CN114523312B - Multi-station processing equipment for explosion-proof self-locking force-borrowing wrench - Google Patents

Abstract

The invention relates to the technical field of explosion-proof self-locking force-borrowing spanner processing equipment, and provides multi-station processing equipment for an explosion-proof self-locking force-borrowing spanner.

Description

Multi-station processing equipment for explosion-proof self-locking force-borrowing wrench

Technical Field

The invention relates to the technical field of explosion-proof self-locking force-borrowing spanner processing equipment, in particular to multi-station processing equipment for an explosion-proof self-locking force-borrowing spanner.

Background

As is well known, in mechanical products, a large number of threaded connections are applied, an auxiliary wrench is usually used for realizing the installation and the disassembly of the threaded connections, the explosion-proof self-locking force-borrowing wrench is used as one of the auxiliary wrenches, and the multi-station processing equipment for the explosion-proof self-locking force-borrowing wrench is provided, which has the advantages of flexible use, labor saving operation and good universality.

According to the search, the Chinese patent publication No. CN105965266B discloses a ratchet wrench machining machine tool, which is roughly described as comprising a machine body, a turntable arranged on the machine body and intermittently rotating around the axial line direction of the machine body, a plurality of clamps uniformly spaced on the turntable and used for clamping ratchet wrenches, and a plurality of machining mechanisms arranged on the machine body and used for machining the ratchet wrenches on the clamps in one-to-one correspondence when the turntable stops rotating.

Although the above prior art solutions can realize machining of the ratchet wrench for removing material, the applicability of the anti-explosion self-locking force-borrowing wrench, including machining and mechanical assembly, is poor.

Disclosure of Invention

(one) solving the technical problems

Aiming at the defects of the prior art, the invention provides multi-station processing equipment for the explosion-proof self-locking force-borrowing spanner, which can realize respective mechanical processing of each part in the explosion-proof self-locking force-borrowing spanner, has higher processing efficiency, is convenient for realizing the mechanical assembly of the explosion-proof self-locking force-borrowing spanner, and can realize the integral processing of the explosion-proof self-locking force-borrowing spanner by one-time feeding.

(II) technical scheme

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides an explosion-proof auto-lock borrows power spanner and uses multistation processing equipment, includes left lathe bed and right lathe bed, all install on left lathe bed and the right lathe bed around its axial lead direction intermittent type nature pivoted carousel, still include left processing system, left positioning system, right processing system and right positioning system, fixed connection between left lathe bed and the right lathe bed, the right-hand member of left lathe bed and the left end of right lathe bed all are provided with the ladder hollow gap, and two the cooperation of ladder hollow gap forms the standing region, has seted up a plurality of left ladder groove and a plurality of right ladder groove on two carousels respectively, a plurality of left side ladder inslot all installs the left balladeur train that is used for installing left positioning system, a plurality of right ladder inslot all installs the right balladeur train that is used for installing right positioning system, left ladder inslot and right ladder inslot all are connected with the push rod through the connecting rod, a plurality of the push rod respectively with a plurality of left balladeur train and a plurality of right balladeur train connection, and be connected with the elasticity spring between connecting rod and the push rod, left processing system and right processing system install respectively at the top of left lathe bed and the top of right lathe bed and the top, the top of two annular grooves are all installed through two and the connecting rods that are all installed to the electric connection rod and the right ladder inslot.

On the basis of the scheme, the anti-explosion self-locking force-borrowing wrench comprises a wrench fixing portion and a wrench movable portion which are matched with each other, wherein an auxiliary hole is formed in the wrench fixing portion, and a mounting notch is preset in the wrench movable portion.

On the basis of the scheme, the left positioning system and the right positioning system respectively comprise a plurality of left base frames and a plurality of right base frames, the left base frames are respectively arranged on the left sliding frames, the right base frames are respectively arranged on the right sliding frames, the left base frames are provided with left storage grooves matched with the wrench fixing parts, positioning columns matched with the auxiliary holes are connected in the left base frames in a vertical sliding mode, left springs are arranged between the positioning columns and the left base frames, left lifting pressing plates are connected on the left base frames through two left bolts, right storage grooves matched with the wrench movable parts are formed in the right base frames, two right lifting pressing plates are connected on the right base frames through a plurality of right bolts, limiting blocks are fixedly connected in the right storage grooves, positioning blocks are arranged in the right base frames in a vertical sliding mode, right springs are arranged between the positioning blocks and the right base frames, and driving frames are fixedly connected on the positioning columns and the positioning blocks.

