CN107717677B

CN107717677B - Processing equipment for oil pump blade

Info

Publication number: CN107717677B
Application number: CN201711024140.2A
Authority: CN
Inventors: 肖惠文; 许荣滨; 付东超; 楼寒阳; 梁贵林; 梁文平
Original assignee: Zhejiang Xcc Group Co ltd
Current assignee: Zhejiang Xcc Group Co ltd
Priority date: 2017-10-27
Filing date: 2017-10-27
Publication date: 2023-06-06
Anticipated expiration: 2037-10-27
Also published as: CN107717677A

Abstract

The utility model provides a processing equipment of oil pump blade, including work platform, be fixed with X axle feed mechanism on the work platform, install X workstation on the X axle feed mechanism, be fixed with Y axle feed mechanism on the X workstation, install Y workstation on the Y axle feed mechanism, be fixed with vertical backup pad on the Y workstation, be fixed with Z axle feed mechanism on the backup pad preceding terminal surface, be fixed with Z workstation on the Z axle feed mechanism, the upside of Z workstation is equipped with feeding mechanism, feeding mechanism's exit end is equipped with fixture, fixture installs on Z workstation's preceding terminal surface, feeding mechanism's entrance point is equipped with vibration feed mechanism, feeding mechanism exit end's downside is equipped with processingequipment. The automatic processing device for the bearing parts can replace manual operation to realize automatic processing of the bearing blades, can improve the processing efficiency of the blades, and reduces the potential safety hazards of processing.

Description

Processing equipment for oil pump blade

Technical Field

The invention relates to the technical field of bearing machining equipment, in particular to machining equipment for oil pump blades.

Background

Bearings are an important component of the industrial industry. The general rolling bearing consists of an outer ring, an inner ring, a retainer and balls, a rectangular blade structure is further arranged in some special bearings, two side edges of each blade are required to be processed into arc surfaces, the inner ring and the outer ring of the bearing can be matched, the existing processing mode of the bearing blade adopts a manual processing mode, the manual processing mode is low in efficiency, and certain potential safety hazards exist during grinding.

Disclosure of Invention

The invention aims at overcoming the defects of the prior art, and provides processing equipment for an oil pump blade, which can realize automatic processing of arc surfaces on two sides of a bearing blade.

The machining equipment for the oil pump blade comprises a working platform, wherein an X-axis feeding mechanism is fixed on the working platform, an X-axis workbench is arranged on the X-axis feeding mechanism, a Y-axis feeding mechanism is fixed on the X-axis workbench, a Y-axis workbench is arranged on the Y-axis feeding mechanism, a vertical supporting plate is fixed on the Y-axis workbench, a Z-axis feeding mechanism is fixed on the front end surface of the supporting plate, a Z-axis workbench is fixed on the Z-axis feeding mechanism, a feeding mechanism is arranged on the upper side of the Z-axis workbench, a clamping mechanism is arranged at the outlet end of the feeding mechanism, the clamping mechanism is arranged on the front end surface of the Z-axis workbench, a vibration feeding mechanism is arranged at the inlet end of the feeding mechanism, and a machining device is arranged at the lower side of the outlet end of the feeding mechanism;

the vibration feeding mechanism comprises a vibration feeding disc, the vibration feeding disc is fixed on a bracket, the bracket is fixed on a Y workbench, an output groove rail is fixed on the vibration feeding disc, and the output groove rail is connected with the inlet end of the feeding mechanism; the processing device comprises a grinding wheel, wherein the grinding wheel is fixed on the working platform through a wheel mounting seat, a driving motor is fixed on the wheel mounting seat, and a rotating shaft of the driving motor is fixedly connected with the grinding wheel;

