CN106602819B

CN106602819B - Processing device of motor barrel

Info

Publication number: CN106602819B
Application number: CN201710101512.0A
Authority: CN
Inventors: 马有征
Original assignee: Dongguan Ante Hardware Plastic Products Co ltd
Current assignee: Dongguan Ante Hardware Plastic Products Co ltd
Priority date: 2017-02-24
Filing date: 2017-02-24
Publication date: 2023-06-16
Anticipated expiration: 2037-02-24
Also published as: CN106602819A

Abstract

The invention provides a processing device of a motor cylinder, and belongs to the technical field of motor processing equipment. It has solved the lower problem of current motor barrel machining efficiency. The machining device of the motor machine barrel comprises a frame, wherein a working table plate is fixedly connected to the frame, a moving plate is connected to the frame in a sliding manner, a positioning seat is rotationally connected to the moving plate, a avoidance gap is formed in the positioning seat, a positioning structure is arranged on the positioning seat, a lifting frame is slidingly connected to the frame, an upper tool bit and a lower tool bit are respectively rotationally connected to the lifting frame, a transverse control piece capable of driving the moving plate to move so that the upper tool bit is embedded into the avoidance gap is arranged between the frame and the moving plate, and a longitudinal control piece capable of driving the lifting frame to ascend and descend is arranged on the frame. The processing device of the motor cylinder can clamp holes and ports for trimming once, and is high in efficiency.

Description

Processing device of motor barrel

Technical Field

The invention belongs to the technical field of motor processing equipment, and relates to a processing device of a motor cylinder.

Background

The motor is an electromagnetic device for converting or transmitting electric energy according to the law of electromagnetic induction, and has the main function of generating driving torque, and is widely used in the field of machinery as a power source of electric appliances or various machines, and the types of the motor are also various. The motor typically includes a barrel, a rotor, etc., wherein the motor barrel is typically made of plastic as shown in fig. 1, one end of the motor barrel 8 is open, a sealing cover is required after the rotor, etc., is installed, and a wire outlet hole 81 for wire to pass out is provided at the rear end, so that the end face of the port needs to be trimmed after the motor barrel 8 is injection molded to improve the sealing property and connection reliability, and the bottom needs to be perforated, which is currently performed separately, resulting in lower processing efficiency.

Disclosure of Invention

The invention aims to solve the problems in the prior art, and provides a processing device of a motor cylinder, which can be used for punching holes and trimming ports by one-time clamping and has high efficiency.

The aim of the invention can be achieved by the following technical scheme: the utility model provides a processingequipment of motor barrel, includes the frame, the workstation board has been linked firmly in the frame, its characterized in that still has the movable plate along horizontal direction sliding connection in the frame, it is connected with the positioning seat to rotate on the movable plate, and this positioning seat is the tube-shape, and the opening of positioning seat down has been seted up on the up end of positioning seat, be equipped with on the positioning seat and dodge the breach, can be with the fixed location structure of motor barrel when the bottom of motor barrel inserts, there is the crane along vertical direction sliding connection in the frame, rotate respectively on the crane and be connected with last tool bit and lower tool bit, it is located the top of workstation board to go up the tool bit, the tool bit is located the below of workstation board down, be equipped with on the crane and drive last tool bit and lower tool bit pivoted driving motor simultaneously, works as the positioning seat moves to workstation board top and down the tool bit can pass on the port terminal surface of motor barrel and support and dodge the breach, work bench and the frame down and be equipped with and move down the tool bit that can drive the horizontal manipulator that can dodge of tool bit that makes between the movable plate and the frame and the movable plate and drive down.

During processing, the bottom of the motor barrel is upwards, the opening is downwards, the bottom of the motor barrel is inserted into the positioning seat, the motor barrel is fixed through the positioning structure when the bottom of the motor barrel is propped against the bottom of the positioning seat, the lifting frame is in an ascending state, namely, the lower cutter head upwards extends out of the working platen, the hand-push moving plate is high in speed, when the moving plate moves to the upper side of the working platen, the lower cutter head cuts the port end face of the motor barrel, then the positioning seat is manually rotated, the lower cutter head circumferentially cuts the port end face of the motor barrel, finishing of the port end face of the motor barrel is achieved, after finishing trimming, the lifting frame is enabled to descend through the longitudinal operating member, namely, the lower cutter head descends to the lower side of the working platen and is not contacted with the motor barrel, the upper cutter head descends to the side of the positioning seat and is opposite to the avoidance notch, at the moment, the upper cutter head is enabled to slowly and stably move gradually to be embedded into the avoidance notch, namely, the upper cutter head is enabled to be cut into the bottom face of the motor barrel along the radial direction by the side wall of the bottom of the motor barrel, the bottom face of the motor barrel, the hole is cut is formed, the movable plate is reset after finishing, the hole is finished, the motor is conveniently and fast is high in efficiency.

