CN114988061B

CN114988061B - Feeding device for shaft sleeve and pin shaft

Info

Publication number: CN114988061B
Application number: CN202210692972.6A
Authority: CN
Inventors: 赵国军
Original assignee: Hangzhou Haibei Machinery Co ltd
Current assignee: Hangzhou Haibei Machinery Co ltd
Priority date: 2022-06-17
Filing date: 2022-06-17
Publication date: 2023-11-24
Anticipated expiration: 2042-06-17
Also published as: CN114988061A

Abstract

The invention relates to the technical field of machining and discloses a feeding device of a shaft sleeve and a pin shaft, wherein the machining structure comprises a workbench, a push-pull structure is arranged at the top of the workbench, an upper track box is arranged on the left side of the push-pull structure, a lower track box is arranged at the bottom of the upper track box, a connecting plate is arranged at the top of the right side of the lower track box, and the top of the connecting plate is fixedly connected with the bottom of the upper track box. This loading attachment of axle sleeve and round pin axle then gets into in the working plate, and the other end rope drives the motion board downward movement, and the material in the lower track box drops at the top of motion board this moment, and reset spring is in compression state, and when flexible cylinder slowly resumes, reset spring slowly resumes the original form, and the motion board is because the drive of spring upward movement this moment until working plate right side top, and the second shielding plate also can be closed because the effect of return spring this moment, only needs the motion of stay cord board can realize the intermittent type feeding of upper track box and lower track box, does not have loaded down with trivial details process.

Description

Feeding device for shaft sleeve and pin shaft

Technical Field

The invention relates to the technical field of machining, in particular to a feeding device for a shaft sleeve and a pin shaft.

Background

Machining refers to a process of changing the external dimensions or properties of a workpiece by a mechanical device, and can be classified into cutting and pressing according to the difference in machining modes.

The hinge shaft is composed of a pin shaft and a shaft sleeve, and the assembly of the hinge shaft generally needs to convey the two parts of the pin shaft and the shaft sleeve to the installation position of the hinge shaft so as to realize the hinge connection of the pin shaft and the shaft sleeve.

Chinese patent publication No.: CN110561073B discloses a feeding device for a shaft sleeve and a pin shaft, which has the advantages that the feeding is performed through a set of device, so that the feeding device for the pin shaft and the shaft sleeve is simpler, but in the working process, the operation is complex when the discharging is controlled, three plates are required to move up and down simultaneously, the sequence cannot be disordered, the working efficiency is reduced, and therefore, the feeding device for the shaft sleeve and the pin shaft is required.

Disclosure of Invention

In order to achieve the above purpose, the present invention provides the following technical solutions: the feeding device of the shaft sleeve and the pin shaft comprises a processing structure, wherein a transmission structure is arranged at the bottom of the processing structure;

the processing structure comprises a workbench, a push-pull structure is arranged at the top of the workbench, an upper track box is arranged on the left side of the push-pull structure, a lower track box is arranged at the bottom of the upper track box, a connecting plate is arranged at the top of the right side of the lower track box, the top of the connecting plate is fixedly connected with the bottom of the upper track box, a hollow plate is fixedly connected inside the workbench, and a working plate is fixedly connected at the top of the left side of the workbench;

the transmission structure comprises a motion plate, a spring box is arranged at the bottom of the motion plate, a reset spring is fixedly connected to the inner bottom wall of the spring box, a rope is arranged at the bottom of the motion plate, and a fixed pulley is arranged below the spring box;

the push-pull structure comprises a fixed plate, wherein the left side of the fixed plate is fixedly connected with a parallel support plate, the left side of the fixed plate is fixedly connected with a telescopic cylinder, the left side of the telescopic cylinder is movably connected with a pull rope plate, and the left side of the pull rope plate is movably connected with an extrusion plate;

the inside of the hollow plate is provided with a chute, the inclination angle of the chute is 25 degrees, the chute penetrates through the hollow plate, the right side of the chute is positioned at the left side of the chute in the lower track box, and the top of the hollow plate is provided with an inclined plane;

the bottom of the moving plate penetrates through the workbench and extends into the spring box, the bottom of the moving plate is fixedly connected with the top of the reset spring, the left side of the moving plate is attached to the right side of the working plate, and the right side of the moving plate is attached to the left side of the hollow plate;

the motion plate is arranged to be wide at the upper part and narrow at the lower part, and the bottom of the right side of the motion plate is overlapped with the left side of the hollow plate.