the feeding mechanism comprises a rear baffle plate distributed on the front side of the Z workbench, a bottom plate is fixed on the lower end face of the rear baffle plate, a front baffle bar is fixed on the upper end face of the front side of the bottom plate through a first bolt, a conveying channel is formed between the front baffle bar and the rear baffle plate, the rear baffle plate at one end of the conveying channel is fixedly connected with an output groove rail on the vibration feeding mechanism, a vertical rear panel is fixed on the rear baffle plate at the other end of the conveying channel, a left baffle bar and a right baffle bar are respectively fixed on two sides of the rear panel, a lower baffle bar is fixed at the lower end of the rear panel, a front panel is fixed on the front end faces of the left baffle bar, the right baffle bar and the lower baffle bar, a discharge hole is formed between the left baffle bar and the lower baffle bar, a pushing bar opposite to the discharge hole is inserted between the right baffle bar and the lower baffle bar, a connecting column is fixed at the right end of the pushing bar, the rear end of the connecting column is fixed on a T-shaped connecting piece through a second bolt, the connecting piece is fixed on a piston rod of a pushing cylinder, and the pushing cylinder is fixed on the rear end of the supporting plate; a plurality of supporting pieces are fixed on the rear panel and fixed on the supporting plate;

the clamping mechanism comprises a side stop block opposite to a discharge hole of the feeding mechanism, the side stop block is fixed on a Z workbench through a third bolt, an inverted L-shaped supporting plate is arranged on the lower side of the Z workbench, the L-shaped supporting plate is fixed on a material supporting cylinder, the material supporting cylinder is fixed on the Z workbench, a plurality of fixing rods are fixed on the Z workbench on the upper side of the material supporting cylinder, the front end of each fixing rod is fixed with a horizontal support plate, a clamping cylinder is fixed on each support plate, conical clamping heads are fixed on piston rods of the clamping cylinders, and the clamping heads are distributed on the right side of the side stop block.

Preferably, the X-axis feeding mechanism comprises a plurality of X-axis guide rails, the X-axis guide rails are fixed on the working platform, X-axis sliding blocks are sleeved on the X-axis guide rails in a inserted mode, the X-axis sliding blocks are fixed on the lower end face of the X-axis working platform, X-axis lead screws are arranged between the X-axis guide rails, two ends of each X-axis lead screw are hinged to X-axis bearing seats, X-axis servo motors are fixed on the X-axis bearing seats, rotating shafts of the X-axis servo motors are fixedly connected with the X-axis lead screws, X-axis screw sleeves are screwed on the X-axis lead screws, and the X-axis screw sleeves are fixed on the lower end face of the X-axis working platform.

Preferably, the Y-axis feeding mechanism comprises a plurality of base plates, Y-axis guide rails are fixed on the X-workbench, Y-axis sliding blocks are inserted on the Y-axis guide rails and fixed on the lower end face of the Y-workbench, Y-axis lead screws are arranged between the Y-axis guide rails, two ends of each Y-axis lead screw are hinged on Y-axis bearing seats, Y-axis servo motors are fixed on the Y-axis bearing seats, rotating shafts of the Y-axis servo motors are fixedly connected with the Y-axis lead screws, Y-axis screw sleeves are screwed on the Y-axis lead screws, and the Y-axis screw sleeves are fixed on the lower end face of the Y-workbench.

Preferably, the Z-axis feeding mechanism comprises a Z-axis guide rail, the Z-axis guide rail is fixed on the front end face of the supporting plate, a Z-axis sliding block is inserted on the Z-axis guide rail, the Z-axis sliding block is fixed on the rear end face of the Z-axis workbench, a connecting plate is fixed on the upper end face of the Z-axis workbench, a Z-axis oil cylinder mounting bracket is fixed on the supporting plate at the rear side of the connecting plate, a Z-axis oil cylinder is fixed on the upper end face of the Z-axis oil cylinder mounting bracket, and a piston rod of the Z-axis oil cylinder penetrates through the Z-axis oil cylinder mounting bracket to be fixed on the connecting plate.

Preferably, the distance between the rear baffle and the front barrier strip on the feeding mechanism is equal to the distance between the rear panel and the front panel, and the front end face of the rear baffle and the front end face of the rear panel are located in the same plane.