In the processing device of the motor barrel, the moving plate is provided with the circular connecting hole, the positioning seat is inserted into the connecting hole, two arc-shaped guide rods are fixedly connected to the upper side face of the moving plate through the connecting seat, the two guide rods are symmetrically arranged, the two guide rods and the connecting hole are coaxially arranged, the guide seat is arranged on the peripheral wall of the positioning seat in a sliding mode, the guide seat is slidably sleeved on the guide rod, the guide rod is further sleeved with a reset spring, one end of the reset spring is abutted to the guide seat, the other end of the reset spring is abutted to the connecting seat, and the first handle is fixedly connected to the peripheral wall of the positioning seat. The guide holder is matched with the guide rod, namely, the guide holder is supported, the guide holder is enabled to rotate more stably, the end face of a port of the motor cylinder is repaired, the guide holder can automatically reset and rotate under the action of the reset spring, and the avoidance notch is enabled to return to a set position.

In the processing device of the motor barrel, the positioning structure comprises a plurality of arc-shaped positioning plates, a strip-shaped push plate is fixedly connected to the convex surface of each positioning plate, a plurality of strip-shaped guide holes are circumferentially formed in the peripheral wall of each positioning seat, each positioning plate is arranged in each positioning seat, the push plate is slidably inserted into each guide hole, the concave surfaces of the positioning plates face the central position of each positioning seat, a buffer layer is fixedly connected to the concave surfaces of the positioning plates, and an operating ring capable of driving the positioning plates to move towards the centers of the positioning seats simultaneously is further arranged on each positioning seat in a rotating mode. The control ring is rotated, so that the plurality of pushing plates can move inwards in the radial direction, the plurality of positioning plates can be simultaneously propped against the outer wall of the motor cylinder, so that the motor cylinder is held tightly, and the plurality of positioning plates are uniformly distributed in the circumferential direction, so that the motor cylinder is uniformly stressed, and the damage to the motor cylinder due to local excessive extrusion is avoided.

In the processing device of the motor cylinder, the annular groove is circumferentially formed in the peripheral wall of the positioning seat, the control ring is rotationally sleeved in the annular groove, a plurality of guide posts are vertically arranged on the upper end face of the control ring, long-strip-shaped guide grooves are formed in the pushing plates, the distance from the guide grooves to the axial lead of the positioning seat is gradually increased from one end to the other end, a plurality of guide posts are in one-to-one correspondence with a plurality of pushing plates, the guide posts are slidably inserted in the guide grooves, a locking rod is hinged to the peripheral wall of the control ring and can swing up and down, a limiting block is arranged on the peripheral wall of the positioning seat, the locking rod can swing downwards and abut against the limiting block when the control ring rotates to enable the positioning plate to be pressed on the motor cylinder, a reset tension spring is fixedly connected to the outer wall of the positioning seat, and the end part of the reset tension spring is fixedly connected to the control ring, and can reset and rotate under the effect of the reset tension spring when the locking rod is separated from the limiting block. When the control ring rotates, the guide post can slide along the guide groove of the push plate, and because the radial position of the positioning post is unchanged, the guide post can push the push plate, so that the positioning plate moves, the positioning plate presses the motor cylinder and then pulls the locking rod downwards, the locking rod abuts against the limiting block, the fixation of the motor cylinder is realized, the locking rod is pulled upwards after the port of the motor cylinder is trimmed, and the control ring can reset and rotate under the action of the reset tension spring.

In the processing device of the motor barrel, the lifting frame comprises a lifting plate which is vertically arranged, two ends of the lifting plate are vertically provided with plate-shaped supporting parts, an upper rotating sleeve is arranged on the supporting parts above and is rotationally connected with the lifting plate through a bearing, an upper cutter head is inserted into the upper rotating sleeve and is locked and fixed through bolts, three lower rotating sleeves are rotationally connected to the supporting parts below, the connecting lines of the three lower rotating sleeves are in an equilateral triangle shape, the lower cutter heads are three, the three lower cutter heads are respectively inserted into the three lower rotating sleeves and are locked and fixed through bolts, three through holes are formed in the workbench plate, and the lower cutter heads can upwards extend out of the through holes when the lifting frame ascends. The three lower tool bits are distributed circumferentially relative to the motor cylinder, so that the rotating angle of the positioning seat is reduced.

In the processing device of the motor barrel, the driving motor is fixedly connected to the upper side face of the upper supporting part, the transmission shaft is rotationally connected to the side face of the lifting plate and is vertically arranged, a motor shaft of the driving motor is fixedly connected to the upper end of the transmission shaft, driving pulleys are fixedly connected to two ends of the transmission shaft, driven pulleys are fixedly connected to the upper rotating sleeve and one of the lower rotating sleeves, the driven pulleys on the upper rotating sleeve are connected with the driving pulleys on the upper side through a belt, the driven pulleys on the lower rotating sleeve are connected with the driving pulleys on the lower side through a belt, intermediate pulleys are fixedly connected to the lower rotating sleeve, and the intermediate pulleys of the two adjacent lower rotating sleeves are connected through a belt. The upper cutter head and the three lower cutter heads are driven by the driving motor, so that a power source is reduced, and synchronism can be ensured.

