CN113560941B

CN113560941B - Machining, positioning and overturning device for mechanical parts

Info

Publication number: CN113560941B
Application number: CN202111125681.0A
Authority: CN
Inventors: 季金梅
Original assignee: Nantong Tonggui Mould Technology Co ltd
Current assignee: Nantong Tonggui Mould Technology Co ltd
Priority date: 2021-09-26
Filing date: 2021-09-26
Publication date: 2021-11-26
Anticipated expiration: 2041-09-26
Also published as: CN113560941A

Abstract

The invention belongs to the technical field of machining of mechanical parts, and particularly relates to a machining, positioning and overturning device for the mechanical parts. According to the clamping assembly, the clamping plate, the extrusion frame, the adaptive spring and the friction head are arranged, when the four corners of the mechanical part are clamped, the clamping cylinder is adjusted to drive the clamping plate on the extrusion frame to clamp the four corners of the mechanical part, if the four corners of the mechanical part are not located on the same surface, the adaptive spring drives the friction head on the fixed rod to be in contact with different positions of the mechanical part, and the adaptive spring drives the friction head to limit the four corners of the mechanical part, so that the clamping assembly is suitable for clamping the mechanical part in different shapes, the clamping firmness is improved, and the application range of the positioning turnover device is widened.

Description

Machining, positioning and overturning device for mechanical parts

Technical Field

The invention relates to the technical field of machining of mechanical parts, in particular to a machining, positioning and overturning device for the mechanical parts.

Background

The machine is a tool device which can help people to reduce work difficulty or save labor, and articles such as chopsticks, brooms and tweezers can be called as the machine, and the machine is a simple machine; the complex machine is composed of two or more simple machines; these relatively complex machines are often called machines; from a structural and kinematic point of view, the mechanisms and machines are indistinguishable and broadly called mechanical; when machining a mechanical part, the mechanical part needs to be positioned and turned over through a positioning and turning device.

The existing mechanical part needs to be overturned by a positioning and overturning device during machining, before overturning, the mechanical part is clamped by a clamping assembly, during clamping, four corners of the mechanical part are generally fixed, after fixing, when overturning is completed for 180 degrees, the fixation of each corner is still firm, if overturning is performed for 45 degrees or 60 degrees, the mechanical part is in an inclined state, the gravity of the mechanical part in the inclined state to two clamping assemblies below the mechanical part is large, the clamping of two corners below the mechanical part is easy to loosen or slide in a dislocation manner, the mechanical part is deviated from the original position, the mechanical part cannot be continuously machined, and the use value of the positioning and overturning device is reduced.

Disclosure of Invention

Based on the fact that a positioning and overturning device is needed to overturn a mechanical part during machining of the existing mechanical part, the mechanical part is clamped through a clamping assembly before overturning, four corners of the mechanical part are generally fixed during clamping, after the mechanical part is fixed, when the mechanical part is overturned for 180 degrees, the fixing of each corner is still firm, if the mechanical part is overturned for 45 degrees or 60 degrees, the mechanical part is in an inclined state, the gravity of the mechanical part in the inclined state on the two clamping assemblies below the mechanical part is large, clamping of the two corners below the mechanical part is easy to loosen or slide in a dislocation mode, the mechanical part deviates from the original position, machining cannot be continuously conducted on the mechanical part, and the use value of the positioning and overturning device is reduced.

The invention provides a machining, positioning and overturning device for mechanical parts, which comprises a bottom plate, wherein a fixed plate is fixedly connected to the outer wall of the top of the bottom plate, two inclined support assemblies are arranged on the outer wall of the top of the fixed plate, two ends of the outer wall of the top of the bottom plate are fixedly connected with side plates, the fixed plate is positioned between the two side plates, each inclined support assembly comprises a support frame, a first hydraulic cylinder and a second hydraulic cylinder, the first hydraulic cylinder and the second hydraulic cylinder are fixedly connected to the outer wall of the top of the fixed plate, the support frame is connected to the outer walls of the tops of the first hydraulic cylinder and the second hydraulic cylinder through hinges, extrusion springs are fixedly connected to the outer wall of the top of the support frame at equal intervals, the same abutting plate is fixedly connected to the outer wall of the top of the support frame through hinges, and layered friction plates are fixedly connected to the outer walls of the tops of the abutting plates at equal intervals, and the layered friction plates are distributed in a ladder shape.