Preferably, a plurality of perspective slotted holes are formed on the front panel of the feeding mechanism.

Preferably, the side stop block on the clamping mechanism is provided with a vertical waist-shaped hole, the third bolt is inserted into the waist-shaped hole of the side stop block, the upper end of the side stop block is provided with a notch, the notch of the side stop block is inserted with a positioning block, the positioning block is fixed on the front end face of the Z workbench, the positioning block is in threaded connection with an adjusting screw, and the lower end of the adjusting screw is abutted against the side stop block.

A protective cover is arranged outside the grinding wheel on the processing device.

The invention has the beneficial effects that:

the automatic processing device for the bearing parts can replace manual operation to realize automatic processing of the bearing blades, can improve the processing efficiency of the blades, and reduces the potential safety hazards of processing.

Drawings

FIG. 1 is a schematic view of a three-dimensional structure of the present invention;

FIG. 2 is a schematic top view of the present invention;

FIG. 3 is a schematic diagram of the front view of the present invention;

FIG. 4 is a schematic side view of the present invention;

FIG. 5 is a schematic perspective view of a clamping mechanism according to the present invention;

FIG. 6 is a schematic top view of the clamping frame of the present invention;

FIG. 7 is a schematic elevational view of the clamping frame of the present invention;

FIG. 8 is a schematic perspective view of a feeding mechanism according to the present invention;

FIG. 9 is a schematic top view of the feed mechanism of the present invention;

fig. 10 is a schematic front view of the feeding mechanism of the present invention.

In the figure: 1. a working platform; 2. an X workbench; 3. an X-axis feeding mechanism; 4. a Y-axis feeding mechanism; 5. a Y workbench; 6. a support plate; 7. a Z-axis feeding mechanism; 8. a feeding mechanism; 9. a clamping mechanism; 10. a Z workbench; 11. a vibratory feeding mechanism; 12. a processing device;

31. an X-axis guide rail; 32. an X-axis sliding block; 33. an X-axis bearing seat; 34. an X-axis screw rod; 35. an X-axis screw sleeve; 36. an X-axis servo motor; 41. a backing plate; 42. a Y-axis guide rail; 43. a Y-axis slider; 44. a Y-axis bearing seat; 45. a Y-axis screw rod; 46. a Y-axis screw sleeve; 47. a Y-axis servo motor; 71. a Z-axis guide rail; 72. a Z-axis slider; 73. the Z-axis oil cylinder mounting bracket; 74. a Z-axis oil cylinder;

81. a bottom plate; 82. a rear baffle; 83. a front barrier strip; 84. a first bolt; 85. a rear panel; 86. a right barrier strip; 87. a front panel; 871. perspective slots; 88. a left barrier strip; 89. a lower barrier strip; 810. pushing the material strip; 811. a connecting column; 812. a connecting piece; 813. a second bolt; 814. A pushing cylinder; 815. a support;

91. a material supporting cylinder; 92. an L-shaped supporting plate; 93. a side stopper; 94. a positioning block; 95. an adjusting screw; 96. a support plate; 97. a fixed rod; 98. a clamping cylinder; 99. a clamping head; 910. a third bolt; 111. a vibratory feed tray; 112. a bracket; 113. an output grooved rail; 121. grinding wheel; 122. a protective cover; 123. and a grinding wheel mounting seat.