In the processing device of the motor machine barrel, the longitudinal control piece comprises a handle II, two support plates are vertically and fixedly connected to the frame, the two support plates are arranged in parallel, two side faces of the two support plates are vertically and fixedly connected with a first sliding rail, two edges of the lifting plate are fixedly connected with a first sliding block, the first sliding block is connected to the first sliding rail in a sliding way, the support plate is rotationally connected with a longitudinal control shaft, the handle II is fixedly connected to one end of the longitudinal control shaft, the other end of the longitudinal control shaft is fixedly connected with a longitudinal winding wheel, the longitudinal winding wheel is wound with a longitudinal pull rope, the free end of the longitudinal pull rope is upwards and fixedly connected to the lifting plate, the outer side face of the support plate is vertically and fixedly connected with a second sliding rail, the second sliding rail is fixedly connected with a balancing weight through the second sliding block, the upper edge of the support plate is hinged with a guide wheel, and the traction rope bypasses the guide wheel and is fixedly connected to the support part above. The lifting frame is in sliding connection between the two support plates, so that the lifting frame is kept stable, the lifting frame can automatically ascend under the action of the balancing weight, and the lifting frame is driven to descend by rotating the longitudinal winding wheel through the handle II when the bottom of the motor cylinder is required to be perforated.

In the processing device of the motor machine barrel, two guide shafts are horizontally and fixedly connected to the frame, the two guide shafts are located above the working table plate, a guide sleeve is fixedly connected to the lower side face of the moving plate, the guide sleeve is slidably sleeved on the guide shaft, the transverse operation member comprises a handle III, the transverse operation shaft is rotationally connected to the frame, the handle III is fixedly connected to one end of the transverse operation shaft, the other end of the transverse operation shaft is provided with a disc-shaped portion, a clamping groove is formed in the end face of the disc-shaped portion in the radial direction, one end of the clamping groove penetrates through the peripheral wall of the disc-shaped portion, when the moving plate moves and abuts against the end face of the port of the motor machine barrel, and a transmission member capable of driving the moving plate to move when the transverse operation shaft rotates is further arranged between the moving plate and the disc-shaped portion. The guide shaft supports and guides the movable plate, so that the positioning seat is kept stable, when the movable plate abuts against the disc-shaped part, the end face of the port of the motor barrel is just opposite to the lower tool bit, and when the hole is needed to be drilled, the handle III is rotated, and the disc-shaped part enables the movable plate to slowly move through the transmission piece.

In the processing device of the motor barrel, the transmission piece comprises a telescopic rod, the guide pipe is horizontally and fixedly connected to the moving plate, one end of the telescopic rod is slidably inserted into the guide pipe, a pushing spring is further arranged in the guide pipe, one end of the pushing spring is fixedly connected to the inner end of the guide pipe, the other end of the pushing spring is fixedly connected to the inner end of the telescopic rod, the outer end of the telescopic rod is hinged to a transverse winding wheel, a transverse pull rope is wound on the transverse winding wheel, the free end of the transverse pull rope is fixedly connected to the guide pipe, a strip-shaped clamping block is further arranged on the end face of the transverse winding wheel, and the clamping block can be clamped into the clamping groove of the disc-shaped portion when the end face of the port of the motor barrel is opposite to the lower cutter head. The movable plate is propped against the disc-shaped part through the clamping block, the clamping block is inserted into the clamping groove at the moment, the transverse winding wheel can be driven to rotate when the disc-shaped part is rotated, so that the transverse pull rope is wound, the telescopic rod moves relative to the guide tube, the movable plate is moved, and the movable plate can be reset and moved by the pushing spring when the handle is reversely rotated.

In the processing device of the motor barrel, the width of the clamping groove is larger than that of the clamping block, positioning grooves are formed in two side faces of the clamping block, positioning parts are arranged on two groove walls of the clamping groove, and when the transverse operation shaft rotates, the positioning parts can be propped against the positioning grooves. When the disc-shaped part rotates, the positioning part is abutted into the positioning groove in advance, so that the clamping block is fixed with the disc-shaped part.

Compared with the prior art, the processing device of the motor barrel has the following advantages:

1. because the lower tool bit can carry out circumference cutting to the port terminal surface of motor barrel, realize the port terminal surface of motor barrel and repair, and go up the tool bit and descend to the positioning seat lateral part to insert gradually and dodge the breach, thereby carry out the trompil to the bottom surface of motor barrel, convenient operation is swift, and efficiency is higher.

2. The lifting frame is lowered through the longitudinal control piece after trimming, namely the lower cutter head is lowered below the workbench plate and cannot contact with the motor cylinder, so that damage to the end face of the port of the motor cylinder caused by the lower cutter head in the tapping process is avoided.

3. The motor cylinder can be fixed only by rotating the operating ring after being inserted into the positioning seat, so that the operation is convenient and quick.

Drawings

Fig. 1 is a schematic perspective view of a motor barrel.

Fig. 2 is a schematic perspective view of a motor cylinder processing apparatus.