Still further on the basis of the aforesaid scheme, the tenon is riveted the structure and is included mounting bracket and lower mounting bracket, it all installs to go up mounting bracket and lower mounting bracket between left lathe bed and the right lathe bed, installs down the electric pole in the lower mounting bracket, the telescopic link of electric pole passes down the mounting bracket and installs down and rivet the frame, goes up the top of mounting bracket and installs the electric pole, go up the bottom of the telescopic link of electric pole and install and rivet the frame, go up the frame and rivet the one end that the frame is close to each other down and all be provided with the semicircle groove, put the nail mouth has been seted up to the front end of going up the mounting bracket, is connected with the guide cylinder through erecting the spring in the mounting bracket, be provided with interior hair ring in the guide cylinder.

On the basis of the scheme, the left processing system comprises a first left station frame, a second left station frame and a third left station frame, wherein the first left station frame, the second left station frame and the third left station frame are all arranged at the top end of a left lathe bed, the first left station frame, the second left station frame and the third left station frame are arranged around one turntable close to the left side in two turntables in a clockwise distribution mode, the right processing system comprises a first right station frame, a second right station frame and a third right station frame, the first right station frame, the second right station frame and the third right station frame are all arranged at the top end of a right lathe bed, the first right station frame, the second right station frame and the third right station frame are arranged around one turntable close to the right side in two turntables in a anticlockwise distribution mode, a double-sided milling assembly and a center milling assembly are respectively arranged on the first left station frame and the first right station frame, a drilling assembly is respectively arranged on the second left station frame and the second station frame, and a third duplex cleaning assembly is respectively arranged on the second left station frame and the third station frame.

As the scheme is further, the double-sided milling assembly comprises a center frame, the center frame is fixedly connected to a first left station frame, edge feeding frames are symmetrically and slidingly connected to the center frame up and down, two edge feeding frames are connected with the center frame through electric feeding rods, one ends, close to each other, of the two edge feeding frames are rotationally connected with mounting shafts, one ends, close to each other, of the two mounting shafts are detachably provided with left milling wheels, and first left driving motors for driving the mounting shafts are mounted on the two edge feeding frames.

As still further in the above-mentioned scheme, the center mills the subassembly and includes a section of thick bamboo frame, section of thick bamboo frame fixed connection is on first right station frame, and a section of thick bamboo frame swivelling joint has the rotating turret, the bottom of rotating turret rotates and is connected with the lower shaft, the bottom demountable installation of lower shaft has right milling wheel, the first right driving motor that is used for lower shaft drive is installed on the top of rotating turret, and the first right servo motor that is used for rotating turret angle modulation is installed to the bottom of section of thick bamboo frame.

As the scheme, two drilling components all include drilling frame, two drilling frame respectively with second left station frame and second right station frame are connected, all install the drilling feeding frame that can reciprocate on two drilling frames, install the drill bit on the drilling feeding frame and be used for drill bit driven drilling motor.

As a further proposal of the proposal, the double-sided cleaning component comprises a left cleaning frame, the left cleaning frame is arranged on the third left station frame, and two lifting cleaning left wheels are arranged on the left cleaning frame.

As still further aspects of the foregoing aspects, the central cleaning assembly includes a right cleaning frame mounted on the third right station frame, the right cleaning frame having a rotating cleaning right wheel mounted thereon.

(III) beneficial effects

Compared with the prior art, the invention provides the multi-station processing equipment for the explosion-proof self-locking force-borrowing spanner, which has the following beneficial effects:

1. according to the invention, through the design of the left positioning system and the right positioning system, the respective positioning before the processing of each part of the explosion-proof self-locking force-borrowing spanner can be realized, and through the design of the left processing system and the right processing system, the respective corresponding machining of each part of the explosion-proof self-locking force-borrowing spanner after clamping and positioning is facilitated.