Preferably, two equal fixedly connected with backup pad of one side outer wall opposite of curb plate, and the equipartition distance of the top outer wall of two backup pads is opened has the sliding tray, and the equal sliding connection of inner wall of every sliding tray has the sliding block. The top outer wall fixedly connected with same motor cabinet of a plurality of sliding blocks that lie in same backup pad.

Preferably, the top outer wall fixedly connected with motor of motor cabinet, and the output shaft of motor passes through shaft coupling fixedly connected with pivot, the top outer wall fixedly connected with bearing plate of another motor cabinet, the outer wall of bearing plate is connected with the connecting axle through the bearing.

Preferably, the equal fixedly connected with locating plate of the relative one side outer wall of pivot and connecting axle, and four extending grooves have all been opened to the relative one side outer wall of two locating plates, and the equal sliding connection of inner wall of every extending groove has tensile pole, is located the same regulating plate of the outer wall fixedly connected with of two tensile poles of one side on same locating plate.

Preferably, the bottom plate is close to two bracing pieces of the equal fixedly connected with of top outer wall of every curb plate, and the same dust absorption board of the equal fixedly connected with of one side outer wall of every two adjacent bracing pieces, the top outer wall equidistance of dust absorption board is opened has the dust absorption hole, the bottom plate is close to the equal fixedly connected with dust collection box of top outer wall of every dust absorption board, the top outer wall fixedly connected with dust absorption pump of dust collection box, the dust absorption end of dust absorption pump passes through the pipe connection in the inside of dust absorption board, the defeated dirt end of dust absorption pump passes through the inside of pipe connection in dust collection box.

Preferably, the outer wall fixedly connected with motor board of curb plate, and the outer wall fixedly connected with push rod motor of motor board, the push rod end fixed connection of push rod motor is in the outer wall of motor cabinet.

Preferably, the locating plate is close to the equal fixedly connected with fixed block of the outer wall of every regulating plate, and the outer wall fixedly connected with adjust the cylinder of fixed block, adjust the other end fixed connection of cylinder in the outer wall of regulating plate.

Preferably, the equal fixedly connected with mounting bracket of top outer wall and bottom outer wall of regulating plate, and the equal fixedly connected with centre gripping cylinder of the relative one side outer wall of two mounting brackets, the equal fixedly connected with extrusion frame of the relative one side outer wall of two centre gripping cylinders, the equal fixedly connected with grip block of the relative one side outer wall of two extrusion frames, two extrusion frames are close to the equal distance fixedly connected with adaptation spring of the relative one side outer wall of grip block, the same dead lever of outer wall fixedly connected with of every row of adaptation spring, the outer wall equidistance fixedly connected with friction head of dead lever.

Preferably, the outer wall of the top of the motor base is fixedly connected with lock rings, lock holes are formed in the outer wall of the connecting shaft at equal intervals, and locking assemblies are arranged on the outer walls, close to the lock holes, of the lock rings.

Preferably, the locking subassembly includes the locking needle, and the catch is located inboard outer wall equidistance fixedly connected with installation piece, the equal fixedly connected with locking cylinder of outer wall of every installation piece, locking needle fixed connection in locking cylinder's output, the outer wall equidistance fixedly connected with arc piece of locking needle, the equal fixedly connected with packing spring of outer wall of every arc piece, packing spring's outer wall fixedly connected with arc packing plate, the arc packing plate passes through hinged joint in locking needle's outer wall.