Detailed Description

Examples: referring to fig. 1 to 10, a processing device for oil pump blades comprises a working platform 1, wherein an X-axis feeding mechanism 3 is fixed on the working platform 1, an X-axis workbench 2 is arranged on the X-axis feeding mechanism 3, a Y-axis feeding mechanism 4 is fixed on the X-axis workbench 2, a Y-axis workbench 5 is arranged on the Y-axis feeding mechanism 4, a vertical supporting plate 6 is fixed on the Y-workbench 5, a Z-axis feeding mechanism 7,Z is fixed on the front end surface of the supporting plate 6, a Z-axis workbench 10 is fixed on the Z-axis feeding mechanism 7, a feeding mechanism 8 is arranged on the upper side of the Z-axis workbench 10, a clamping mechanism 9 is arranged at the outlet end of the feeding mechanism 8, a vibrating feeding mechanism 11 is arranged at the inlet end of the feeding mechanism 8, and a processing device 12 is arranged at the lower side of the outlet end of the feeding mechanism 8;

the vibration feeding mechanism 11 comprises a vibration feeding disc 111, the vibration feeding disc 111 is fixed on a bracket 112, the bracket 112 is fixed on the Y workbench 5, an output groove rail 113 is fixed on the vibration feeding disc 111, and the output groove rail 113 is connected with the inlet end of the feeding mechanism 8; the processing device 12 comprises a grinding wheel 121, wherein the grinding wheel 121 is fixed on the working platform 1 through a grinding wheel mounting seat 123, a driving motor is fixed on the grinding wheel mounting seat 123, and a rotating shaft of the driving motor is fixedly connected with the grinding wheel 121;

the feeding mechanism 8 comprises a rear baffle 82 distributed on the front side of the Z workbench 10, a bottom plate 81 is fixed on the lower end surface of the rear baffle 82, a front baffle strip 83 is fixed on the upper end surface of the front side of the bottom plate 81 through a first bolt 84, a conveying channel b is formed between the front baffle strip 83 and the rear baffle 82, the rear baffle 82 at one end of the conveying channel b is fixedly connected with an output groove rail 113 on the vibration feeding mechanism 11, a vertical rear panel 85 is fixed on the rear baffle 82 at the other end of the conveying channel b, a left baffle strip 88 and a right baffle strip 86 are respectively fixed on two sides of the rear panel 85, a lower baffle strip 89 is fixed on the lower end of the rear panel 85, a front panel 87 is fixed on the front end surfaces of the left baffle strip 88, the right baffle strip 86 and the lower baffle strip 89, a material pushing strip 810 opposite to the material outlet a is inserted between the left baffle strip 88 and the lower baffle strip 89, a connecting column 811 is fixed on the right end of the material pushing strip 810, the rear end of the connecting column 811 is fixed on a cylinder 812 of a cylinder 814 through a second bolt 813, and the rear end of the connecting column 811 is fixed on the cylinder 812 of the cylinder 814; a plurality of supporting pieces 815 are fixed on the rear panel 85, and the supporting pieces 815 are fixed on the supporting plate 6;

the clamping mechanism 9 comprises a side stop block 93 opposite to a discharge hole a of the feeding mechanism 8, the side stop block 93 is fixed on the Z workbench 10 through a third bolt 910, an inverted L-shaped supporting plate 92 is arranged on the lower side of the Z workbench 10, the L-shaped supporting plate 92 is fixed on a material supporting cylinder 91, the material supporting cylinder 91 is fixed on the Z workbench 10, a plurality of fixing rods 97 are fixed on the Z workbench 10 on the upper side of the material supporting cylinder 91, the front end of each fixing rod 97 is fixed with a horizontal support plate 96, a clamping cylinder 98 is fixed on the support plate 96, a conical clamping head 99 is fixed on a piston rod of the clamping cylinder 98, and the clamping heads 99 are distributed on the right side of the side stop block 93.

The X-axis feeding mechanism 3 comprises a plurality of X-axis guide rails 31, the X-axis guide rails 31 are fixed on the working platform 1, X-axis sliding blocks 32 are sleeved on the X-axis guide rails 31, the X-axis sliding blocks 32 are fixed on the lower end face of the X working platform 2, X-axis lead screws 34 are arranged between the X-axis guide rails 31, two ends of each X-axis lead screw 34 are hinged to an X-axis bearing seat 33, an X-axis servo motor 36 is fixed on each X-axis bearing seat 33, a rotating shaft of each X-axis servo motor 36 is fixedly connected with each X-axis lead screw 34, an X-axis screw sleeve 35 is screwed on each X-axis lead screw 34, and each X-axis screw sleeve 35 is fixed on the lower end face of the X working platform 2.