2. According to the invention, through the cooperation of the connecting rod, the push rod, the electric lifting rod and the push wheel, the push rod can be pushed by controlling the electric lifting rod, so that the corresponding left sliding frame and right sliding frame can be pushed to be close to each other, the mutual approaching of the parts in the explosion-proof self-locking force-borrowing spanner after the processing is finished is realized, and the mechanical assembly of the explosion-proof self-locking force-borrowing spanner is realized.

3. According to the invention, through the design of the tenon riveting structure, tenon riveting connection of the explosion-proof self-locking force-borrowing spanner can be realized, and integral processing of the explosion-proof self-locking force-borrowing spanner can be completed by realizing one-time feeding.

Drawings

FIG. 1 is a schematic view of a partially sectioned perspective structure of the present invention;

FIG. 2 is a schematic view of a partial enlarged structure of the present invention at A in FIG. 1;

FIG. 3 is a schematic view of a partially enlarged structure of the present invention at B in FIG. 1;

FIG. 4 is a schematic view of a partially enlarged structure of the present invention at C in FIG. 1;

FIG. 5 is a schematic view of a partially enlarged structure of the present invention at D in FIG. 1;

FIG. 6 is a schematic perspective view of the whole structure of the present invention;

fig. 7 is a schematic exploded perspective view of the upper rivet frame, guide cylinder and inner loop of the present invention.

In the figure: 1. a left lathe bed; 2. a right lathe bed; 3. a turntable; 4. a step hollow notch; 5. a left carriage; 6. a right carriage; 7. a connecting rod; 8. a push rod; 9. an elastic spring; 10. push wheel; 11. a wrench fixing part; 12. a wrench movable part; 13. a left base frame; 14. a right base frame; 15. positioning columns; 16. a left spring; 17. a left bolt; 18. a left lifting pressing plate; 19. a right bolt; 20. a right lifting pressing plate; 21. a limiting block; 22. a positioning block; 23. a right spring; 24. a drive rack; 25. an upper mounting frame; 26. a lower mounting rack; 27. a lower riveting frame; 28. a riveting frame is arranged; 29. a guide cylinder; 30. an inner loop; 31. a first left station frame; 32. a second left station frame; 33. a third left station frame; 34. a first right station frame; 35. a second right station frame; 36. a third right station frame; 37. a center frame; 38. an edge feeding frame; 39. a mounting shaft; 40. a left milling wheel; 41. a cartridge holder; 42. a rotating frame; 43. a bottom shaft; 44. a right milling wheel; 45. a drilling frame; 46. a drill feed rack; 47. a drill bit; 48. a left cleaning rack; 49. lifting and cleaning a left wheel; 50. a right cleaning rack; 51. and (5) rotating to clean the right wheel.

Detailed Description

Examples

Referring to fig. 1-7, a multi-station processing device for an explosion-proof self-locking force-borrowing wrench comprises a left lathe bed 1 and a right lathe bed 2, wherein a turntable 3 intermittently rotating around the axial line direction of the turntable is arranged on the left lathe bed 1 and the right lathe bed 2, the multi-station processing device further comprises a left processing system, a left positioning system, a right processing system and a right positioning system, the explosion-proof self-locking force-borrowing wrench comprises a wrench fixing part 11 and a wrench movable part 12 which are mutually matched, an auxiliary hole is formed in the wrench fixing part 11, an installation notch is preset in the wrench movable part 12, the left positioning system and the right positioning system respectively comprise a plurality of left base frames 13 and a plurality of right base frames 14, the left base frames 13 respectively are arranged on a plurality of left sliding frames 5, the right base frames 14 respectively are arranged on a plurality of right sliding frames 6, the left base frames 13 are provided with left storage grooves matched with the wrench fixing part 11, the left base frame 13 is internally and vertically connected with a positioning column 15 matched with the auxiliary hole in a sliding manner, a left spring 16 is arranged between the positioning column 15 and the left base frame 13, a left lifting pressing plate 18 is connected to the left base frame 13 through two left bolts 17, a right storage groove matched with the wrench movable part 12 is formed in the right base frame 14, two right lifting pressing plates 20 are connected to the right base frame 14 through a plurality of right bolts 19, a limiting block 21 is fixedly connected to the right storage groove, a positioning block 22 is vertically and slidably matched in the right base frame 14, a right spring 23 is arranged between the positioning block 22 and the right base frame 14, a driving frame 24 is fixedly connected to the positioning column 15 and the positioning block 22, and the respective positioning before the processing of each part of the explosion-proof self-locking force-borrowing wrench can be realized through the design of a left positioning system and a right positioning system.