The beneficial effects of the invention are as follows:

1. through being provided with the slope supporting component, when using this location turning device to carry out the mechanical parts upset, if mechanical parts is the tilt state after the upset, then adjust the bottom outer wall contact of corresponding No. two pneumatic cylinders drive support frame and mechanical parts, then adjust the bottom outer wall full contact of level friction plate on the pneumatic cylinder drives the support frame and mechanical parts, during the contact, extrusion spring is extrudeed, the reaction force that extrusion spring brought makes the frictional force between level friction plate and the mechanical parts become bigger, reaction force through level friction plate and extrusion spring, make this support frame play the effect of slope support to the mechanical parts of slope, prevent that dislocation slip and the not hard up condition from appearing in two angles that mechanical parts are located the below, improve this location turning device's use value.

2. Through being provided with the grip block, the extrusion frame, adaptation spring and friction head, when carrying out machine parts's four corners centre gripping, adjust the grip block that centre gripping cylinder drove on the extrusion frame and carry out the centre gripping to machine parts's four corners, if machine parts's four corners is not located same face, then the friction head on the adaptation spring drive dead lever contacts with machine parts's different positions, drive the friction head through the adaptation spring and prescribe a limit to machine parts's four corners, make this centre gripping subassembly be applicable to the machine parts centre gripping of different shapes, improve the fastness of centre gripping and improve this location turning device's application scope.

3. Through being provided with dust collection box, dust absorption board and dust absorption pump, carry out machine parts and add man-hour, start the dust absorption pump, dust and the leading-in dust collection box of piece that the dust absorption hole on the dust absorption board produced machine parts processing are passed through to the dust absorption pump to ensure the cleanliness factor in processing place, avoid dust and piece to cause the injury to staff's health, improve this location turning device's security performance.

4. Through being provided with the locking subassembly, the motor drives the pivot and carries out mechanical parts's upset back, adjust the locking cylinder in the locking subassembly and drive the locking needle and insert in the epaxial lockhole of connecting, the in-process of locking needle insertion, the contact of arc packing plate and the inner wall of lockhole, the packing spring is extruded, make locking needle and arc packing plate cooperate and form the adaptation with the lockhole, thereby improve the effect of locking, the condition that rocks can not appear because of the vibrations that mechanical parts's weight and mechanical parts processing produced after the locking, thereby improve the stability in the mechanical parts course of working after the location upset.

Drawings

FIG. 1 is a schematic view of the overall structure of a machining, positioning and turning device for machine parts according to the present invention;

FIG. 2 is a side view of the overall structure of a machining, positioning and turning device for machine parts according to the present invention;

FIG. 3 is a schematic view of a tilting support assembly of a machining positioning and overturning device for machine parts according to the present invention;

FIG. 4 is a schematic diagram of a guide plate structure of a machining positioning and turning device for a machine part according to the present invention;

FIG. 5 is a schematic diagram of a clamping plate structure of a machining positioning and turning device for a machine part according to the present invention;

FIG. 6 is an enlarged view of a portion of the structure of FIG. 5;

FIG. 7 is a schematic view of a locking assembly of the machining positioning and overturning device for machine parts according to the present invention;

fig. 8 is a schematic view of the internal structure of a lock ring of a machining positioning and overturning device for a machine part according to the present invention.

In the figure: 1. a base plate; 2. a motor plate; 3. a motor; 4. a sliding groove; 5. a dust collection plate; 6. a support frame; 7. an adjusting cylinder; 8. a side plate; 9. a support bar; 10. a fixing plate; 11. a dust collection hole; 12. a dust collection box; 13. a first hydraulic cylinder; 14. a dust suction pump; 15. a bearing plate; 16. a connecting shaft; 17. an adjusting plate; 18. a second hydraulic cylinder; 19. a touch plate; 20. a hierarchical friction plate; 21. a compression spring; 22. a push rod motor; 23. a slider; 24. a rotating shaft; 25. a motor base; 26. a support plate; 27. a fixed block; 28. a stretch rod; 29. a mounting frame; 30. positioning a plate; 31. an extension groove; 32. fixing the rod; 33. a clamping cylinder; 34. a friction head; 35. a clamping plate; 36. adapting a spring; 37. an extrusion frame; 38. a locking ring; 39. mounting blocks; 40. a locking needle; 41. filling a spring; 42. an arc-shaped block; 43. an arc-shaped filling plate; 44. and locking the air cylinder.