The Y-axis feeding mechanism 4 comprises a plurality of backing plates 41, Y-axis guide rails 42 are fixed on the backing plates 41, the Y-axis guide rails 42 are fixed on the X-workbench 2, Y-axis sliding blocks 43 are sleeved on the Y-axis guide rails 42, the Y-axis sliding blocks 43 are fixed on the lower end face of the Y-workbench 5, Y-axis lead screws 45 are arranged between the Y-axis guide rails 42, two ends of the Y-axis lead screws 45 are hinged on Y-axis bearing seats 44, Y-axis servo motors 47 are fixed on the Y-axis bearing seats 44, rotating shafts of the Y-axis servo motors 47 are fixedly connected with the Y-axis lead screws 45, Y-axis screw sleeves 46 are screwed on the Y-axis lead screws 45, and the Y-axis screw sleeves 46 are fixed on the lower end face of the Y-workbench 5.

The Z-axis feeding mechanism 7 comprises a Z-axis guide rail 71, the Z-axis guide rail 71 is fixed on the front end face of the supporting plate 6, a Z-axis sliding block 72 is inserted on the Z-axis guide rail 71, the Z-axis sliding block 72 is fixed on the rear end face of the Z-axis workbench 10, a connecting plate is fixed on the upper end face of the Z-axis workbench 10, a Z-axis cylinder mounting bracket 73 is fixed on the supporting plate 6 on the rear side of the connecting plate, a Z-axis cylinder 74 is fixed on the upper end face of the Z-axis cylinder mounting bracket 73, and a piston rod of the Z-axis cylinder 74 penetrates through the Z-axis cylinder mounting bracket 73 to be fixed on the connecting plate.

The distance between the rear baffle 82 and the front baffle bar 83 on the feeding mechanism 8 is equal to the distance between the rear panel 85 and the front panel 87, and the front end surface of the rear baffle 82 and the front end surface of the rear panel 85 are located in the same plane.

A plurality of perspective slots 871 are formed in the front panel 87 of the feeding mechanism 8.

The side stop block 93 on the clamping mechanism 9 is provided with a vertical waist-shaped hole, a third bolt 910 is inserted into the waist-shaped hole of the side stop block 93, the upper end of the side stop block 93 is provided with a notch, the notch of the side stop block 93 is inserted with a positioning block 94, the positioning block 94 is fixed on the front end face of the Z workbench 10, the positioning block 94 is in threaded connection with an adjusting screw 95, and the lower end of the adjusting screw 95 abuts against the side stop block 93.

A protective cover 122 is arranged outside the grinding wheel 121 on the processing device 12.

Working principle: the invention relates to processing equipment of bearing parts, which adopts the working mode that;

the vibration feeding mechanism 11 drives the blades, then the blades enter the conveying channel b of the feeding mechanism 8, under the action of vibration and the pushing of the following blades, the blades are poured into the trough between the left baffle bar 88 and the right baffle bar 86 and blocked by the lower baffle bar 89, then the pushing cylinder 814 is driven to push the pushing bar 810, before pushing, the Z-axis feeding mechanism 7 drives the Z-axis workbench 10 to lift up, the side baffle plate 93 of the clamping mechanism 9 is opposite to the discharge port a on the feeding mechanism 8, the material supporting cylinder 91 is driven to push the supporting plate 92 to the right side of the side baffle plate 93, after the pushing bar 810 pushes the blades, the blades fall on the supporting plate 92 and abut against the right side wall of the side baffle plate 93, then the pushing bar 810 resets, the clamping cylinder 98 drives the clamping head 99 to clamp the blades, after the clamping is completed, the supporting plate 92 resets, the Z-axis feeding mechanism 7 drives the Z-axis feeding mechanism 10 to reset, and then drives the X-axis feeding mechanism 3 and the Y-axis feeding mechanism 4 to approach the grinding wheel 121 to the grinding wheel for grinding the arc surface.