It should be further noted that the left processing system includes a first left-hand work-position frame 31, a second left-hand work-position frame 32, and a third left-hand work-position frame 33, the first left-hand work-position frame 31, the second left-hand work-position frame 32, and the third left-hand work-position frame 33 are all installed at the top end of the left bed 1, and the first left-hand work-position frame 31, the second left-hand work-position frame 32, and the third left-hand work-position frame 33 are arranged around one turntable 3 near the left side of the two turntables 3 in a clockwise distribution, the right processing system includes a first right-hand work-position frame 34, a second right-hand work-position frame 35, and a third right-hand work-position frame 36, the first right-hand work-position frame 34, the second right-position frame 35, and the third right-position frame 36 are all installed at the top end of the right bed 2, and the first right-hand work-position frame 34, the second right-position frame 35, and the third right-position frame 36 are arranged around one turntable 3 near the right side of the two turntables 3 in a counterclockwise distribution, the first left station frame 31 and the first right station frame 34 are respectively provided with a double-sided milling assembly and a central milling assembly, the double-sided milling assembly comprises a center frame 37, the center frame 37 is fixedly connected to the first left station frame 31, the center frame 37 is connected with an edge feeding frame 38 in a vertically symmetrical sliding manner, the two edge feeding frames 38 are connected with the center frame 37 through electric feeding rods, one ends of the two edge feeding frames 38, which are close to each other, are respectively connected with a mounting shaft 39 in a rotating manner, one ends of the two mounting shafts 39, which are close to each other, are respectively provided with a left milling wheel 40, the two edge feeding frames 38 are respectively provided with a first left driving motor for driving the mounting shafts 39, through the design of the double-sided milling assembly, the upper end face and the lower end face of a spanner fixing part 11 can be milled, the center milling assembly comprises a barrel frame 41, the barrel frame 41 is fixedly connected to the first right station frame 34, the barrel frame 41 is rotationally connected with a rotating frame 42, the bottom of rotating frame 42 is rotationally connected with lower shaft 43, right milling wheel 44 is detachably installed in the bottom of lower shaft 43, first right driving motor for lower shaft 43 drive is installed on the top of rotating frame 42, first right servo motor for rotating frame 42 angle adjustment is installed to the bottom of cylinder frame 41, through the design of center milling subassembly, be convenient for mill processing to the installation breach on spanner movable part 12, thereby be convenient for cooperate spanner fixed part 11 to assemble, two drilling subassemblies are all installed on second left station frame 32 and the second right station frame 35, two drilling subassemblies all include drilling frame 45, two drilling frame 45 are connected with second left station frame 32 and second right station frame 35 respectively, drilling feed frame 46 that can reciprocate is installed on two drilling frame 45, install drill bit 47 and be used for the drilling motor of drill bit 47 drive, the realization is to the seting up in the hole of riveting between spanner movable part 12 and spanner fixed part 11, third left station frame 33 and third right station frame 36 install two-sided clearance subassembly and center subassembly respectively, install two-sided clearance subassembly on the clearance system including two left and right station frame 48, install two-sided clearance system 48 on two left and right station frame 48, install two clearance system of clearance system 50 on two left and right station frame 48, install two clearance system of clearance hole 50 is adjusted through the left and right station frame 48, the clearance system is installed on two left and right station frame 48, the clearance system is left and right position of clearance system is adjusted around installing on two clearance system of clearance system is adjusted.

