CN210967152U - Improved generation axle sleeve outer lane mills slotting machine - Google Patents

Abstract

The utility model discloses an improved shaft sleeve outer ring milling and notching machine, which comprises a main frame, wherein a main case is fixed at the rear part of a top plate of the main frame, and a rotary clamping head is arranged at the middle part of the front wall surface of the main case; a supporting frame is fixed on the front wall face of the mainframe box above the rotary clamping head, a vertical pushing mechanism is fixed on the front portion of the right side plate of the supporting frame, an oblique feeding mechanism is fixed on the rear portion of the right side plate of the supporting frame, and a discharge hole of the oblique feeding mechanism corresponds to a feed hole in the lower portion of the vertical pushing mechanism. The automatic feeding and processing device can automatically feed and process the shaft sleeve to be processed and automatically discharge the shaft sleeve, greatly improves the production efficiency and improves the processing effect.

Description

Improved generation axle sleeve outer lane mills slotting machine

The technical field is as follows:

the utility model relates to an axle sleeve processing equipment technical field, more specifically the improved generation axle sleeve outer lane mills slotting machine that says so.

Background art:

some current axle sleeves of taking the outer lane it need mill the incision with one side of its outer lane, as shown in fig. 1, it needs carry out the incision with the limit portion of its one side for it is the plane, and current axle sleeve all is artifical material loading processing, and its is inefficient, and the effect is poor, installs the axle sleeve on rotatory centre gripping head in addition artifically, and it dismantles the installation trouble, and is inefficient.

The utility model has the following contents:

the utility model aims at overcoming prior art's not enough, providing an improved generation axle sleeve outer lane mills slotting machine, it can be automatically will wait to process axle sleeve automatic feeding processing and automatic unloading, improves production efficiency greatly, improves the processing effect.

The utility model provides a technical problem's scheme is:

an improved spindle sleeve outer ring milling and cutting machine comprises a main frame, wherein a main case is fixed at the rear part of a top plate of the main frame, and a rotary clamping head is arranged in the middle of the front wall surface of the main case;

a supporting frame is fixed on the front wall face of the mainframe box above the rotary clamping head, a vertical pushing mechanism is fixed on the front portion of the right side plate of the supporting frame, an oblique feeding mechanism is fixed on the rear portion of the right side plate of the supporting frame, and a discharge hole of the oblique feeding mechanism corresponds to a feed hole in the lower portion of the vertical pushing mechanism.

The bottom surface of the bottom plate of the support frame is fixed with a horizontal plate, the middle bottom surface of the horizontal plate is fixed with a vertical connecting plate, a pushing cylinder is fixed on the left side wall of the vertical connecting plate, a push rod of the pushing cylinder penetrates through the vertical connecting plate and is fixed with a push plate, the lower part of the right side wall of the push plate is fixed with an annular push block, the top surface of the push plate is fixed with a transverse plate, the top surface of the transverse plate is tightly attached to the bottom surface of the horizontal plate, and the annular push block faces to the rotary clamping head.

An oblique guide material channel is fixed to the top surface of the top plate of the main frame on the right side of the rotary clamping head, a feeding side through groove is formed in the left side plate of the rear end of the oblique guide material channel, and the feeding side through groove corresponds to the rotary clamping head.

The material guide device is characterized in that a right side supporting frame is fixed on the top surface of a top plate of a main frame on the right side of the oblique guide material channel, an oblique plate is fixed at the top of the right side supporting frame, a material receiving cylinder is fixed on the right side wall of the oblique plate, a push rod of the material receiving cylinder penetrates through the oblique plate and is fixed with a bending frame, an oblique rod portion extending upwards in an oblique direction to the rotary clamping head is formed at the bottom of the bending frame, and a material return side through groove is formed in the right side plate of the rear end of the oblique guide material channel and penetrates through the feeding side through.