The examples are presented to illustrate the invention and are not intended to limit the invention. Modifications to the described embodiment may occur to those skilled in the art without departing from the spirit and scope of the invention, and the scope of the invention is therefore set forth in the appended claims.

Claims

1. The utility model provides a processing equipment of oil pump blade, includes work platform (1), is fixed with X axle feed mechanism (3) on work platform (1), installs X workstation (2) on X axle feed mechanism (3), is fixed with Y axle feed mechanism (4) on X workstation (2), installs Y workstation (5), its characterized in that on Y axle feed mechanism (4): a vertical supporting plate (6) is fixed on the Y workbench (5), a Z-axis feeding mechanism (7) is fixed on the front end face of the supporting plate (6), a Z workbench (10) is fixed on the Z-axis feeding mechanism (7), a feeding mechanism (8) is arranged on the upper side of the Z workbench (10), a clamping mechanism (9) is arranged at the outlet end of the feeding mechanism (8), the clamping mechanism (9) is arranged on the front end face of the Z workbench (10), a vibrating feeding mechanism (11) is arranged at the inlet end of the feeding mechanism (8), and a processing device (12) is arranged at the lower side of the outlet end of the feeding mechanism (8);

the vibration feeding mechanism (11) comprises a vibration feeding disc (111), the vibration feeding disc (111) is fixed on a bracket (112), the bracket (112) is fixed on the Y workbench (5), an output groove rail (113) is fixed on the vibration feeding disc (111), and the output groove rail (113) is connected with the inlet end of the feeding mechanism (8); the processing device (12) comprises a grinding wheel (121), wherein the grinding wheel (121) is fixed on the working platform (1) through a wheel mounting seat (123), a driving motor is fixed on the wheel mounting seat (123), and a rotating shaft of the driving motor is fixedly connected with the grinding wheel (121);

the feeding mechanism (8) comprises a rear baffle (82) distributed on the front side of the Z workbench (10), a bottom plate (81) is fixed on the lower end face of the rear baffle (82), a front baffle (83) is fixed on the upper end face of the front side of the bottom plate (81) through a first bolt (84), a conveying channel (b) is formed between the front baffle (83) and the rear baffle (82), a discharge port (a) is formed between the rear baffle (82) at one end of the conveying channel (b) and an output channel rail (113) on the vibrating feeding mechanism (11), a vertical rear panel (85) is fixed on the rear baffle (82) at the other end of the conveying channel (b), a left baffle (88) and a right baffle (86) are respectively fixed on two sides of the rear panel (85), a lower baffle (89) is fixed on the lower end of the rear panel (85), a front panel (87) is fixed on the front end face of the left baffle (88), a right baffle (86) and the front end face of the lower baffle (89), a discharge port (89) is formed between the left baffle (88) and the lower baffle (89), a) is fixedly connected with a second pushing rod (811) through a fixed bolt (811) at the opposite end of the push rod (811), the connecting piece (812) is fixed on a piston rod of the pushing cylinder (814), and the pushing cylinder (814) is fixed on the rear end surface of the supporting plate (6); a plurality of supporting pieces (815) are fixed on the rear panel (85), and the supporting pieces (815) are fixed on the supporting plate (6);

the clamping mechanism (9) comprises a side stop block (93) opposite to a discharge hole (a) of the feeding mechanism (8), the side stop block (93) is fixed on a Z workbench (10) through a third bolt (910), an inverted L-shaped supporting plate (92) is arranged on the lower side of the Z workbench (10), the L-shaped supporting plate (92) is fixed on a supporting cylinder (91), the supporting cylinder (91) is fixed on the Z workbench (10), a plurality of fixing rods (97) are fixed on the Z workbench (10) on the upper side of the supporting cylinder (91), a horizontal supporting plate (96) is fixed at the front end of the fixing rod (97), a clamping cylinder (98) is fixed on a piston rod of the clamping cylinder (98), and the clamping head (99) is distributed on the right side of the side stop block (93).