The left lathe bed 1 and the right lathe bed 2 are fixedly connected, the right end of the left lathe bed 1 and the left end of the right lathe bed 2 are respectively provided with a step gap 4, the two step gaps 4 are matched to form a standing area, a plurality of left step grooves and a plurality of right step grooves are respectively formed on the two turntables 3, a left sliding frame 5 for installing a left positioning system is arranged in each of the left step grooves, a right sliding frame 6 for installing a right positioning system is arranged in each of the right step grooves, push rods 8 are respectively connected in each of the left step grooves and the right step grooves through connecting rods 7, the push rods 8 are respectively connected with the left sliding frame 5 and the right sliding frame 6, an elastic spring 9 is connected between the connecting rods 7 and the push rods 8, the left processing system and the right processing system are respectively arranged at the top end of the left lathe bed 1 and the top end of the right lathe bed 2, the top end of the left lathe bed 1 and the top end of the right lathe bed 2 are respectively provided with a ring groove for the push rod 8 and the connecting rod 7 to rotate through, a plurality of electric lifting rods are respectively arranged in the two ring grooves, push wheels 10 for pushing the connecting rod 7 are respectively arranged at the top ends of the two electric lifting rods, the push rods 8 can be pushed by controlling the electric lifting rods through the cooperation of the connecting rod 7, the push rod 8, the electric lifting rods and the push wheels 10, so that the corresponding left sliding frame 5 and the right sliding frame 6 can be pushed close to each other conveniently, the mutual approaching between components in the explosion-proof self-locking force-borrowing wrench after the processing is finished is realized conveniently, the mechanical assembly of the explosion-proof self-locking force-borrowing wrench is realized conveniently, a tenon riveting structure is arranged between the left lathe bed 1 and the right lathe bed 2, the tenon riveting structure comprises an upper mounting frame 25 and a lower mounting frame 26, the upper mounting frame 25 and the lower mounting frame 26 are respectively arranged between the left lathe bed 1 and the right lathe bed 2, the lower mounting frame 26 is internally provided with a lower electric rod, the telescopic link of lower electric pole passes down mounting bracket 26 and installs down and rivet a 27, go up the top of mounting bracket 25 and install the electric pole, go up the bottom of the telescopic link of electric pole and install and rivet a 28, go up and rivet a 28 and rivet a 27 one end that is close to each other down and all be provided with the semicircle groove, put the nail mouth has been seted up to the front end of going up mounting bracket 25, upward be connected with guide cylinder 29 through erecting the spring in the mounting bracket 25, be provided with interior looped pile 30 in the guide cylinder 29, through the design of tenon riveting the structure, can realize borrowing the tenon riveting of power spanner to explosion-proof auto-lock, realize disposable material loading can accomplish explosion-proof auto-lock and borrow the whole processing of power spanner.