Fig. 3 is a schematic perspective view of another view of the processing device.

Fig. 4 is a partial structural cross-sectional view of the positioning seat.

Fig. 5 is an enlarged view of the structure at a in fig. 2.

Fig. 6 is an enlarged view of the structure at B in fig. 2.

Fig. 7 is an enlarged view of the structure at C in fig. 3.

Fig. 8 is an enlarged view of the structure at D in fig. 2.

Fig. 9 is a partial structural cross-sectional view at a telescopic rod.

In the figure, 1, a rack; 11. a work platen; 12. a support plate; 121. a first slide rail; 122. a second slide rail; 13. a guide shaft; 2. a moving plate; 21. a connection hole; 22. a connecting seat; 23. a guide rod; 24. a return spring; 25. a guide sleeve; 26. a guide tube; 3. a positioning seat; 31. avoiding the notch; 32. a guide seat; 33. a first handle; 34. a guide hole; 35. an annular groove; 36. a limiting block; 4. a positioning structure; 41. a positioning plate; 42. a push plate; 421. a guide groove; 43. a buffer layer; 44. an operating ring; 441. a guide post; 45. a locking lever; 46. resetting the tension spring; 5. a lifting frame; 51. a lifting plate; 52. a support part; 521. an upper rotating sleeve; 522. an upper cutter head; 523. a lower rotating sleeve; 524. a lower cutter head; 53. a driving motor; 531. a transmission shaft; 532. a driving pulley; 533. a driven pulley; 534. a middle belt wheel; 6. a lateral manipulation member; 61. a third handle; 62. a transverse steering shaft; 63. a disk-shaped portion; 631. a clamping groove; 632. a positioning part; 64. a telescopic rod; 65. a pushing spring; 66. a transverse winding wheel; 661. a clamping block; 662. a positioning groove; 67. a transverse pull rope; 7. a longitudinal handling member; 71. a second handle; 72. a longitudinal steering shaft; 73. a longitudinal winding wheel; 74. a longitudinal pull rope; 75. balancing weight; 76. a traction rope; 77. a guide wheel; 8. a motor barrel; 81. and a wire outlet hole.

Detailed Description

The following are specific embodiments of the present invention and the technical solutions of the present invention will be further described with reference to the accompanying drawings, but the present invention is not limited to these embodiments.

As shown in fig. 2 and 3, a processing device of a motor barrel comprises a frame 1, a working table plate 11 is fixedly connected to the frame 1, a moving plate 2 is connected to the frame 1 in a sliding manner along the horizontal direction, a positioning seat 3 is connected to the moving plate 2 in a rotating manner, the positioning seat 3 is cylindrical, an opening of the positioning seat 3 faces downwards, a positioning structure 4 capable of fixing the motor barrel 8 when the bottom of the motor barrel 8 is inserted is arranged on the upper end face of the positioning seat 3, a lifting frame 5 is connected to the frame 1 in a sliding manner along the vertical direction, an upper cutter head 522 and a lower cutter head 524 are connected to the lifting frame 5 in a rotating manner respectively, the upper cutter head 522 is located above the working table plate 11, the lower cutter head 524 is located below the working table plate 11, a driving motor 53 capable of driving the upper cutter head 522 and the lower cutter head 524 to rotate simultaneously is arranged on the lifting frame 5, when the positioning seat 3 moves to the upper part of the working table plate 11, the lower cutter head 524 can penetrate through the working table plate 11 and abuts against the end face of the motor barrel 8, a lifting member 31 is arranged between the lifting frame 5 and the lifting frame 1 and the lifting frame 2 when the lifting frame 5 descends, and the lifting frame 1 can be driven by the lifting member 31 relatively to move between the upper cutter head 522 and the lifting frame 2 and the lifting frame 1, and the lifting frame 2 can be driven by the lifting member 31. During processing, the bottom of the motor barrel 8 is upwards and the opening is downwards, so that the bottom of the motor barrel 8 is inserted into the positioning seat 3, the motor barrel 8 is fixed through the positioning structure 4 when the bottom of the motor barrel 8 is abutted against the bottom of the positioning seat 3, the lifting frame 5 is in a lifting state, namely the lower cutter head 524 extends upwards out of the working platen 11, the moving plate 2 is pushed by hand, the speed is higher, the lower cutter head 524 cuts the port end face of the motor barrel 8 when the moving plate 2 moves above the working platen 11, then the positioning seat 3 is rotated manually, the lower cutter head 524 circumferentially cuts the port end face of the motor barrel 8, the port end face of the motor barrel 8 is trimmed, after trimming, the lifting frame 5 descends through the longitudinal control member 7, namely the lower cutter head 524 descends below the working table plate 11 and is not contacted with the motor cylinder 8, the upper cutter head 522 descends to the side part of the positioning seat 3 and is opposite to the avoidance notch 31, at the moment, the movable plate 2 slowly and stably moves through the transverse control member 6, the upper cutter head 522 is gradually embedded into the avoidance notch 31, namely the upper cutter head 522 is cut into the bottom wall of the motor cylinder 8 along the radial direction, so that the bottom surface of the motor cylinder 8 is perforated, the movable plate 2 is reset after perforation is finished, and the switching of the motor cylinder 8 is completed.