And a guide rod is fixed on the right side wall of the right side plate of the bending frame, and the guide rod is inserted in a guide sleeve fixed on the right side wall of the inclined plate.

The vertical pushing mechanism comprises an upper top plate, the upper top plate is fixed on the top surface of a support frame, a lifting cylinder is fixed on the top surface of the upper top plate, a push rod of the lifting cylinder penetrates through the bottom surface of the upper top plate and is fixed with a connecting plate, a guide sliding block is fixed on the left side wall of the connecting plate, a vertical guide sliding rail is fixed on the right side wall of the right side plate of the support frame and is inserted in a sliding groove of the guide sliding block, a lower vertical plate is fixed on the bottom surface of the right side of the upper top plate, a first through groove is formed in the lower portion of the lower vertical plate, a side connecting frame is fixed in the middle of the right side wall of the lower vertical plate, a first pushing cylinder is fixed on the right side plate of the side connecting frame, a push rod of the first pushing cylinder penetrates through the right side plate of the side connecting frame and is fixed with a first pushing plate, a first pushing block is fixed on the lower portion of the left side wall of the first pushing plate, a, the front end of the material receiving plate is formed with a blocking part, and the material receiving plate corresponds to the first through groove.

And a vertical material blocking strip is fixed on the rear wall surface of the lower vertical plate, and a feeding hole is formed between the bottom end of the vertical material blocking strip and the rear end of the material receiving plate.

The oblique feeding mechanism comprises an oblique bottom rod, a right limiting plate is fixed on the right side wall of the right side plate of the supporting frame, an oblique bottom rod and an oblique side blocking strip are fixed on the right side wall of the right limiting plate, and the shaft sleeve to be processed is located on the top surface of the oblique bottom rod and between the oblique side blocking strip and the right limiting plate;

a vertical extension part extending downwards is formed at the left end of the oblique side barrier strip, a discharge hole is formed in front of the front end of the oblique bottom rod, a bottom horizontal plate is fixed on the right side wall of a right limiting plate at the lower end of the discharge hole, the vertical extension part is positioned at the right side of the bottom horizontal plate, and the bottom horizontal plate is positioned behind the material receiving plate;

a rear fixing plate is fixed on the right side wall of the right limiting plate behind the bottom horizontal plate, a rear pushing cylinder is fixed on the rear fixing plate, a push rod of the rear pushing cylinder penetrates through the rear fixing plate and is fixed with a rear pushing block, and the rear pushing block is located at the rear part above the bottom horizontal plate.

And an arc-shaped groove is formed in the bottom surface of the material receiving plate.

And a cutter moving mechanism is fixed on the top surface of the front part of the top plate of the main frame.

The utility model discloses an outstanding effect is:

compared with the prior art, the automatic feeding and processing device can automatically feed and process the shaft sleeve to be processed and automatically discharge the shaft sleeve, greatly improves the production efficiency and improves the processing effect.

Description of the drawings:

FIG. 1 is a schematic view of a partial structure of a machined bushing;

fig. 2 is a partial front view of the present invention;

fig. 3 is a partial structural schematic view of the right side of the support frame of the present invention;

fig. 4 is a partial plan view of a tool mounting portion at the tool moving mechanism of the present invention;

fig. 5 is a partial sectional view of the slant guide material passage of the present invention;

fig. 6 is a schematic view of a partial structure of the material receiving plate of the present invention;

fig. 7 is a partial structural schematic view of the main cabinet of the present invention.

The specific implementation mode is as follows:

in the embodiment, as shown in fig. 1 to 7, an improved spindle sleeve outer ring milling and cutting machine comprises a main frame 10, wherein a main cabinet 20 is fixed at the rear part of a top plate of the main frame 10, and a rotary clamping head 30 is arranged at the middle part of the front wall surface of the main cabinet 20;

a support frame 40 is fixed on the front wall surface of the mainframe box 20 above the rotary clamping head 30, a vertical pushing mechanism 50 is fixed on the front portion of the right side plate of the support frame 40, an oblique feeding mechanism 60 is fixed on the rear portion of the right side plate of the support frame 40, and a discharge port of the oblique feeding mechanism 60 corresponds to a feed port on the lower portion of the vertical pushing mechanism 50.