Detailed Description

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

Referring to fig. 1-3, a machining, positioning and overturning device for machine parts comprises a base plate 1, a fixed plate 10 is fixedly connected to the outer wall of the top of the base plate 1, two inclined support assemblies are arranged on the outer wall of the top of the fixed plate 10, side plates 8 are fixedly connected to both ends of the outer wall of the top of the base plate 1, the fixed plate 10 is located between the two side plates 8, each inclined support assembly comprises a support frame 6, a first hydraulic cylinder 13 and a second hydraulic cylinder 18, the first hydraulic cylinder 13 and the second hydraulic cylinder 18 are fixedly connected to the outer wall of the top of the fixed plate 10, the support frame 6 is connected to the outer walls of the top of the first hydraulic cylinder 13 and the second hydraulic cylinder 18 through hinges, extrusion springs 21 are fixedly connected to the outer wall of the top of the support frame 6 at equal intervals, the same abutting plate 19 is fixedly connected to the outer walls of every adjacent three extrusion springs 21, the abutting plate 19 is connected to the outer wall of the top of the support frame 6 through hinges, the top outer wall of the abutting plate 19 is fixedly connected with layered friction plates 20 at equal intervals, the layered friction plates 20 are distributed in a step shape, and by arranging an inclined support component, when the positioning turnover device is used for overturning a mechanical part, if the mechanical part is in an inclined state after turnover, a corresponding second hydraulic cylinder 18 is adjusted to drive the support frame 6 to be in contact with the bottom outer wall of the mechanical part, then a first hydraulic cylinder 13 is adjusted to drive the layered friction plate 20 on the support frame 6 to be in complete contact with the bottom outer wall of the mechanical part, when in contact, the extrusion spring 21 is extruded, the friction force between the layered friction plate 20 and the mechanical part is increased by the reaction force brought by the extrusion spring 21, the support frame 6 plays a role of inclined support for the inclined mechanical part through the reaction force of the layered friction plate 20 and the extrusion spring 21, and the condition that two corners below the staggered mechanical part slide and loosen is prevented, the use value of the positioning and overturning device is improved.

Referring to fig. 1, 2, 4 and 5, the outer walls of the two opposite sides of the two side plates 8 are fixedly connected with supporting plates 26, the sliding grooves 4 are formed in the outer walls of the tops of the two supporting plates 26 at equal distances, and the inner wall of each sliding groove 4 is slidably connected with a sliding block 23. The same motor base 25 is fixedly connected to the top outer walls of the plurality of sliding blocks 23 on the same supporting plate 26.

In the invention, the outer wall of the top of the motor base 25 is fixedly connected with the motor 3, the output shaft of the motor 3 is fixedly connected with the rotating shaft 24 through the coupler, the outer wall of the top of the other motor base 25 is fixedly connected with the bearing plate 15, and the outer wall of the bearing plate 15 is connected with the connecting shaft 16 through the bearing.

In the invention, the outer walls of the opposite sides of the rotating shaft 24 and the connecting shaft 16 are fixedly connected with positioning plates 30, the outer walls of the opposite sides of the two positioning plates 30 are respectively provided with four extending grooves 31, the inner wall of each extending groove 31 is connected with a stretching rod 28 in a sliding manner, and the outer walls of the two stretching rods 28 positioned on one side of the same positioning plate 30 are fixedly connected with the same adjusting plate 17.