Preferably, the left side of the parallel support plate is movably connected with the inside of the pull rope plate, and the bottom of the pull rope plate is fixedly connected with the rope;

the right side of the upper track box is provided with a through hole, the extrusion plate is positioned in the upper track box, and the outer side of the extrusion plate is movably connected with the inner part of the upper track box.

Preferably, the upper track box comprises a second shielding plate, a shaft rod is arranged at the top of the left side of the upper track box, the top of the second shielding plate is movably connected with the shaft rod, return springs are sleeved on the outer sides of two ends of the shaft rod, and two adjacent ends of the return springs are fixedly connected with the second shielding plate.

Preferably, a chute is arranged in the lower track box, the inclination angle in the lower track box is 25 degrees, the bottom of the lower track box is fixedly connected with the top of the workbench, and a feed inlet is formed in the top of the upper track box.

Preferably, the working plate comprises a supporting block, and the top of the supporting block is fixedly connected with a pusher;

the work plate is internally provided with a storage groove, and the front end of the pusher is positioned in the storage groove.

Preferably, two fixed pulleys are arranged, the fixed pulley on the left side is positioned below the spring box, the fixed pulley on the right side is positioned below the pull rope plate, and the two fixed pulleys are positioned below the workbench;

the two fixed pulleys are movably connected with the rope, the left side of the rope penetrates through the spring box and extends to the bottom of the moving plate, and the rope is located in the cavity inside the reset spring.

Preferably, the processing structure further comprises a first shielding plate, the bottom of the first shielding plate is fixedly connected with the left side of the top of the workbench, the right side of the first shielding plate is overlapped with the left side of the workbench, the top of the first shielding plate is provided with an inclined plane, and the inclined plane of the top of the first shielding plate is parallel to the inclined plane of the top of the hollow plate.

Compared with the prior art, the invention provides a feeding device for a shaft sleeve and a pin shaft, which has the following beneficial effects:

1. this loading attachment of axle sleeve and round pin axle has set up track box and lower track box through the top at the workstation, fixed plate has been set up on workstation top right side, parallel backup pad and telescopic cylinder have been set up in the left side of fixed plate, guy rope has been set up in the bottom of guy rope board at telescopic cylinder and parallel backup pad, the stripper plate has been set up at guy rope left side top of guy rope board, the stripper plate is located track box, the motion board is being connected to the rope other end, when telescopic cylinder extends, the stripper plate promotes to the left side, make the material in the track box open the second shielding plate, then get into in the working plate, the other end rope drives the motion board down, the material in the track box drops at the top of motion board this moment, reset spring is in compression state, when telescopic cylinder slowly resumes, the motion board is because the drive of spring is upwards moved this moment, until the top of work board right side, the motion of second shielding plate also can be closed because the effect of the return spring this moment, only need the intermittent feeding of track box of the motion of guy rope, the intermittent feeding of track box has not reached the work efficiency of having improved.

2. This loading attachment of axle sleeve and round pin axle has set up the second shielding plate through the left side at last track box, has set up the return spring at second shielding plate top, has set up the feed inlet at the top at last track box, the stripper plate is located the right side of last track box, when the stripper plate motion, its thrust makes left-most material can open the second shielding plate and fall to the working plate, when the thrust disappears, the return spring can control the second shielding plate and automatic close, the position on the right side is filled to a new material that drops again at this moment to the feed inlet, the effect of automatic feeding has been realized.

3. This loading attachment of axle sleeve and round pin axle has set up the spring case through the bottom at the kinematic plate, reset spring has been set up in the inside of spring case, the bottom of kinematic plate has set up the rope, the other end of rope is located the bottom of stay cord board, when stay cord board below right side motion, pull the rope for the kinematic plate downward movement, spring compression, the material that makes in the lower track box slides the top of kinematic plate, when stay cord board and horizontal plane are perpendicular, namely when telescopic cylinder is in normal state, reset spring resumes the original form, drive kinematic plate upward movement, the kinematic plate sends the material at top into the work plate, make things convenient for staff's operation.