Further, a horizontal plate 41 is fixed on the bottom surface of the bottom plate of the support frame 40, a vertical connecting plate 42 is fixed on the bottom surface of the middle portion of the horizontal plate 41, a material pushing cylinder 43 is fixed on the left side wall of the vertical connecting plate 42, a push rod of the material pushing cylinder 43 penetrates through the vertical connecting plate 42 and is fixed with a push plate 44, an annular push block 45 is fixed on the lower portion of the right side wall of the push plate 44, a transverse plate 46 is fixed on the top surface of the push plate 44, the top surface of the transverse plate 46 is tightly attached to the bottom surface of the horizontal plate 41, and the annular push block 45 faces the rotary clamping head 30.

Further, an oblique guide material channel 70 is fixed to the top surface of the top plate of the main frame 10 on the right side of the rotary clamping head 30, a feeding side through groove 71 is formed in the left side plate of the rear end of the oblique guide material channel 70, and the feeding side through groove 71 corresponds to the rotary clamping head 30.

Further, a right supporting frame 80 is fixed on the top surface of the top plate of the main frame 10 on the right side of the oblique guiding material channel 70, an oblique plate 81 is fixed on the top of the right supporting frame 80, a material receiving cylinder 82 is fixed on the right side wall of the oblique plate 81, a push rod of the material receiving cylinder 82 penetrates through the oblique plate 81 and is fixed with a bending frame 83, an oblique rod part 84 extending upwards in an oblique direction towards the rotary clamping head 30 is formed at the bottom of the bending frame 83, and a material returning side through groove 72 is formed on the right side plate of the rear end of the oblique guiding material channel 70 and penetrates through the feeding side through groove 71.

Further, a guide bar 85 is fixed on a right side wall of a right side plate of the bending frame 83, and the guide bar 85 is inserted into a guide sleeve 86 fixed on the right side wall of the inclined plate 81.

Further, the vertical pushing mechanism 50 includes an upper top plate 51, the upper top plate 51 is fixed on the top surface of the supporting frame 40, a lifting cylinder 52 is fixed on the top surface of the upper top plate 51, a push rod of the lifting cylinder 52 penetrates through the bottom surface of the upper top plate 51 and is fixed with a connecting plate 53, a guide slider 54 is fixed on the left side wall of the connecting plate 53, a vertical guide slide rail 55 is fixed on the right side wall of the right side plate of the supporting frame 40, the vertical guide slide rail 55 is inserted into a slide groove of the guide slider 54, a lower vertical plate 56 is fixed on the bottom surface of the right side of the upper top plate 51, a first through groove 57 is formed on the lower portion of the lower vertical plate 56, a side connecting frame 561 is fixed on the middle portion of the right side wall of the lower vertical plate 56, a first pushing cylinder 562 is fixed on the right side plate of the side connecting frame 561, a push rod of the first pushing cylinder 562 penetrates through the right side plate of the side connecting frame 561 and is fixed with a first pushing plate 563, a first pushing, the first pushing block 564 is inserted in the first through groove 57, a receiving plate 58 is fixed on the lower left side wall of the lower vertical plate 56, a blocking part 581 is formed at the front end of the receiving plate 58, and the receiving plate 58 corresponds to the first through groove 57.

Further, a vertical material blocking strip 59 is fixed on the rear wall surface of the lower vertical plate 56, and a feed port is formed between the bottom end of the vertical material blocking strip 59 and the rear end of the material receiving plate 58.

