block is fixed to the bottom of the movable plate, two supporting rods arranged in parallel are fixed to one side of the movable plate, a sliding groove matched with the sliding block is formed in the supporting plate, a first threaded rod is connected to the inner wall of the sliding groove in a rotating mode, a second motor is fixed to the outer side of the supporting plate, an output shaft of the second motor is connected with the first threaded rod, a screw hole matched with the first threaded rod is formed in the sliding block, and a through hole.

Preferably, the transverse axis of the through hole coincides with the transverse axis of the first motor, the width of the through hole is larger than that of the cross section of the first motor, and the movable plate is provided with a through hole matched with the abutting rod.

Preferably, receiving mechanism is including fixing the fixed plate in removal seat top both sides, sliding connection has outer u type layer board between two fixed plates, be fixed with four fixed columns on the one side inner wall that outer u type layer board kept away from the opening part, the outside sliding connection of four fixed columns has interior u type layer board, be equipped with the cover between interior u type layer board and the outer u type layer board and establish the compression spring on the fixed column, the below of outer u type layer board is equipped with the connecting plate of fixing on outer u type layer board, the top embedding of connecting plate has pressure sensor, the equidistance is seted up flutedly on the lateral wall that interior u type layer board kept away from the opening part.

Preferably, the outer wall both sides of outer u type layer board all are fixed with the guide block, all set up on two fixed plates with two guide block matched with guide ways, the one end of two guide blocks all is fixed with the movable block, all set up on two fixed plates with two movable block matched with activity grooves, the equal threaded connection in inside of two movable blocks has threaded rod two, the both ends of two threaded rod two are all rotated and are connected with the fixed block, fixed block fixed mounting is on the lateral wall of fixed plate, two threaded rod two all extend to the outside of two fixed blocks, and be fixed with awl tooth one, one side of two awl tooth one all meshes and is connected with awl tooth two, be equipped with the double-shaft motor who fixes on removing the seat between two awl tooth two, two output shafts of double-shaft motor link to each other with two awl tooth two respectively, two output shafts of double-shaft motor rotate with two fixed.

Preferably, the movable groove is communicated with the guide groove, and the width of the movable groove is smaller than that of the guide groove.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the utility model discloses among the pushing equipment, in the backup pad, the fly leaf, support the pole, run through the mouth, under the cooperation of motor two and threaded rod one, start through motor two, make threaded rod one carry on clockwise, thereby the fly leaf that makes threaded rod one threaded connection's slider connect can drive and support the pole and move forward, thereby make and support the pole and wear out in the through hole in the working plate one, and contradict to the winding bobbin, make the winding bobbin slowly take off from the coiling epaxially, and fall in on U type layer board, thereby realize the automatic unloading work of winding bobbin, artificial intensity of labour has been reduced, high efficiency, excellent in use effect.

2. In the material receiving mechanism of the utility model, through the matching of the fixed plate, the outer u-shaped supporting plate, the fixed column, the compression spring, the connecting plate, the pressure sensor, the guide block, the movable groove, the threaded rod two, the fixed block, the bevel gear one, the bevel gear two, the double-shaft motor and the inner u-shaped supporting plate, and under the gravity action of the winding drum through the inner u-shaped supporting plate, the compression spring is compressed, the inner u-shaped supporting plate is used for abutting against the pressure sensor on the connecting plate, so that the pressure sensor transmits the signal to the controller, after the controller processes the signal, the signal is transmitted to the double-shaft motor, the double-shaft motor drives two output shafts to rotate clockwise, thereby the bevel gear two connected with the two output shafts respectively transmit the two bevel gears one, the threaded rod two connected with the two bevel gears respectively rotate in opposite directions, because the two threaded rods are respectively in threaded connection with the two, then its u type layer board can move down between two fixed plates, when falling to the lower extreme, makes things convenient for the staff to get the material work fast to the winding bobbin of coiling the good cable, has practiced thrift a large amount of times, has improved production efficiency.

Drawings

Fig. 1 is a schematic structural view of a front view of a traction device for cable processing according to the present invention;

fig. 2 is a schematic structural diagram of a left side view of a traction device for cable processing according to the present invention;

fig. 3 is a schematic structural view of a pushing mechanism of the traction device for cable processing in a top view;

fig. 4 is an enlarged schematic structural diagram of a of the traction device for cable processing according to the present invention.