Drawings

FIG. 1 is a schematic diagram of a feeding structure of a lower track box according to the present invention;

FIG. 2 is a schematic diagram of the feeding structure of the upper track box of the present invention;

FIG. 3 is a schematic view of the left side structure of the lower track box of the present invention;

FIG. 4 is a schematic view of the right side structure of the upper track box of the present invention;

FIG. 5 is a top view of the left side internal structure of the upper track box of the present invention;

FIG. 6 is a schematic view of the left side structure of the hollow plate of the present invention;

FIG. 7 is a schematic view of a side longitudinal cross-sectional structure of a work plate of the present invention;

FIG. 8 is an enlarged view of the structure of FIG. 1A according to the present invention;

FIG. 9 is a schematic diagram of a drawstring panel structure of the present invention;

FIG. 10 is a schematic view of a kinematic plate structure according to the present invention; .

Wherein: 1. processing a structure; 101. a work table; 102. a push-pull structure; 1021. a fixing plate; 1022. a parallel support plate; 1023. a telescopic cylinder; 1024. a pull rope plate; 1025. an extrusion plate; 103. an upper track box; 1031. a second shielding plate; 1032. a return spring; 104. a lower track box; 105. a connecting plate; 106. a hollow plate; 1061. a chute; 107. a work plate; 1071. a support block; 1072. a pusher; 108. a first shielding plate; 2. a transmission structure; 201. a motion plate; 202. a spring case; 203. a return spring; 204. a rope; 205. and a fixed pulley.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-10, a feeding device for a shaft sleeve and a pin shaft comprises a processing structure 1, wherein a transmission structure 2 is arranged at the bottom of the processing structure 1;

example 1

Processing structure embodiment of feeding device of shaft sleeve and pin shaft

The processing structure 1 comprises a workbench 101, wherein a push-pull structure 102 is arranged at the top of the workbench 101, an upper track box 103 is arranged on the left side of the push-pull structure 102, a lower track box 104 is arranged at the bottom of the upper track box 103, a connecting plate 105 is arranged at the top of the right side of the lower track box 104, the top of the connecting plate 105 is fixedly connected with the bottom of the upper track box 103, a hollow plate 106 is fixedly connected inside the workbench 101, and a working plate 107 is fixedly connected at the top of the left side of the workbench 101;

the processing structure 1 further comprises a first shielding plate 108, the bottom of the first shielding plate 108 is fixedly connected with the left side of the top of the workbench 101, the right side of the first shielding plate 108 is overlapped with the left side of the workbench 107, the top of the first shielding plate 108 is provided with an inclined plane, and the inclined plane of the top of the first shielding plate 108 is parallel to the inclined plane of the top of the hollow plate 106.

Through the technical scheme, the upper rail box 103 and the lower rail box 104 are arranged at the top of the workbench 101, the fixed plate 1021 is arranged at the right side of the top of the workbench 101, the parallel supporting plate 1022 and the telescopic cylinder 1023 are arranged at the left side of the fixed plate 1021, the stay wire plate 1024 is arranged at the left side of the telescopic cylinder 1023 and the parallel supporting plate 1022, the rope 204 is arranged at the bottom of the stay wire plate 1024, the extrusion plate 1025 is arranged at the top of the left side of the stay wire plate 1024, the extrusion plate 1025 is positioned in the upper rail box 103, the other end of the rope 204 is connected with the moving plate 201, when the telescopic cylinder 1023 stretches, the extrusion plate 1025 pushes leftwards, so that the material in the upper rail box 103 opens the second shielding plate 1031 and then enters the working plate 107, the other end of the rope 204 drives the moving plate 201 to move downwards, at the moment, the material in the lower rail box 104 drops at the top of the moving plate 201, the reset spring 203 is in a compressed state, when the telescopic cylinder 1023 is slowly restored, the return spring 203 is slowly restored, at this time, the moving plate 201 moves upwards under the driving of the spring until the top of the right side of the working plate 107, at this time, the second shielding plate 1031 is also closed under the action of the return spring 1032, intermittent feeding of the upper rail box 103 and the lower rail box 104 can be realized only by the movement of the pull rope plate 1024, no complicated process is needed, the effect of improving the working efficiency is achieved, the second shielding plate 1031 is arranged on the left side of the upper rail box 103, the return spring 1032 is arranged on the top of the second shielding plate 1031, the feeding hole is arranged on the top of the upper rail box 103, the extrusion plate 1025 is positioned on the right side of the upper rail box 103, when the extrusion plate 1025 moves, the leftmost material can open the second shielding plate 1031 and drop onto the working plate 107 due to the thrust, the return spring 1032 can control the second shielding plate 1031 to automatically close, and at this time, the feeding port drops a new material again to fill the rightmost position, thereby realizing the effect of automatic feeding.