As shown in fig. 4 and 5, a circular connecting hole 21 is formed in the moving plate 2, the positioning seat 3 is inserted into the connecting hole 21, two arc-shaped guide rods 23 are fixedly connected to the upper side surface of the moving plate 2 through the connecting seat 22, the two guide rods 23 are symmetrically arranged, the two guide rods 23 and the connecting hole 21 are coaxially arranged, a guide seat 32 is arranged on the peripheral wall of the positioning seat 3, the guide seat 32 is slidably sleeved on the guide rod 23, a reset spring 24 is further sleeved on the guide rod 23, one end of the reset spring 24 abuts against the guide seat 32, the other end abuts against the connecting seat 22, a first handle 33 is fixedly connected to the peripheral wall of the positioning seat 3, the guide seat 32 is matched with the guide rod 23, namely, the positioning seat 3 is supported, the positioning seat 3 is enabled to rotate more stably, the end face of a port of the motor 8 is repaired, the positioning seat 3 can be automatically reset and rotated under the effect of the reset spring 24, and the notch 31 is enabled to return to a set position. The positioning structure 4 comprises a plurality of arc-shaped positioning plates 41, strip-shaped push plates 42 are fixedly connected to the convex surfaces of the positioning plates 41, a plurality of strip-shaped guide holes 34 are circumferentially formed in the peripheral wall of the positioning seat 3, the positioning plates 41 are arranged in the positioning seat 3, the push plates 42 are slidably inserted into the guide holes 34, the concave surfaces of the positioning plates 41 face the central position of the positioning seat 3, buffer layers 43 are fixedly connected to the concave surfaces of the positioning plates 41, an operating ring 44 capable of simultaneously driving the positioning plates 41 to move towards the center of the positioning seat 3 is further arranged on the positioning seat 3 in a rotating sleeve manner, the operating ring 44 is rotated, the plurality of push plates 42 move inwards in the radial direction, the positioning plates 41 can be simultaneously pressed against the outer wall of the motor cylinder 8, so that the motor cylinder 8 is tightly held, and the positioning plates 41 are circumferentially uniformly distributed, so that the motor cylinder 8 is uniformly stressed, and damage to the motor cylinder 8 due to local excessive extrusion is avoided. An annular groove 35 is formed in the peripheral wall of the positioning seat 3 in the circumferential direction, an operating ring 44 is rotatably sleeved in the annular groove 35, a plurality of guide posts 441 are vertically arranged on the upper end face of the operating ring 44, long-strip-shaped guide grooves 421 are formed in the pushing plates 42, the distance from the guide grooves 421 to the axial lead of the positioning seat 3 is gradually increased from one end to the other end, the guide posts 441 are in one-to-one correspondence with the pushing plates 42, the guide posts 441 are slidably inserted in the guide grooves 421, a locking rod 45 is hinged to the peripheral wall of the operating ring 44, the locking rod 45 can swing up and down, a limiting block 36 is arranged on the peripheral wall of the positioning seat 3, the locking rod 45 can swing down and is abutted against the limiting block 36 when the operating ring 44 rotates to enable the positioning plate 41 to press on the motor cylinder 8, a reset tension spring 46 is fixedly connected to the outer wall of the positioning seat 3, the end of the reset tension spring 46 is fixedly connected to the operating ring 44, the operating ring 44 can reset and rotate when the locking rod 45 is separated from the limiting block 36 under the action of the reset tension spring 46, the operating ring 441 can slide along the guide posts 421 when the operating ring 44 rotates, the sliding plate 45 is separated from the limiting block 36, the position of the motor cylinder 45 can be well pressed down, and the motor cylinder 45 can be prevented from moving down along the limiting block 45, and the position of the motor cylinder 45 can be adjusted to be fixed to the position by the position of the limiting plate 45.