In the figure: 1. a movable seat; 2. a first working plate; 3. a second working plate; 4. a wire guide wheel; 5. a winding shaft; 6. fixing the disc; 7. a winding drum; 8. screwing the nut by hand; 9. a first motor; 10. a material pushing mechanism; 1001. a support plate; 1002. a movable plate; 1003. a support rod; 1004. a through opening; 1005. a first threaded rod; 11. a material receiving mechanism; 1101. a fixing plate; 1102. an outer u-shaped pallet; 1103. fixing a column; 1104. a compression spring; 1105. a connecting plate; 1106. a pressure sensor; 1107. a guide block; 1108. a movable block; 1109. a movable groove; 1110. a second threaded rod; 1111. a fixed block; 1112. a first bevel gear; 1113. a second bevel gear; 1114. a double-shaft motor; 1115. an inner u-shaped supporting plate; 12. a linear motor; 13. and a controller.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

Referring to fig. 1-4, a traction device for cable processing comprises a movable base 1, a first working plate 2, a second working plate 3, a wire guide wheel 4, a winding shaft 5, a fixed disc 6, a winding drum 7, a hand-screwed nut 8, a first motor 9, a material pushing mechanism 10, a supporting plate 1001, a movable plate 1002, a resisting rod 1003, a through hole 1004, a first threaded rod 1005, a material receiving mechanism 11, a fixed plate 1101, an outer u-shaped supporting plate 1102, a fixed column 1103, a compression spring 1104, a connecting plate 1105, a pressure sensor 1106, a guide block 1107, a movable block 1108, a movable groove 1109, a second threaded rod 1110, a fixed block 1111, a first conical tooth 1112, a second conical tooth 1113, a double-shaft motor 1114, an inner u-shaped supporting plate 1115, a linear motor 12 and a controller 13, wherein the first working plate 2 is fixed on one side of the top of the movable base 1, the second working plate 3 slidably connected to the movable base 1 is arranged on one side of the first working plate 2, the linear motor 12, the output ends of two linear motors 12 are connected with a second working plate 3, the positive end surface of the second working plate 3 is rotatably connected with two lines of wire guide wheels 4 which are arranged in parallel, one side of each wire guide wheel 4 is provided with a winding shaft 5 which is rotatably connected with the first working plate 2, the outer side of each winding shaft 5 is fixedly provided with a fixed disc 6, one side of each fixed disc 6 is provided with a winding drum 7 which is movably sleeved on the winding shaft 5, the front part of each winding shaft 5 is provided with a material receiving mechanism 11 which is arranged on a movable seat 1, the outer side of each winding shaft 5 far away from the fixed disc 6 is connected with a hand nut 8 in a threaded manner, the rear end surface of the first working plate 2 is fixedly connected with a first motor 9, the output shaft of the first motor 9 is connected with the winding shaft 5, one side of the first motor 9 is provided with a material pushing mechanism 10 which is arranged on the first working plate, the output end of the controller 13 is electrically connected to the input end of the dual-shaft motor 1114.

Further, the pushing mechanism 10 includes a supporting plate 1001 fixed on the rear end face of the first working plate 2, a movable plate 1002 is slidably connected to the top of the supporting plate 1001, a slider is fixed to the bottom of the movable plate 1002, two parallel supporting rods 1003 are fixed to one side of the movable plate 1002, a sliding groove matched with the slider is formed in the supporting plate 1001, a first threaded rod 1005 is rotatably connected to the inner wall of the sliding groove, a second motor is fixed to the outer side of the supporting plate 1001, an output shaft of the second motor is connected with the first threaded rod 1005, a screw hole matched with the first threaded rod 1005 is formed in the slider, a through hole 1004 is formed in the movable plate 1002, and the through hole 1004 enables the first motor 9 to be sleeved when the movable plate 1002 moves to the position of the first motor 9 without affecting the movement of the movable plate 1002.

Further, the transverse axis of the through hole 1004 coincides with the transverse axis of the first motor 9, the width of the through hole 1004 is larger than the width of the cross section of the first motor 9, a through hole matched with the abutting rod 1003 is formed in the movable plate 1002, the abutting rod 1003 can move in the through hole, and the abutting rod 1003 can abut against the winding drum 7 conveniently when the movable plate 1002 moves.