Example two

Transmission structure embodiment of feeding device of shaft sleeve and pin shaft

The transmission structure 2 comprises a moving plate 201, a spring box 202 is arranged at the bottom of the moving plate 201, a reset spring 203 is fixedly connected to the inner bottom wall of the spring box 202, a rope 204 is arranged at the bottom of the moving plate 201, and a fixed pulley 205 is arranged below the spring box 202.

Through the above technical scheme, the spring box 202 is arranged at the bottom of the moving plate 201, the reset spring 203 is arranged in the spring box 202, the rope 204 is arranged at the bottom of the moving plate 201, the other end of the rope 204 is positioned at the bottom of the pull rope plate 1024, when the lower part of the pull rope plate 1024 moves to the right side, the rope is pulled, the moving plate 201 moves downwards, the spring is compressed, the materials in the lower track box 104 slide to the top of the moving plate 201, when the pull rope plate 1024 is vertical to the horizontal plane, namely, when the telescopic cylinder 1023 is in a normal state, the reset spring 203 is restored to the original state, the moving plate 201 is driven to move upwards, and the moving plate 201 feeds the materials at the top into the working plate 107, so that the operation of workers is facilitated.

Example III

Push-pull structure embodiment of feeding device of shaft sleeve and pin shaft

The push-pull structure 102 comprises a fixed plate 1021, a parallel supporting plate 1022 is fixedly connected to the left side of the fixed plate 1021, a telescopic cylinder 1023 is fixedly connected to the left side of the fixed plate 1021, a pull rope plate 1024 is movably connected to the left side of the telescopic cylinder 1023, and an extrusion plate 1025 is movably connected to the left side of the pull rope plate 1024.

The left side of the parallel supporting plate 1022 is movably connected with the inside of the pull rope plate 1024, and the bottom of the pull rope plate 1024 is fixedly connected with the rope 204;

through the above technical solution, the telescopic cylinder 1023 is in the state of fig. 1 in the normal state, at this time, the pull rope plate 1024 is perpendicular to the horizontal plane, when the telescopic cylinder 1023 is extended, the telescopic cylinder 1023 controls the movement angle of the pull rope plate 1024, this calibration technology is in the prior art, when the pull rope plate 1024 moves left in the lower direction, the movement of the extrusion plate 1025 does not exceed the horizontal vertical position, the material located at the left side of the upper track box 103 can drop one, the thrust force of the extrusion plate 1025 is greater than the force of the return spring 1032, the rope is pulled, that is, when the extrusion plate 1025 moves to the furthest distance, the movement plate 201 is located at the left side of the chute 1061, when the original state is restored, only the movement plate 201 moves upward, and the second shielding plate 1031 is closed.

Example IV

Upper rail box embodiment of feeding device of shaft sleeve and pin shaft

The right side of the upper track box 103 is provided with a through hole, the extrusion plate 1025 is positioned in the upper track box 103, and the outer side of the extrusion plate 1025 is movably connected with the inner part of the upper track box 103.

The upper track box 103 comprises a second shielding plate 1031, a shaft rod is arranged at the top of the left side of the upper track box 103, the top of the second shielding plate 1031 is movably connected with the shaft rod, return springs 1032 are sleeved on the outer sides of two ends of the shaft rod, and two adjacent ends of the return springs 1032 are fixedly connected with the second shielding plate 1031.

Through the above technical scheme, the second shielding plate 1031 is arranged on the left side of the upper track box 103, the return spring 1032 is arranged at the top of the second shielding plate 1031, the feeding hole is arranged at the top of the upper track box 103, the extrusion plate 1025 is positioned on the right side of the upper track box 103, when the extrusion plate 1025 moves, the leftmost material can be opened and falls onto the working plate 107 by the thrust, when the thrust disappears, the return spring 1032 can control the second shielding plate 1031 to automatically close, and at the moment, the feeding hole falls a new material again to fill the rightmost position, so that the effect of automatic feeding is realized.