In summary, the working principle and working process of the multi-station processing equipment for the explosion-proof self-locking force-borrowing spanner are as follows: when in use, the explosion-proof self-locking force-borrowing spanner is firstly placed at a place where the spanner is required to be used by using multi-station processing equipment, and all electric parts are electrically assembled, in the process of electric assembly, such as an electric lifting rod, a lower electric rod, an upper electric rod, an electric feeding rod, a first left driving motor, a first right servo motor and a drilling motor are all mature matched products on the market selected according to the use requirement, an operator stands in a standing area in the processing process, clamps the spanner fixing part 11 and the spanner movable part 12 in a left positioning system and a right positioning system respectively, in the clamping process, the driving frame 24 is pressed down to enable the positioning column 15 and the positioning block 22 to fall relative to the left base frame 13 and the right base frame 14 respectively, so that the spanner fixing part 11 and the spanner movable part 12 can enter a left storage groove and a right storage groove respectively, after the wrench fixing part 11 and the wrench movable part 12 enter the left storage groove and the right storage groove respectively, the corresponding driving frame 24 is loosened, the positioning column 15 and the positioning block 22 are lifted and reset relative to the left base frame 13 and the right base frame 14 respectively, clamping and positioning of the wrench fixing part 11 and the wrench movable part 12 are realized respectively, then the steps of sequential milling, punching and surface treatment of the wrench fixing part 11 and the wrench movable part 12 after clamping and positioning are realized through the rotation of the two turntables 3 on the left lathe bed 1 and the rotation of the right lathe bed 2 respectively, finally, after the wrench movable part 12 and the wrench fixing part 11 which are matched with each other rotate to the nearest distance, the pushing of the corresponding connecting rod 7 and the pushing rod 8 is realized under the action of the electric lifting rod and the pushing wheel 10, at the moment, the corresponding left sliding frame 5 and the right sliding frame 6 are mutually close, the assembly adjustment of the wrench movable part 12 and the wrench fixing part 11 after processing is completed is realized, at this time, the riveted hole on the wrench movable part 12 coincides with the riveted hole on the wrench fixed part 11, rivets are placed in the rivet placing opening, and finally, the upper electric rod and the lower electric rod work simultaneously to realize the mutual approaching of the upper riveting frame 28 and the lower riveting frame 27, thereby completing the riveting between the wrench fixed part 11 and the wrench movable part 12, taking down the riveted explosion-proof self-locking force-borrowing wrench, completing the processing of the explosion-proof self-locking force-borrowing wrench, and completing the processing and the assembly of other explosion-proof self-locking force-borrowing wrenches sequentially along with the rotation of the turntable 3 according to the steps.

Claims (6)

1. The utility model provides an explosion-proof auto-lock borrows power spanner and uses multistation processing equipment, includes left lathe bed (1) and right lathe bed (2), all install carousel (3) around its axial lead orientation intermittent type nature rotation on left lathe bed (1) and the right lathe bed (2), its characterized in that still includes left processing system, left positioning system, right processing system and right positioning system, explosion-proof auto-lock borrows power spanner includes spanner fixed part (11) and spanner movable part (12) that mutually support, offer the auxiliary hole on spanner fixed part (11), preset on spanner movable part (12) has the installation breach, fixed connection between left lathe bed (1) and right lathe bed (2), the right end of left lathe bed (1) and the left end of right lathe bed (2) all are provided with ladder empty breach (4), and two ladder empty breach (4) cooperate and form the standing region, a plurality of left and a plurality of ladder grooves and a plurality of right ladder grooves have been seted up respectively on two carousel (3), a plurality of left and right ladder grooves are all installed in the ladder groove and are used for installing left and 5, a plurality of left and right ladder groove (5) are installed in a plurality of base frames (13) are installed respectively in a plurality of base frames (14) and a plurality of base frames (13) are installed respectively on left and right base frames (14), a left storage groove matched with the wrench fixing part (11) is formed in the left base frame (13), a positioning column (15) matched with the auxiliary hole is connected in the left base frame (13) in a vertical sliding mode, a left spring (16) is arranged between the positioning column (15) and the left base frame (13), a left lifting pressing plate (18) is connected to the left base frame (13) through two left bolts (17), a right storage groove matched with the wrench movable part (12) is formed in the right base frame (14), two right lifting pressing plates (20) are connected to the right base frame (14) through a plurality of right bolts (19), a limiting block (21) is fixedly connected to the right storage groove, a positioning block (22) is arranged in the right base frame (14) in a vertical sliding mode, a right spring (23) is arranged between the positioning block (22) and the right base frame (14), a driving frame (24) is fixedly connected to the positioning column (15) and the positioning block (22), push rods (8) are connected to the left ladder groove and the right ladder groove through connecting rods (7), a plurality of push rods (8) are respectively connected to a plurality of lathe beds (5) and a plurality of slide carriages (6) and a plurality of elastic top ends (9) are connected to the left and right top ends (2) of the elastic systems (2), the left processing system comprises a first left station frame (31), a second left station frame (32) and a third left station frame (33), wherein the first left station frame (31), the second left station frame (32) and the third left station frame (33) are all arranged at the top end of a left lathe bed (1), the first left station frame (31), the second left station frame (32) and the third left station frame (33) are arranged around one turntable (3) close to the left side in two turntables (3) according to clockwise distribution, the right processing system comprises a first right station frame (34), a second right station frame (35) and a third right station frame (36), the first right station frame (34), the second right station frame (35) and the third right station frame (36) are all arranged at the top end of the right lathe bed (2), the first right station frame (34), the second right station frame (35) and the third right station frame (36) are arranged around one turntable (3) close to the left side in the two turntables (3) according to anticlockwise distribution, a left and right station frame (35) and a second milling component (32) are respectively arranged on the left side and the right side of the first turntable frame (3) and the third milling component (32) are respectively arranged on the left side and the right side of the second milling component (33) and the third milling component (32), the top of left lathe bed (1) and the top of right lathe bed (2) all are offered and are used for push rod (8) and connecting rod (7) to rotate the annular that passes through, two all install a plurality of electric lift poles in the annular, two push away round push wheel (10) that are used for connecting rod (7) to promote are all installed on electric lift pole's top, install tenon structure between left lathe bed (1) and right lathe bed (2), tenon structure is including last mounting bracket (25) and lower mounting bracket (26), go up mounting bracket (25) and lower mounting bracket (26) and all install between left lathe bed (1) and right lathe bed (2), install down the electric pole in lower mounting bracket (26), down the telescopic link of electric pole passes down mounting bracket (26) and installs down and rivet frame (27), go up the top of electric pole and install on the telescopic link of electric pole and rivet frame (28), go up rivet frame (28) and lower one end that is close to each other of frame (27) all is provided with half slot, go up front end (25) and have set up in the guide cylinder (29) and set up in the guide cylinder (30).