Referring to fig. 7, the lifting frame 5 includes a vertically disposed lifting plate 51, two ends of the lifting plate 51 are vertically provided with plate-shaped supporting portions 52, an upper rotating sleeve 521 is rotatably connected to the supporting portion 52 located above through a bearing, an upper cutter head 522 is inserted into the upper rotating sleeve 521 and locked and fixed through bolts, three lower rotating sleeves 523 are rotatably connected to the supporting portion 52 located below, connecting lines of the three lower rotating sleeves 523 are in an equilateral triangle shape, three lower cutter heads 524 are respectively inserted into the three lower rotating sleeves 523 and locked and fixed through bolts, three through holes are formed in the working table 11, the lower cutter heads 524 can extend upwards through the through holes when the lifting frame 5 ascends, the three lower cutter heads 524 are circumferentially distributed relative to the motor cylinder 8, and the rotating angle of the positioning seat 3 is reduced. The driving motor 53 is fixedly connected to the upper side surface of the upper supporting portion 52, the side surface of the lifting plate 51 is rotatably connected with a transmission shaft 531, the transmission shaft 531 is vertically arranged, a motor shaft of the driving motor 53 is fixedly connected to the upper end of the transmission shaft 531, both ends of the transmission shaft 531 are fixedly connected with driving pulleys 532, the upper rotating sleeve 521 and one of the lower rotating sleeves 523 are fixedly connected with driven pulleys 533, the driven pulleys 533 on the upper rotating sleeve 521 are connected with the driving pulleys 532 above through belts, the driven pulleys 533 on the lower rotating sleeve 523 are connected with the driving pulleys 532 below through belts, the lower rotating sleeve 523 is fixedly connected with a middle pulley 534, and the middle pulleys 534 of the two adjacent lower rotating sleeves 523 are connected through belts, and the cutter heads and the three lower cutter heads 524 are driven through the driving motor 53, so that the power sources are reduced, and the synchronism can be ensured. The longitudinal control piece 7 comprises a second handle 71, two support plates 12 are vertically and fixedly connected to the frame 1, the two support plates 12 are arranged in parallel, two opposite side surfaces of the two support plates 12 are vertically and fixedly connected with a first slide rail 121, two edges of the lifting plate 51 are fixedly connected with a first slide block, the first slide block is slidably connected to the first slide rail 121, the support plate 12 is rotatably connected with a longitudinal control shaft 72, the second handle 71 is fixedly connected to one end of the longitudinal control shaft 72, the other end of the longitudinal control shaft 72 is fixedly connected with a longitudinal winding wheel 73, a longitudinal pull rope 74 is wound on the longitudinal winding wheel 73, the free end of the longitudinal pull rope 74 is upwards and fixedly connected to the lifting plate 51, two outer side surfaces of the support plates 12 are vertically and fixedly connected with a second slide rail 122, the second slide rail 122 is slidably connected with a balancing weight 75 through the second slide block, the balancing weight 75 is fixedly connected with a traction rope 76, the upper edge of the support plate 12 is hinged with a guide wheel 77, the lifting frame 5 is slidably connected between the two support plates 12, the lifting frame 5 is kept stable under the action of the balancing weight 77, and the automatic lifting frame 5 can be wound on the lifting frame 75 to roll the lifting frame 8 through the longitudinal winding wheel 73, and the longitudinal winding wheel 73 can be driven by the automatic lifting frame 5 to roll the lifting frame 8, and the longitudinal winding frame 73 can be required to be wound around the bottom of the machine frame 73.

As shown in fig. 8 and 9, two guide shafts 13 are horizontally and fixedly connected to the frame 1, the two guide shafts 13 are located above the working table 11, a guide sleeve 25 is fixedly connected to the lower side surface of the moving plate 2, the guide sleeve 25 is slidably sleeved on the guide shaft 13, the transverse operation member 6 comprises a handle three 61, the frame 1 is rotatably connected with a transverse operation shaft 62, the handle three 61 is fixedly connected to one end of the transverse operation shaft 62, the other end of the transverse operation shaft 62 is provided with a disc-shaped portion 63, a clamping groove 631 is radially formed in the end surface of the disc-shaped portion 63, one end of the clamping groove 631 penetrates through the peripheral wall of the disc-shaped portion 63, when the moving plate 2 moves and abuts against the disc-shaped portion 63, a cutter head 524 is opposite to the end surface of the motor barrel 8, a transmission member capable of driving the moving plate 2 when the transverse operation shaft 62 rotates is further arranged between the moving plate 2 and the disc-shaped portion 63, the guide shaft 13 supports and guides the moving plate 2, the positioning seat 3 is enabled to be stable, when the end surface of the motor 8 abuts against the disc-shaped portion 63 is just opposite to the lower cutter head 524, and the three transmission member is required to move slowly through the transmission member 61 when the rotating the disc-shaped portion 63. The transmission piece comprises a telescopic rod 64, a guide tube 26 is horizontally and fixedly connected to the moving plate 2, one end of the telescopic rod 64 is slidably inserted into the guide tube 26, a pushing spring 65 is further arranged in the guide tube 26, one end of the pushing spring 65 is fixedly connected to the inner end of the guide tube 26, the other end of the pushing spring 65 is fixedly connected to the inner end of the telescopic rod 64, the outer end of the telescopic rod 64 is hinged to a transverse winding wheel 66, a transverse pull rope 67 is wound on the transverse winding wheel 66, the free end of the transverse pull rope 67 is fixedly connected to the guide tube 26, a strip-shaped clamping block 661 is further arranged on the end face of the transverse winding wheel 66, when the end face of a port of the motor barrel 8 is opposite to the lower cutter head 524, the clamping block 661 can be clamped into a clamping groove 631 of the disc-shaped portion 63, namely, the moving plate 2 abuts against the disc-shaped portion 63 through the clamping block 661, at the moment, the clamping block 661 is inserted into the clamping groove 631, the transverse winding wheel 66 can be driven to rotate when the disc-shaped portion 63, so that the transverse winding rope 67 is wound, the telescopic rod 64 moves relative to the guide tube 26, and accordingly the moving plate 2 can move, and the moving plate 2 can reset when the handle three 61 is reversely rotated. The clamping groove 631 has a width greater than that of the clamping block 661, positioning grooves 662 are formed in both side surfaces of the clamping block 661, positioning portions 632 are formed in both groove walls of the clamping groove 631, when the transverse operation shaft 62 rotates, the positioning portions 632 can be pressed in the positioning grooves 662, and when the disc-shaped portion 63 rotates, the positioning portions 632 are pressed in the positioning grooves 662 in advance, so that the clamping block 661 is fixed with the disc-shaped portion 63.