Further, the oblique feeding mechanism 60 includes an oblique bottom rod 61, a right limit plate 49 is fixed on the right sidewall of the support frame 40, an oblique bottom rod 61 and an oblique side barrier strip 62 are fixed on the right sidewall of the right limit plate 49, and the shaft sleeve 100 to be processed is located on the top surface of the oblique bottom rod 61 and between the oblique side barrier strip 62 and the right limit plate 49;

a vertical extension part 621 extending downwards is formed at the left end of the oblique side barrier strip 62, a discharge hole is formed in front of the front end of the oblique bottom rod 61, a bottom horizontal plate 63 is fixed on the right side wall of the right limiting plate 49 at the lower end of the discharge hole, the vertical extension part 621 is positioned at the right side of the bottom horizontal plate 63, and the bottom horizontal plate 63 is positioned behind the material receiving plate 58;

a rear fixing plate 48 is fixed on the right side wall of a right limiting plate 49 behind the bottom horizontal plate 63, a rear pushing cylinder 47 is fixed on the rear fixing plate 48, a push rod of the rear pushing cylinder 47 penetrates through the rear fixing plate 48 and is fixed with a rear pushing block 471, and the rear pushing block 471 is positioned at the rear part above the bottom horizontal plate 63.

Further, the bottom surface of the receiving plate 58 is formed with an arc-shaped groove 582.

Further, a cutter moving mechanism 180 is fixed to a front top surface of a top plate of the main frame 10.

The cutter moving mechanism 180 may be a common structure or a structure of this embodiment, the structure of this embodiment is that two support plates 181 are fixed on the top surface of the front portion of the top plate of the main frame 10, two ends of a transverse moving screw 182 are hinged on the two support plates 181 through bearings, a transverse moving block base 183 is screwed on the transverse moving screw 182, a first moving servo motor 1 is fixed on the outer side wall of one of the support plates 81, the output shaft of the first moving servo motor 1 is a spline shaft, the spline shaft is inserted and sleeved in a spline hole formed at one end of the transverse moving screw 182, a guide rail is fixed on the top surface of the top plate of the main frame 10 between the two support plates 181, a sliding groove is formed on the bottom surface of the transverse moving block base 183, the guide rail is inserted and sleeved in the corresponding sliding groove, and an upper support plate 184 is fixed on the front portion, two ends of the upper adjusting screw 185 are hinged to the two upper supporting plates 184 through bearings, one of the upper supporting plates 184 is fixed with a second mobile servo motor 2, an output shaft of the second mobile servo motor 2 is a spline shaft, and the spline shaft is inserted and sleeved in a spline hole formed in one end of the upper adjusting screw 185;

an upper guide track is fixed on the top surface of a transverse moving block base 183 between two upper supporting plates 184, a cutter fixing seat 186 is screwed on an upper adjusting screw 185, a lower sliding groove is formed in the bottom surface of the cutter fixing seat 186, the upper guide track is inserted and sleeved in the lower sliding groove, and a cutting knife 1 is fixed on the cutter fixing seat 86.

The structure of the mainframe box 20 and the rotary clamping head 30 are common structures, which may adopt common structures, or may adopt a structure shown in fig. 7, a central through hole 21 is formed in the middle of the mainframe box 20, a guide sleeve body 22 is fixed in the middle of the front wall surface of the mainframe box 20, the inner side wall of the guide sleeve body 22 is a conical wall surface, the rotary clamping head 30 is composed of two semicircular blocks 31, the outer side wall of each semicircular block 31 is a conical wall surface, the two semicircular blocks 31 are inserted and sleeved in the guide sleeve body 22, the conical wall surfaces of the two semicircular blocks 31 are tightly attached to the inner side wall of the guide sleeve body 22, clamping blocks 32 are formed on the front wall surfaces of the two semicircular blocks 31, arc-shaped grooves are formed in the middle parts of the two clamping blocks 32, and the shaft sleeve 100 to be processed corresponds to the two arc-;