Further, the material receiving mechanism 11 includes fixing plates 1101 fixed on both sides of the top of the moving seat 1, an outer u-shaped supporting plate 1102 is slidably connected between the two fixing plates 1101, four fixing posts 1103 are fixed on an inner wall of one side of the outer u-shaped supporting plate 1102 away from the opening, inner u-shaped supporting plates 1115 are slidably connected on outer sides of the four fixing posts 1103, a compression spring 1104 sleeved on the fixing posts 1103 is arranged between the inner u-shaped supporting plate 1115 and the outer u-shaped supporting plate 1102, a connecting plate 1105 fixed on the outer u-shaped supporting plate 1102 is arranged below the outer u-shaped supporting plate 1102, a pressure sensor 1106 is embedded in a top end of the connecting plate 1105, a groove is equidistantly formed in a side wall of the inner u-shaped supporting plate 1115 away from the opening, the type of the pressure sensor 1106 is TJL-1B, and the groove is arranged to prevent the winding drum 7.

Furthermore, two sides of the outer wall of the outer u-shaped supporting plate 1102 are both fixed with guide blocks 1107, two fixing plates 1101 are both provided with guide grooves matched with the two guide blocks 1107, one end of each of the two guide blocks 1107 is fixed with a movable block 1108, two fixing plates 1101 are both provided with movable grooves 1109 matched with the two movable blocks 1108, the insides of the two movable blocks 1108 are both connected with a second threaded rod 1110 in a threaded manner, two ends of the two second threaded rods 1110 are both connected with a fixing block 1111 in a rotating manner, the fixing block 1111 is fixedly installed on the side wall of the fixing plate 1101, the two second threaded rods 1110 extend to the outsides of the two fixing blocks 1111 and are fixed with a first conical tooth 1112, one side of the two first conical teeth 1112 is respectively connected with a second conical tooth 1113 in a meshing manner, a double-shaft motor 1114 fixed on the movable seat 1 is arranged between the two conical teeth 1113, two output shafts of the double-shaft motor 1114 are respectively connected with the two conical teeth 1113, the dual-shaft motor 1114 drives the two output shafts to rotate clockwise, so that the two bevel gears 1113 connected with the two output shafts respectively transmit the two bevel gears 1112, the two threaded rods 1110 connected with the two bevel gears 1112 rotate in opposite directions, and the two threaded rods 1110 are respectively in threaded connection with the two movable blocks 1108, so that the outer u-shaped supporting plate 1102 can move downwards between the two fixing plates 1101.

Furthermore, the movable slot 1109 is communicated with the guide slot, the width of the movable slot 1109 is smaller than that of the guide slot, and the movable block 1108 passes through the movable slot 1109 and is connected with one end of the guide block 1107.

The working principle is as follows: when a worker needs to wind a cable, the cable can firstly pass through the space between two lines of wire guide wheels 4 arranged in parallel, one end of the cable is fixed on the winding drum 7, meanwhile, the winding shaft 5 connected with the driving motor I9 drives the winding drum 7 arranged on the driving motor I9 to wind the cable, the linear motor 12 is started to push or pull the working plate II 3 to move back and forth on the moving seat 1 when the winding is carried out, so that the cable can be uniformly wound on the winding drum 7, when the cable is wound, and the winding drum 7 needs to be blanked, the hand-screwed nut 8 can be loosened firstly, and meanwhile, the threaded rod I1005 can be started by the motor II, so that the movable plate 1002 connected with the slider in threaded connection with the threaded rod I1005 can drive the abutting rod 1003 to move forward, so that the abutting rod 1003 penetrates out of the through hole in the first working plate 2 and abuts against the winding drum 7, so that the winding drum 7 slowly disengages from the winding shaft 5, when the pressing rod completely falls on the inner u-shaped supporting plate 1115, the inner u-shaped supporting plate 1115 is under the action of the gravity of the winding drum 7, the compression spring 1104 is compressed, the inner u-shaped supporting plate 1115 abuts against the pressure sensor 1106 on the connecting plate 1105, the pressure sensor 1106 sends a signal to the controller 13, the controller 13 processes the signal and sends the signal to the double-shaft motor 1114, the double-shaft motor 1114 drives the two output shafts to rotate clockwise, so that the two conical teeth 1113 connected with the two output shafts respectively transmit the two conical teeth 1112, the two threaded rods 1110 connected with the two conical teeth 1112 rotate in opposite directions respectively, and the two threaded rods 1110 are in threaded connection with the two movable blocks 1108 respectively, the outer u-shaped supporting plate 1102 can move downwards between the two fixing plates 1101, so that workers can conveniently and quickly take materials of the winding drum 7 wound with the cables, the labor intensity of the workers is reduced, the efficiency is high, and the working principle of the device is completed.