Claims

1. The utility model provides a processing apparatus of motor barrel, includes frame (1), fixed connection has work platen (11) on frame (1), its characterized in that, still along horizontal direction sliding connection has movable plate (2) on frame (1), movable plate (2) are gone up to rotate and are connected with positioning seat (3), this positioning seat (3) are the tube-shape, and the opening of positioning seat (3) is down, has offered on the up end of positioning seat (3) and has dodged breach (31), positioning seat (3) are gone up and are equipped with location structure (4) that can fix motor barrel (8) when the bottom of motor barrel (8) is inserted, be connected with crane (5) along vertical direction sliding connection on frame (1), crane (5) are gone up and are rotated respectively and are connected with upper cutter head (522) and lower cutter head (524), upper cutter head (522) are located the top of work platen (11), lower cutter head (524) are located the below of work platen (11), be equipped with on crane (5) and can drive upper cutter head (522) and lower cutter head (524) simultaneously and can drive the motor barrel (8) and move down and lean on the top of work platen (11) when lift platen (5) is gone up and is moved to the end face (53), when the lifting frame (5) descends, the upper tool bit (522) is opposite to the avoidance notch (31) of the positioning seat (3), a transverse control piece (6) capable of driving the moving plate (2) to move so that the upper tool bit (522) is embedded into the avoidance notch (31) is arranged between the frame (1) and the moving plate (2), and a longitudinal control piece (7) capable of driving the lifting frame (5) to lift up and down is arranged on the frame (1); the movable plate (2) is provided with a circular connecting hole (21), the positioning seat (3) is inserted into the connecting hole (21), two arc-shaped guide rods (23) are fixedly connected to the upper side surface of the movable plate (2) through a connecting seat (22), the two guide rods (23) are symmetrically arranged, the two guide rods (23) and the connecting hole (21) are coaxially arranged, the peripheral wall of the positioning seat (3) is provided with a guide seat (32), the guide seat (32) is slidably sleeved on the guide rod (23), the guide rod (23) is further sleeved with a return spring (24), one end of the return spring (24) is abutted to the guide seat (32), the other end of the return spring is abutted to the connecting seat (22), and the peripheral wall of the positioning seat (3) is further fixedly connected with a handle I (33); the positioning structure (4) comprises a plurality of arc-shaped positioning plates (41), strip-shaped pushing plates (42) are fixedly connected to the convex surfaces of the positioning plates (41), a plurality of strip-shaped guide holes (34) are circumferentially formed in the peripheral wall of the positioning seat (3), the positioning plates (41) are arranged in the positioning seat (3), the pushing plates (42) are slidably inserted into the guide holes (34), the concave surfaces of the positioning plates (41) face towards the central position of the positioning seat (3), buffer layers (43) are fixedly connected to the concave surfaces of the positioning plates (41), and an operating ring (44) capable of driving the positioning plates (41) to move towards the center of the positioning seat (3) is further rotatably sleeved on the positioning seat (3); an annular groove (35) is formed in the peripheral wall of the positioning seat (3) in the circumferential direction, the control ring (44) is rotationally sleeved in the annular groove (35), a plurality of guide posts (441) are vertically arranged on the upper end face of the control ring (44), long-strip-shaped guide grooves (421) are formed in the push plate (42), the distance from one end to the axial lead of the positioning seat (3) is gradually increased from one end to the other end, a plurality of guide posts (441) are in one-to-one correspondence with the plurality of push plates (42), the guide posts (441) are slidably inserted in the guide grooves (421), a locking rod (45) is hinged to the peripheral wall of the control ring (44), the locking rod (45) can swing up and down, a limiting block (36) is arranged on the peripheral wall of the positioning seat (3), when the control ring (44) rotates to enable the positioning plate (41) to be pressed on the motor cylinder (8), the locking rod (45) can swing down and abut against the limiting block (36), and when the outer wall of the positioning seat (3) is fixedly connected with the restoring tension spring (46), the restoring rod (46) can be disconnected from the restoring rod (46); the longitudinal control piece (7) comprises a handle II (71), two support plates (12) are vertically and fixedly connected to the frame (1), and the two support plates (12) are relatively arranged in parallel.