the rear ends of the two semicircular blocks 31 are formed with connecting parts which are inserted and sleeved in the central through hole 21, the outer connecting sleeve 23 is inserted and sleeved in the central through hole 21, the right end of the outer connecting sleeve 23 is hinged on the connecting parts, the outer side wall of the rear part of the outer connecting sleeve 23 is formed with an annular convex part 231, the rear part of the outer side wall of the annular convex part 231 is formed with an annular limiting edge 232, the annular limiting edge 232 is inserted and sleeved in a limiting annular groove 24 formed on the inner side wall of the central through hole 21, the outer connecting sleeve 23 is inserted and sleeved with an elastic gasket 25, and the edge part of the elastic gasket 25 is inserted and sleeved in the limiting annular groove 24 and clamped between the annular limiting edge 232 and the rear wall surface of;

a liquid inlet channel 26 is formed on the front wall surface of the limiting annular groove 24, the other end of the liquid inlet channel 26 extends out of the main case 20 and can be communicated with an oil pipe communicated with the main case 20, oil is controlled to enter and exit through a hydraulic system, the hydraulic structure of the liquid inlet channel is a common structure and is not detailed any more, a sealing ring is clamped between the edge part of the annular limiting edge 232 and the inner wall surface of the limiting annular groove 24, and a sealing ring is clamped between the front part of the outer connecting sleeve 23 and the inner side wall of the central through hole 21;

the main shaft 27 is inserted in the central through hole 21 and hinged on the main case 20 through a bearing, a spline shaft part is formed at the front end of the main shaft 27 and inserted in spline grooves formed at the rear ends of the two connecting parts, and a gap is formed between a spline protrusion of the spline shaft part and the spline grooves;

a motor frame is fixed on the rear side wall of the main case 20, a servo motor 90 is fixed on the motor frame, and an output shaft of the servo motor 90 is connected with the rear end of the main shaft 27 through a coupler.

The working principle is as follows: arranging and placing the shaft sleeves 100 to be processed on the top surface of the inclined bottom rod 61, along with the inclined bottom rod 61, the shaft sleeves 100 to be processed can fall from a discharge port in front of the front end of the inclined bottom rod 61 onto the bottom horizontal plate 63, the subsequent shaft sleeves 100 to be processed automatically move forward along the inclined bottom rod 61 by one position, then the rear pushing block 471 pushes the shaft sleeves 100 to be processed into the arc-shaped groove 582 and leans against the blocking part 581 by pushing of the push rod of the rear pushing cylinder 47, then the push rod of the rear pushing cylinder 47 retracts, at the moment, the subsequent shaft sleeves 100 to be processed automatically slide onto the bottom horizontal plate 63, then the shaft sleeves 100 to be processed at the arc-shaped groove 582 descend and are positioned at the right sides of the two arc-shaped grooves between the two clamping blocks 32 by pushing of the push rod of the lifting cylinder 52, at the moment, the vertical blocking strips 59 also descend together and block the shaft sleeves 100 to be processed on the bottom horizontal plate 63 and at the front end of the inclined bottom rod 61, preventing it from slipping off;