2. The multi-station processing equipment for the explosion-proof self-locking force-borrowing spanner according to claim 1, wherein the double-sided milling assembly comprises a center frame (37), the center frame (37) is fixedly connected to a first left station frame (31), side feeding frames (38) are symmetrically and slidingly connected to the center frame (37) up and down, two side feeding frames (38) are connected with the center frame (37) through electric feeding rods, one ends, close to each other, of the two side feeding frames (38) are respectively connected with a mounting shaft (39) in a rotating mode, one ends, close to each other, of the two mounting shafts (39) are respectively provided with a left milling wheel (40) in a detachable mode, and first left driving motors used for driving the mounting shafts (39) are respectively mounted on the two side feeding frames (38).

3. The multi-station processing equipment for the explosion-proof self-locking force-borrowing spanner according to claim 2, wherein the center milling assembly comprises a barrel frame (41), the barrel frame (41) is fixedly connected to a first right station frame (34), a rotating frame (42) is rotationally connected to the barrel frame (41), a bottom shaft (43) is rotationally connected to the bottom end of the rotating frame (42), a right milling wheel (44) is detachably arranged at the bottom end of the bottom shaft (43), a first right driving motor for driving the bottom shaft (43) is arranged at the top end of the rotating frame (42), and a first right servo motor for adjusting the angle of the rotating frame (42) is arranged at the bottom end of the barrel frame (41).

4. A multi-station processing device for an explosion-proof self-locking force-borrowing wrench according to claim 3, wherein the two drilling assemblies comprise drilling frames (45), the two drilling frames (45) are respectively connected with a second left station frame (32) and a second right station frame (35), drilling feeding frames (46) capable of moving up and down are respectively arranged on the two drilling frames (45), and a drill bit (47) and a drilling motor for driving the drill bit (47) are arranged on the drilling feeding frames (46).

5. The multi-station processing device for the explosion-proof self-locking force-borrowing spanner according to claim 4, wherein the double-sided cleaning assembly comprises a left cleaning frame (48), the left cleaning frame (48) is installed on the third left station frame (33), and two lifting cleaning left wheels (49) are installed on the left cleaning frame (48) up and down.

6. The multi-station processing device for the explosion-proof self-locking force-borrowing spanner according to claim 5, wherein the central cleaning assembly comprises a right cleaning frame (50), the right cleaning frame (50) is installed on the third right station frame (36), and a rotary cleaning right wheel (51) is installed on the right cleaning frame (50).

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