2. The processing device of the motor barrel according to claim 1, wherein the lifting frame (5) comprises a lifting plate (51) which is vertically arranged, both ends of the lifting plate (51) are vertically provided with plate-shaped supporting parts (52), an upper rotating sleeve (521) is rotatably connected to the upper supporting part (52) through a bearing, the upper cutter head (522) is inserted into the upper rotating sleeve (521) and is fixedly locked through a bolt, three lower rotating sleeves (523) are rotatably connected to the lower supporting part (52) and are connected with each other, a connecting line of the three lower rotating sleeves (523) is in an equilateral triangle, three lower cutter heads (524) are respectively inserted into the three lower rotating sleeves (523) and are fixedly locked through bolts, and three through holes are formed in the working table plate (11), and when the lifting frame (5) ascends, the lower cutter heads (524) can extend upwards.

3. The processing device of a motor barrel according to claim 2, wherein the driving motor (53) is fixedly connected to the upper side surface of the upper supporting portion (52), a transmission shaft (531) is rotatably connected to the side surface of the lifting plate (51), the transmission shaft (531) is vertically arranged, a motor shaft of the driving motor (53) is fixedly connected to the upper end of the transmission shaft (531), driving pulleys (532) are fixedly connected to two ends of the transmission shaft (531), driven pulleys (533) are fixedly connected to the upper rotating sleeve (521) and one of the lower rotating sleeves (523), the driven pulleys (533) on the upper rotating sleeve (521) are connected to the driving pulleys (532) above through belts, the driven pulleys (533) on the lower rotating sleeve (523) are connected to the driving pulleys (532) below through the belts, intermediate pulleys (534) are fixedly connected to the lower rotating sleeve (523), and the intermediate pulleys (534) of the adjacent lower rotating sleeves (523) are connected through the belts.

4. A processing device for a motor cylinder according to claim 3, wherein a first slide rail (121) is vertically and fixedly connected to opposite side surfaces of the two support plates (12), a first slide block (122) is vertically and fixedly connected to both edges of the lifting plate (51), a second slide block (121) is slidingly connected to the first slide rail, a balancing weight (75) is rotationally connected to the support plates (12), a second handle (71) is fixedly connected to one end of the longitudinal steering shaft (72), a longitudinal winding wheel (73) is fixedly connected to the other end of the longitudinal steering shaft (72), a longitudinal pull rope (74) is wound on the longitudinal winding wheel (73), a free end of the longitudinal pull rope (74) is upwards and fixedly connected to the lifting plate (51), a second slide rail (122) is vertically and fixedly connected to the outer side surface of the support plates (12), a balancing weight (75) is rotationally connected to the second slide rail (122), a guide wheel (77) is hinged to the upper edge of the support plates (12), and the guide wheel (76) is wound around the guide wheel (52).

5. The processing device of the motor barrel according to claim 1, characterized in that two guide shafts (13) are horizontally and fixedly connected to the frame (1), the two guide shafts (13) are located above the working platen (11), a guide sleeve (25) is fixedly connected to the lower side surface of the moving plate (2), the guide sleeve (25) is slidably sleeved on the guide shaft (13), the transverse operation member (6) comprises a handle III (61), the frame (1) is rotatably connected with a transverse operation shaft (62), the handle III (61) is fixedly connected to one end of the transverse operation shaft (62), the other end of the transverse operation shaft (62) is provided with a disc-shaped portion (63), a clamping groove (631) is radially formed in the end surface of the disc-shaped portion (63), one end of the clamping groove (631) penetrates through the peripheral wall of the disc-shaped portion (63), when the moving plate (2) moves and abuts against the lower end surface (524) of the end surface of the motor barrel (8), and the end surface of the moving plate (2) and the disc-shaped portion (63) are provided with a clamping groove (631), and when the end surface of the moving plate (2) is provided with a transverse operation member (2).

6. The processing device of a motor barrel according to claim 5, wherein the transmission member comprises a telescopic rod (64), a guide tube (26) is horizontally and fixedly connected to the moving plate (2), one end of the telescopic rod (64) is slidably inserted into the guide tube (26), a pushing spring (65) is further arranged in the guide tube (26), one end of the pushing spring (65) is fixedly connected to the inner end of the guide tube (26), the other end of the pushing spring (65) is fixedly connected to the inner end of the telescopic rod (64), a transverse winding wheel (66) is hinged to the outer end of the telescopic rod (64), a transverse pulling rope (67) is wound on the transverse winding wheel (66), the free end of the transverse pulling rope (67) is fixedly connected to the guide tube (26), and a long clamping block (661) is further arranged on the end face of the transverse winding wheel (66), and can be clamped into a clamping block groove (631) of the disc-shaped portion (63) when the end face of the port of the motor barrel (8) is opposite to the lower cutter head (524).

7. The processing device of the motor cylinder according to claim 6, wherein the width of the clamping groove (631) is larger than the width of the clamping block (661), positioning grooves (662) are formed on both side surfaces of the clamping block (661), positioning portions (632) are formed on both groove walls of the clamping groove (631), and when the transverse operation shaft (62) rotates, the positioning portions (632) can be pressed in the positioning grooves (662).