then, the first pushing block 564 pushes the shaft sleeve 100 to be processed in the arc-shaped groove 582 between the two clamping blocks 32 by pushing of the pushing rod of the first pushing cylinder 562, then the pushing rod of the first pushing cylinder 562 retracts, then oil is introduced into the liquid inlet channel 26 to compress the elastic washer 25, the outer connecting sleeve 23 moves backwards to make the two semicircular blocks 31 approach each other to clamp and fix the shaft sleeve 100 to be processed, then the shaft sleeve 100 to be processed rotates by the operation of the servo motor 90, at this time, the cutting tool 187 moves close to the outer ring side of the shaft sleeve 100 to be processed by the operation of the first moving servo motor 1 and the second moving servo motor 2 to perform milling, after that, all parts return to the position to separate the two clamping blocks 32, then the pushing rod of the pushing cylinder 43 pushes, and at the same time, the pushing rod of the receiving cylinder 82 pushes, the inclined rod part 84 penetrates through the feeding side through groove 71 and the feeding side through groove 72 formed on the right side plate at the rear end of the inclined guide material channel 70 and is close to the processed shaft sleeve, then the annular pushing block 45 pushes the processed shaft sleeve to the inclined rod part 84 through pushing of the pushing cylinder 43, then the processed shaft sleeve is positioned in the inclined guide material channel 70 and between the two side plates through retraction of the pushing rod of the receiving cylinder 82, the inclined rod part 84 is pulled back along with gradual retraction of the pushing rod of the receiving cylinder 82, the processed shaft sleeve falls onto the arc-shaped bottom plate of the inclined guide material channel 70 and is drawn out along with the arc-shaped bottom plate, a material receiving groove or a material receiving frame body is generally arranged at the discharge end of the inclined guide material channel 70, the processed material can be collected, and the processed material is a common component and is not detailed any more.

After finishing one, all the components return, and the subsequent shaft sleeve 100 to be processed continues to be fed and processed, which is very convenient.

Finally, the above embodiments are only used for illustrating the present invention, and not for limiting the present invention, and those skilled in the relevant art can make various changes and modifications without departing from the spirit and scope of the present invention, so that all equivalent technical solutions also belong to the scope of the present invention, and the protection scope of the present invention should be defined by the claims.

Claims (10)

1. The utility model provides an improved generation axle sleeve outer lane mills slotting machine, includes main frame (10), its characterized in that: a main case (20) is fixed at the rear part of a top plate of the main frame (10), and a rotary clamping head (30) is arranged in the middle of the front wall surface of the main case (20);

a supporting frame (40) is fixed on the front wall face of the mainframe box (20) above the rotary clamping head (30), a vertical pushing mechanism (50) is fixed on the front portion of the right side plate of the supporting frame (40), an oblique feeding mechanism (60) is fixed on the rear portion of the right side plate of the supporting frame (40), and a discharge hole of the oblique feeding mechanism (60) corresponds to a feed hole in the lower portion of the vertical pushing mechanism (50).

2. The improved bushing outer ring milling and cutting machine as claimed in claim 1, wherein: the bottom surface of the bottom plate of the support frame (40) is fixed with a horizontal plate (41), the middle bottom surface of the horizontal plate (41) is fixed with a vertical connecting plate (42), a left side wall of the vertical connecting plate (42) is fixed with a material pushing cylinder (43), a push rod of the material pushing cylinder (43) penetrates through the vertical connecting plate (42) and is fixed with a push plate (44), the lower part of the right side wall of the push plate (44) is fixed with an annular push block (45), the top surface of the push plate (44) is fixed with a transverse plate (46), the top surface of the transverse plate (46) is tightly attached to the bottom surface of the horizontal plate (41), and the annular push block (45) faces the rotary clamping head (30).

3. The improved bushing outer ring milling and cutting machine as claimed in claim 1, wherein: an oblique guide material channel (70) is fixed to the top surface of a top plate of the main frame (10) on the right side of the rotary clamping head (30), a feeding side through groove (71) is formed in the left side plate of the rear end of the oblique guide material channel (70), and the feeding side through groove (71) corresponds to the rotary clamping head (30).

4. The improved bushing outer ring milling and cutting machine as claimed in claim 3, wherein: the material guide device is characterized in that a right side supporting frame (80) is fixed on the top surface of a top plate of a main frame (10) on the right side of the oblique guide material channel (70), an oblique plate (81) is fixed at the top of the right side supporting frame (80), a material receiving cylinder (82) is fixed on the right side wall of the oblique plate (81), a push rod of the material receiving cylinder (82) penetrates through the oblique plate (81) and is fixed with a bending frame (83), an oblique rod part (84) extending upwards in an oblique direction to the rotary clamping head (30) is formed at the bottom of the bending frame (83), and a material return side through groove (72) is formed in the oblique rod part (84) on the right side plate of the rear end of the feeding side through groove (71) and the.