Referring to fig. 1 and 2, two support rods 9 are fixedly connected to the outer wall of the top of the bottom plate 1 close to each side plate 8, and the outer wall of the opposite side of each two adjacent support rods 9 is fixedly connected with the same dust suction plate 5, dust suction holes 11 are equidistantly formed in the outer wall of the top of the dust suction plate 5, a dust collection box 12 is fixedly connected to the outer wall of the top of the bottom plate 1 close to each dust suction plate 5, a dust suction pump 14 is fixedly connected to the outer wall of the top of the dust collection box 12, the dust suction end of the dust suction pump 14 is connected to the inside of the dust suction plate 5 through a pipeline, the dust conveying end of the dust suction pump 14 is connected to the inside of the dust collection box 12 through a pipeline, when machining a mechanical part is performed through the dust collection box 12, the dust suction plate 5 and the dust generated by machining of the mechanical part are guided into the dust collection box 12 through the dust suction holes 11 on the dust suction plate 5 by the dust suction pump 14, so as to ensure the cleanliness of a machining place, avoid dust and piece to cause the injury to staff's health, improve this location turning device's security performance.

Referring to fig. 4, the outer wall of the side plate 8 is fixedly connected with a motor plate 2, the outer wall of the motor plate 2 is fixedly connected with a push rod motor 22, and the push rod end of the push rod motor 22 is fixedly connected with the outer wall of the motor base 25.

Referring to fig. 5 and 6, the positioning plate 30 is close to the outer wall of each adjusting plate 17 and fixedly connected with a fixing block 27, the outer wall of the fixing block 27 is fixedly connected with an adjusting cylinder 7, the other end of the adjusting cylinder 7 is fixedly connected with the outer wall of the adjusting plate 17, the top outer wall and the bottom outer wall of the adjusting plate 17 are fixedly connected with mounting frames 29, the outer wall of one opposite side of each mounting frame 29 is fixedly connected with a clamping cylinder 33, the outer wall of one opposite side of each clamping cylinder 33 is fixedly connected with an extruding frame 37, the outer wall of one opposite side of each extruding frame 37 is fixedly connected with a clamping plate 35, the outer wall of one opposite side of each extruding frame 37, which is close to the clamping plate 35, is fixedly connected with adaptive springs 36 at equal distances, the outer wall of each row of adaptive springs 36 is fixedly connected with the same fixing rod 32, the outer wall of the fixing rod 32 is fixedly connected with friction heads 34 at equal distances, and the friction heads are arranged on the outer wall of the fixing rod 32 through the clamping plates 35, Extrusion frame 37, adaptation spring 36 and friction head 34, when carrying out machine parts's four corners centre gripping, adjust grip cylinder 33 and drive grip block 35 on the extrusion frame 37 and carry out the centre gripping to machine parts's four corners, if machine parts's four corners is not located same face, then adaptation spring 36 drives friction head 34 on the dead lever 32 and machine parts's different position contact, it prescribes a limit to machine parts's four corners to drive friction head 34 through adaptation spring 36, make this centre gripping subassembly be applicable to the machine parts centre gripping of different shapes, improve the fastness of centre gripping and improve this location turning device's application scope.

Referring to fig. 7 and 8, the outer wall of the top of the motor base 25 is fixedly connected with a locking ring 38, the outer wall of the connecting shaft 16 is provided with locking holes at equal intervals, the locking ring 38 is provided with a locking assembly near the outer wall of the locking hole, the locking assembly comprises a locking pin 40, the outer wall of the locking ring 38 at the inner side is fixedly connected with mounting blocks 39 at equal intervals, the outer wall of each mounting block 39 is fixedly connected with a locking cylinder 44, the locking pin 40 is fixedly connected with the output end of the locking cylinder 44, the outer wall of the locking pin 40 is fixedly connected with arc blocks 42 at equal intervals, the outer wall of each arc block 42 is fixedly connected with a filling spring 41, the outer wall of the filling spring 41 is fixedly connected with an arc filling plate 43, the arc filling plate 43 is connected with the outer wall of the locking pin 40 through a hinge, and after the motor 3 drives the rotating shaft 24 to overturn the mechanical parts, the locking cylinder 44 in the adjusting locking assembly drives the locking pin 40 to be inserted into the locking hole on the connecting shaft 16, the locking needle 40 male in-process, the contact of the inner wall of arc packing plate 43 and lockhole, filling spring 41 is extrudeed for locking needle 40 and arc packing plate 43 cooperate and lockhole formation adaptation, thereby improve the effect of locking, and the condition that rocks can not appear because of the vibrations that mechanical parts's weight and mechanical parts processing produced in connecting axle 16 after the locking, thereby improves the stability in the mechanical parts course of working after the location upset.