Example five

Lower track box embodiment of feeding device of shaft sleeve and pin shaft

The inside spout that is provided with of lower track box 104, the inside inclination of lower track box 104 is 25 degrees, and lower track box 104 bottom and workstation 101 top fixed connection are provided with the feed inlet at last track box 103 top.

The inside chute 1061 that is provided with of cavity board 106, chute 1061 inclination is 25 degrees, and chute 1061 runs through cavity board 106, and chute 1061 right side is located the left side of the inside spout of lower track box 104, and cavity board 106 top sets up the inclined plane.

Through above-mentioned technical scheme, the inclination of lower track box 104 and chute 1061 is 25 degrees, mainly is in order to control the unloading speed in the lower track box 104, prevents that the speed from being too fast, leads to the material to bump at the top of kinematic plate 201, prevents unexpected emergence.

Example six

Working plate embodiment of feeding device of shaft sleeve and pin shaft

The working plate 107 comprises a supporting block 1071, and a pusher 1072 is fixedly connected to the top of the supporting block 1071;

the working plate 107 is internally provided with a storage groove, and the front end of the pusher 1072 is located inside the storage groove.

Through above-mentioned technical scheme, the internal circuit of impeller 1072 is prior art, and in last track box 103 and lower track box 104 one of them material dropped in working plate 107, impeller 1072 can push away it and go on the material loading, convenient operation.

Example seven

Motion plate embodiment of feeding device of shaft sleeve and pin shaft

The bottom of the moving plate 201 penetrates through the workbench 101 and extends into the spring box 202, the bottom of the moving plate 201 is fixedly connected with the top of the reset spring 203, the left side of the moving plate 201 is attached to the right side of the working plate 107, and the right side of the moving plate 201 is attached to the left side of the hollow plate 106;

the moving plate 201 is arranged to be wide at the upper part and narrow at the lower part, and the bottom of the right side of the moving plate 201 is overlapped with the left side of the hollow plate 106.

Through the above technical scheme, the moving plate 201 is arranged to be wide at the upper part and narrow at the lower part, so that a certain limiting effect can be achieved on the moving plate, when the moving plate 201 moves downwards, a wide place is overlapped with the left side of the hollow plate 106, a certain limiting effect can be achieved, the moving plate 201 is prevented from falling off, the moving plate 201 is influenced by the rope 204 and the reset spring 203, when the rope 204 is not pulled, the top of the moving plate 201 is positioned at the top of the right side of the working plate 107, the chute 1061 in the hollow plate 106 is blocked by the moving plate 201, when the rope 204 is pulled, the reset spring 203 is in a compressed state, the top of the moving plate 201 is positioned at the left side of the chute 1061, the material in the lower track box 104 falls down along the chute 1061 at the top of the moving plate 106, the moving plate 201 is positioned between the working plate 107 and the hollow plate 106, the distance between the hollow plate 106 and the working plate 107 is the thickness of the moving plate, and the distance can only accommodate the material in the lower track box 104 to pass through, and the calibration technology is as in the prior art.

Example eight

Fixed pulley embodiment of feeding device of shaft sleeve and pin shaft

Two fixed pulleys 205 are arranged, the left fixed pulley 205 is positioned below the spring box 202, the right fixed pulley 205 is positioned below the pull rope plate 1024, and the two fixed pulleys 205 are positioned below the workbench 101;

the outer sides of the two fixed pulleys 205 are movably connected with the rope 204, the left side of the rope 204 penetrates through the spring box 202 and extends to the bottom of the moving plate 201, and the rope 204 is positioned in the cavity inside the return spring 203.

By the above technical solution, the fixed pulley 205 is located below the table 101, mainly for changing the direction of the rope 204, where the rope 204 penetrates the table 101, and a rope hole is formed, where the rope hole is narrow and wide left, because the rope pulling plate 1024 pulls the rope to the right side when the rope 204 is pulled.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a loading attachment of axle sleeve and round pin axle, includes processing structure (1), its characterized in that: a transmission structure (2) is arranged at the bottom of the processing structure (1);

the machining structure (1) comprises a workbench (101), a push-pull structure (102) is arranged at the top of the workbench (101), an upper track box (103) is arranged on the left side of the push-pull structure (102), a lower track box (104) is arranged at the bottom of the upper track box (103), a connecting plate (105) is arranged at the top of the right side of the lower track box (104), the top of the connecting plate (105) is fixedly connected with the bottom of the upper track box (103), a hollow plate (106) is fixedly connected inside the workbench (101), and a working plate (107) is fixedly connected at the top of the left side of the workbench (101);