5. The improved bushing outer ring milling and cutting machine as claimed in claim 4, wherein: and a guide rod (85) is fixed on the right side wall of the right side plate of the bending frame (83), and the guide rod (85) is inserted into a guide sleeve (86) fixed on the right side wall of the inclined plate (81).

6. The improved bushing outer ring milling and cutting machine as claimed in claim 1, wherein: the vertical pushing mechanism (50) comprises an upper top plate (51), the upper top plate (51) is fixed on the top surface of the support frame (40), a lifting cylinder (52) is fixed on the top surface of the upper top plate (51), a push rod of the lifting cylinder (52) penetrates through the bottom surface of the upper top plate (51) and is fixed with a connecting plate (53), a guide sliding block (54) is fixed on the left side wall of the connecting plate (53), a vertical guide sliding rail (55) is fixed on the right side wall of the right side plate of the support frame (40), the vertical guide sliding rail (55) is inserted and sleeved in a sliding groove of the guide sliding block (54), a lower vertical plate (56) is fixed on the bottom surface of the right side of the upper top plate (51), a first through groove (57) is formed on the lower portion of the lower vertical plate (56), a side connecting frame (561) is fixed in the middle of the right side wall of the lower vertical plate (56), a first pushing cylinder (562) is fixed, the push rod of a first push cylinder (562) penetrates through the right side plate of the side connecting frame (561) and is fixed with a first push plate (563), the lower portion of the left side wall of the first push plate (563) is fixed with a first push block (564), the first push block (564) is inserted in the first through groove (57), the lower left side wall of the lower portion of the lower vertical plate (56) is fixed with a material receiving plate (58), a blocking portion (581) is formed at the front end of the material receiving plate (58), and the material receiving plate (58) corresponds to the first through groove (57).

7. The improved bushing outer ring milling and cutting machine as claimed in claim 6, wherein: and a vertical material blocking strip (59) is fixed on the rear wall surface of the lower vertical plate (56), and a feeding hole is formed between the bottom end of the vertical material blocking strip (59) and the rear end of the material receiving plate (58).

8. The improved bushing outer ring milling and cutting machine as claimed in claim 6, wherein: the oblique feeding mechanism (60) comprises an oblique bottom rod (61), a right limiting plate (49) is fixed on the right side wall of the right side plate of the supporting frame (40), the oblique bottom rod (61) and an oblique side blocking strip (62) are fixed on the right side wall of the right limiting plate (49), and the shaft sleeve (100) to be processed is located on the top surface of the oblique bottom rod (61) and between the oblique side blocking strip (62) and the right limiting plate (49);

a vertical extending part (621) extending downwards is formed at the left end of the oblique side barrier strip (62), a discharge hole is formed in front of the front end of the oblique bottom rod (61), a bottom horizontal plate (63) is fixed on the right side wall of a right limiting plate (49) at the lower end of the discharge hole, the vertical extending part (621) is located at the right side of the bottom horizontal plate (63), and the bottom horizontal plate (63) is located behind the material receiving plate (58);

a rear fixing plate (48) is fixed on the right side wall of a right limiting plate (49) behind the bottom horizontal plate (63), a rear pushing cylinder (47) is fixed on the rear fixing plate (48), a push rod of the rear pushing cylinder (47) penetrates through the rear fixing plate (48) and is fixed with a rear pushing block (471), and the rear pushing block (471) is located at the rear part above the bottom horizontal plate (63).

9. The improved bushing outer ring milling and cutting machine as claimed in claim 6, wherein: an arc-shaped groove (582) is formed in the bottom surface of the material receiving plate (58).

10. The improved bushing outer ring milling and cutting machine as claimed in claim 1, wherein: and a cutter moving mechanism (180) is fixed on the top surface of the front part of the top plate of the main frame (10).

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