When the machine part clamping device is used, four corners of a machine part are respectively placed between the corresponding clamping plates 35, then the clamping cylinder 33 is adjusted to drive the clamping plates 35 on the extrusion frame 37 to clamp the four corners of the machine part, if the four corners of the machine part are not positioned on the same surface, the adaptive spring 36 drives the friction head 34 on the fixed rod 32 to be in contact with different positions of the machine part, the adaptive spring 36 drives the friction head 34 to limit the four corners of the machine part, after the machine part is clamped, the motor 3 is started when the machine part is machined, the motor 3 drives the positioning plate 30 to rotate through the rotating shaft 24, so as to drive the machine part to rotate, when the rotated machine part is positioned in an inclined state, the corresponding second hydraulic cylinder 18 is adjusted to drive the supporting frame 6 to be in contact with the outer wall of the bottom of the machine part, and then the first hydraulic cylinder 13 is adjusted to drive the layer friction plate 20 on the supporting frame 6 to be in complete contact with the outer wall of the bottom of the machine part, during the contact, extrusion spring 21 is extruded, the reaction force that extrusion spring 21 brought makes the frictional force between level friction plate 20 and the machine parts become bigger, through the reaction force of level friction plate 20 and extrusion spring 21, make this support frame 6 play the effect of inclined support to the machine parts of slope, ensure the stability after the machine parts upset, simultaneously, to the machine parts course of working, start dust absorption pump 14, dust and piece that dust absorption pump 14 produced through the dust absorption hole 11 on dust absorption plate 5 with the machine parts processing are leading-in dust collection box 12 to ensure the cleanliness factor of processing place.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims

1. The machining, positioning and overturning device for the machine parts comprises a base plate (1) and is characterized in that a fixed plate (10) is fixedly connected to the outer wall of the top of the base plate (1), two inclined supporting assemblies are arranged on the outer wall of the top of the fixed plate (10), side plates (8) are fixedly connected to two ends of the outer wall of the top of the base plate (1), the fixed plate (10) is located between the two side plates (8), each inclined supporting assembly comprises a supporting frame (6), a first hydraulic cylinder (13) and a second hydraulic cylinder (18), the first hydraulic cylinder (13) and the second hydraulic cylinder (18) are fixedly connected to the outer wall of the top of the fixed plate (10), the supporting frame (6) is connected to the outer walls of the top of the first hydraulic cylinder (13) and the second hydraulic cylinder (18) through hinges, and extrusion springs (21) are fixedly connected to the outer wall of the top of the supporting frame (6) at equal intervals, and the outer walls of every two adjacent three extrusion springs (21) are fixedly connected with the same abutting plate (19), the abutting plate (19) is connected to the outer wall of the top of the support frame (6) through a hinge, the outer wall of the top of the abutting plate (19) is fixedly connected with layered friction plates (20) at equal intervals, and the layered friction plates (20) are distributed in a step shape.

2. A machining, positioning and overturning device for machine parts as claimed in claim 1, characterized in that the outer walls of the two opposite sides of the side plates (8) are fixedly connected with supporting plates (26), the outer walls of the tops of the two supporting plates (26) are provided with sliding grooves (4) at equal distances, and the inner wall of each sliding groove (4) is slidably connected with a sliding block (23). The outer walls of the tops of the sliding blocks (23) on the same supporting plate (26) are fixedly connected with the same motor base (25).

3. The machining, positioning and overturning device for the machine parts as claimed in claim 2, wherein the motor (3) is fixedly connected to the outer wall of the top of the motor seat (25), the output shaft of the motor (3) is fixedly connected with the rotating shaft (24) through a coupler, the outer wall of the top of the other motor seat (25) is fixedly connected with the bearing plate (15), and the outer wall of the bearing plate (15) is connected with the connecting shaft (16) through a bearing.