the transmission structure (2) comprises a motion plate (201), a spring box (202) is arranged at the bottom of the motion plate (201), a reset spring (203) is fixedly connected to the inner bottom wall of the spring box (202), a rope (204) is arranged at the bottom of the motion plate (201), and a fixed pulley (205) is arranged below the spring box (202);

the push-pull structure (102) comprises a fixed plate (1021), wherein a parallel supporting plate (1022) is fixedly connected to the left side of the fixed plate (1021), a telescopic cylinder (1023) is fixedly connected to the left side of the fixed plate (1021), a pull rope plate (1024) is movably connected to the left side of the telescopic cylinder (1023), and an extrusion plate (1025) is movably connected to the left side of the pull rope plate (1024);

the inside of the hollow plate (106) is provided with a chute (1061), the inclination angle of the chute (1061) is 25 degrees, the chute (1061) penetrates through the hollow plate (106), the right side of the chute (1061) is positioned at the left side of the chute in the lower track box (104), and the top of the hollow plate (106) is provided with an inclined plane;

the bottom of the moving plate (201) penetrates through the workbench (101) and extends into the spring box (202), the bottom of the moving plate (201) is fixedly connected with the top of the reset spring (203), the left side of the moving plate (201) is attached to the right side of the working plate (107), and the right side of the moving plate (201) is attached to the left side of the hollow plate (106);

the moving plate (201) is arranged to be wide at the upper part and narrow at the lower part, and the bottom of the right side of the moving plate (201) is overlapped with the left side of the hollow plate (106).

2. The feeding device for shaft sleeves and pin shafts according to claim 1, wherein: the left side of the parallel supporting plate (1022) is movably connected with the inside of the pull rope plate (1024), and the bottom of the pull rope plate (1024) is fixedly connected with the rope (204);

the right side of the upper track box (103) is provided with a through hole, the extrusion plate (1025) is positioned in the upper track box (103), and the outer side of the extrusion plate (1025) is movably connected with the inner part of the upper track box (103).

3. The feeding device for shaft sleeves and pin shafts according to claim 1, wherein: the upper track box (103) comprises a second shielding plate (1031), a shaft rod is arranged at the top of the left side of the upper track box (103), the top of the second shielding plate (1031) is movably connected with the shaft rod, return springs (1032) are sleeved on the outer sides of two ends of the shaft rod, and two adjacent ends of the return springs (1032) are fixedly connected with the second shielding plate (1031).

4. The feeding device for shaft sleeves and pin shafts according to claim 1, wherein: the inside spout that is provided with of lower track box (104), the inside inclination of lower track box (104) is 25 degrees, lower track box (104) bottom and workstation (101) top fixed connection, upper track box (103) top is provided with the feed inlet.

5. The feeding device for shaft sleeves and pin shafts according to claim 1, wherein: the working plate (107) comprises a supporting block (1071), and a pusher (1072) is fixedly connected to the top of the supporting block (1071);

the working plate (107) is internally provided with a storage groove, and the front end of the pusher (1072) is positioned in the storage groove.

6. The feeding device for shaft sleeves and pin shafts according to claim 1, wherein: the fixed pulleys (205) are arranged in two, the fixed pulleys (205) on the left side are positioned below the spring box (202), the fixed pulleys (205) on the right side are positioned below the pull rope plate (1024), and the two fixed pulleys (205) are positioned below the workbench (101);

the outer sides of the two fixed pulleys (205) are movably connected with a rope (204), the left side of the rope (204) penetrates through the spring box (202) and extends to the bottom of the moving plate (201), and the rope (204) is located in the cavity inside the reset spring (203).

7. The feeding device for shaft sleeves and pin shafts according to claim 1, wherein: the processing structure (1) further comprises a first shielding plate (108), the bottom of the first shielding plate (108) is fixedly connected with the left side of the top of the workbench (101), the right side of the first shielding plate (108) is overlapped with the left side of the workbench (107), the top of the first shielding plate (108) is set to be an inclined plane, and the inclined plane of the top of the first shielding plate (108) is parallel to the inclined plane of the top of the hollow plate (106).