2. The processing apparatus for an oil pump vane according to claim 1, wherein: the X-axis feeding mechanism (3) comprises a plurality of X-axis guide rails (31), the X-axis guide rails (31) are fixed on the working platform (1), X-axis sliding blocks (32) are sleeved on the X-axis guide rails (31), the X-axis sliding blocks (32) are fixed on the lower end face of the X-axis working platform (2), X-axis lead screws (34) are arranged between the X-axis guide rails (31), two ends of each X-axis lead screw (34) are hinged on an X-axis bearing seat (33), an X-axis servo motor (36) is fixed on each X-axis bearing seat (33), a rotating shaft of each X-axis servo motor (36) is fixedly connected with each X-axis lead screw (34), an X-axis screw sleeve (35) is connected onto each X-axis lead screw (34) in a screwed mode, and the X-axis screw sleeve (35) is fixed on the lower end face of the X-axis working platform (2).

3. The processing apparatus for an oil pump vane according to claim 1, wherein: the Y-axis feeding mechanism (4) comprises a plurality of base plates (41), Y-axis guide rails (42) are fixed on the X-axis workbench (2), Y-axis sliding blocks (43) are inserted in the Y-axis guide rails (42), Y-axis sliding blocks (43) are fixed on the lower end face of the Y-axis workbench (5), Y-axis lead screws (45) are arranged between the Y-axis guide rails (42), two ends of each Y-axis lead screw (45) are hinged on Y-axis bearing seats (44), Y-axis servo motors (47) are fixed on the Y-axis bearing seats (44), rotating shafts of the Y-axis servo motors (47) are fixedly connected with the Y-axis lead screws (45), Y-axis screw sleeves (46) are connected on the Y-axis lead screws (45) in a screwed mode, and the Y-axis screw sleeves (46) are fixed on the lower end face of the Y-axis workbench (5).

4. The processing apparatus for an oil pump vane according to claim 1, wherein: z axle feed mechanism (7) include Z axle guide rail (71), Z axle guide rail (71) are fixed on the preceding terminal surface of backup pad (6), the plug bush has Z axle slider (72) on Z axle guide rail (71), Z axle slider (72) are fixed on the rear end face of Z workstation (10), be fixed with the connecting plate on the up end of Z workstation (10), be fixed with Z axle jar installing support (73) on backup pad (6) of connecting plate rear side, be fixed with Z axle jar (74) on the up end of Z axle jar installing support (73), the piston rod of Z axle jar (74) passes Z axle jar installing support (73) and fixes on the connecting plate.

5. The processing apparatus for an oil pump vane according to claim 1, wherein: the distance between the rear baffle plate (82) and the front baffle strip (83) on the feeding mechanism (8) is equal to the distance between the rear panel (85) and the front panel (87), and the front end face of the rear baffle plate (82) and the front end face of the rear panel (85) are located in the same plane.

6. The processing apparatus for an oil pump vane according to claim 1, wherein: a plurality of perspective slotted holes (871) are formed in the front panel (87) of the feeding mechanism (8).

7. The processing apparatus for an oil pump vane according to claim 1, wherein: a vertical waist-shaped hole is formed in a side stop block (93) on the clamping mechanism (9), a third bolt (910) is inserted into the waist-shaped hole of the side stop block (93), a notch is formed in the upper end of the side stop block (93), a positioning block (94) is inserted into the notch of the side stop block (93), the positioning block (94) is fixed on the front end face of the Z-shaped workbench (10), an adjusting screw (95) is screwed on the positioning block (94), and the lower end of the adjusting screw (95) abuts against the side stop block (93).

8. The processing apparatus for an oil pump vane according to claim 1, wherein: a protective cover (122) is arranged outside the grinding wheel (121) on the processing device (12).