4. A machining, positioning and overturning device for machine parts according to claim 3, characterized in that the rotating shaft (24) and the outer wall of the connecting shaft (16) on the opposite side are fixedly connected with positioning plates (30), the outer wall of the two positioning plates (30) on the opposite side is provided with four extending grooves (31), the inner wall of each extending groove (31) is slidably connected with a stretching rod (28), and the outer walls of the two stretching rods (28) on the same positioning plate (30) are fixedly connected with the same adjusting plate (17).

5. The machining, positioning and overturning device for the machine parts as claimed in claim 1, wherein two support rods (9) are fixedly connected to the outer wall of the top of the bottom plate (1) close to each side plate (8), and the same dust collection plate (5) is fixedly connected to the outer wall of the opposite side of each two adjacent support rods (9), dust collection holes (11) are equidistantly formed in the outer wall of the top of the dust collection plate (5), a dust collection box (12) is fixedly connected to the outer wall of the top of the bottom plate (1) close to each dust collection plate (5), a dust collection pump (14) is fixedly connected to the outer wall of the top of the dust collection box (12), the dust collection end of the dust collection pump (14) is connected to the inside of the dust collection plate (5) through a pipeline, and the dust output end of the dust collection pump (14) is connected to the inside of the dust collection box (12) through a pipeline.

6. The machining, positioning and overturning device for the machine parts is characterized in that a motor plate (2) is fixedly connected to the outer wall of the side plate (8), a push rod motor (22) is fixedly connected to the outer wall of the motor plate (2), and the push rod end of the push rod motor (22) is fixedly connected to the outer wall of a motor base (25).

7. A machining, positioning and overturning device for machine parts according to claim 4, characterized in that the positioning plate (30) is fixedly connected with a fixing block (27) near the outer wall of each adjusting plate (17), the outer wall of the fixing block (27) is fixedly connected with an adjusting cylinder (7), and the other end of the adjusting cylinder (7) is fixedly connected with the outer wall of the adjusting plate (17).

8. The machining, positioning and overturning device for the machine parts as claimed in claim 7, wherein the top outer wall and the bottom outer wall of the adjusting plate (17) are both fixedly connected with mounting frames (29), the outer wall of one opposite side of each of the two mounting frames (29) is both fixedly connected with a clamping cylinder (33), the outer wall of one opposite side of each of the two clamping cylinders (33) is both fixedly connected with an extrusion frame (37), the outer wall of one opposite side of each of the two extrusion frames (37) is both fixedly connected with a clamping plate (35), the outer walls of the two extrusion frames (37) close to the clamping plates (35) are both fixedly connected with adaptive springs (36) at equal distances, the outer wall of each row of adaptive springs (36) is fixedly connected with the same fixing rod (32), and the outer walls of the fixing rods (32) are both fixedly connected with friction heads (34) at equal distances.

9. The machining, positioning and overturning device for the machine parts is characterized in that a lock ring (38) is fixedly connected to the outer wall of the top of the motor base (25), lock holes are formed in the outer wall of the connecting shaft (16) at equal intervals, and a locking assembly is arranged on the lock ring (38) close to the outer wall of each lock hole.

10. The machining, positioning and overturning device for the machine part as claimed in claim 9, wherein the locking assembly comprises a locking pin (40), the outer wall of the locking ring (38) on the inner side is fixedly connected with mounting blocks (39) at equal intervals, the outer wall of each mounting block (39) is fixedly connected with a locking cylinder (44), the locking pin (40) is fixedly connected with the output end of the locking cylinder (44), the outer wall of the locking pin (40) is fixedly connected with arc blocks (42) at equal intervals, the outer wall of each arc block (42) is fixedly connected with a filling spring (41), the outer wall of each filling spring (41) is fixedly connected with an arc filling plate (43), and the arc filling plate (43) is connected with the outer wall of the locking pin (40) through a hinge.