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

1. A traction device for cable processing comprises a moving seat (1) and is characterized in that a first working plate (2) is fixed on one side of the top of the moving seat (1), a second working plate (3) which is connected to the moving seat (1) in a sliding mode is arranged on one side of the first working plate (2), linear motors (12) which are fixed on the moving seat (1) are arranged behind the second working plate (3), the output ends of the two linear motors (12) are connected with the second working plate (3), two lines of wire wheels (4) which are arranged in parallel are connected to the positive end face of the second working plate (3) in a rotating mode, a winding shaft (5) which is connected to the first working plate (2) in a rotating mode is arranged on one side of each wire wheel (4), a fixed disc (6) is fixed on the outer side of each winding shaft (5), a winding drum (7) which is movably sleeved on each winding shaft (5) is arranged on one side of each fixed disc (6), a material receiving mechanism (11) which is, the outer side, far away from the fixed disc (6), of the winding shaft (5) is in threaded connection with a hand-screwed nut (8), the rear end face of the working plate I (2) is fixedly connected with a motor I (9), an output shaft of the motor I (9) is connected with the winding shaft (5), one side of the motor I (9) is provided with a material pushing mechanism (10) installed on the working plate I (2), and one side of the top of the working plate I (2) is fixed with a controller (13).

2. The traction device for cable processing as claimed in claim 1, wherein the pushing mechanism (10) comprises a supporting plate (1001) fixed on the rear end surface of the working plate I (2), a movable plate (1002) is slidably connected to the top of the supporting plate (1001), a slider is fixed to the bottom of the movable plate (1002), two parallel supporting rods (1003) are fixed to one side of the movable plate (1002), a sliding groove matched with the slider is formed in the supporting plate (1001), a threaded rod I (1005) is rotatably connected to the inner wall of the sliding groove, a motor II is fixed to the outer side of the supporting plate (1001), an output shaft of the motor II is connected with the threaded rod I (1005), a screw hole matched with the threaded rod I (1005) is formed in the slider, and a through hole (1004) is formed in the movable plate (1002).

3. The traction device for cable processing according to claim 2, wherein a transverse axis of the through hole (1004) coincides with a transverse axis of the first motor (9), a width of the through hole (1004) is larger than a width of a cross section of the first motor (9), and a through hole matched with the abutting rod (1003) is formed in the movable plate (1002).

4. The traction device for processing the cable according to claim 1, wherein the material receiving mechanism (11) comprises fixing plates (1101) fixed on two sides of the top of the movable seat (1), an outer u-shaped supporting plate (1102) is connected between the two fixing plates (1101) in a sliding manner, four fixing columns (1103) are fixed on an inner wall of one side of the outer u-shaped supporting plate (1102) far away from the opening, inner u-shaped supporting plates (1115) are connected on outer sides of the four fixing columns (1103) in a sliding manner, compression springs (1104) sleeved on the fixing columns (1103) are arranged between the inner u-shaped supporting plate (1115) and the outer u-shaped supporting plate (1102), a connecting plate (1105) fixed on the outer u-shaped supporting plate (1102) is arranged below the outer u-shaped supporting plate (1102), a pressure sensor (1106) is embedded in the top end of the connecting plate (1105), and grooves are formed in a side wall of the inner u.

5. The traction device for cable processing according to claim 4, wherein two sides of the outer wall of the outer u-shaped supporting plate (1102) are respectively fixed with a guide block (1107), two fixing plates (1101) are respectively provided with a guide groove matched with the two guide blocks (1107), one end of each of the two guide blocks (1107) is respectively fixed with a movable block (1108), two fixing plates (1101) are respectively provided with a movable groove (1109) matched with the two movable blocks (1108), the inner parts of the two movable blocks (1108) are respectively in threaded connection with a second threaded rod (1110), two ends of each second threaded rod (1110) are respectively in rotary connection with a fixing block (1111), the fixing blocks (1111) are fixedly arranged on the side wall of the fixing plates (1101), the two second threaded rods (1110) extend to the outer sides of the two fixing blocks (1111) and are respectively fixed with a first conical tooth (1112), one side of each first conical tooth (1112) is respectively in mesh connection with a second conical tooth (1113), a double-shaft motor (1114) fixed on the movable base (1) is arranged between the two second bevel gears (1113), two output shafts of the double-shaft motor (1114) are respectively connected with the two second bevel gears (1113), and two output shafts of the double-shaft motor (1114) are respectively connected with the two fixing plates (1101) in a rotating manner.

6. The drawing device for cable processing according to claim 5, wherein the movable groove (1109) communicates with the guide groove, and the width of the movable groove (1109) is smaller than that of the guide groove.