CN114377965A

CN114377965A - Vibration separation device for powder metallurgy products

Info

Publication number: CN114377965A
Application number: CN202111481064.4A
Authority: CN
Inventors: 刘贤创
Original assignee: Individual
Current assignee: Zhuzhou Hongda Industrial Co ltd
Priority date: 2021-12-07
Filing date: 2021-12-07
Publication date: 2022-04-22
Anticipated expiration: 2041-12-07
Also published as: CN114377965B

Abstract

The invention relates to a separating device, in particular to a vibration separating device for powder metallurgy products. The invention provides a vibration separation device for powder metallurgy products, which can prevent the powder metallurgy products from falling off in the separation process and is convenient to collect. A vibratory separator for a powder metallurgy product, comprising: the top of the base is provided with a shell; the motor is arranged on one side inside the shell; the shaking mechanism is arranged inside the shell; and the shielding mechanism is arranged at the top of the shell. Under the effect that the output shaft of motor rotated for rock the mechanism and rock back and forth and carry out the vibration separation to fashioned powder metallurgy product, shelter from the mechanism and slide down and cover rocking mechanism and can prevent that powder metallurgy product from shaking out and dropping.

Description

Vibration separation device for powder metallurgy products

Technical Field

The invention relates to a separating device, in particular to a vibration separating device for powder metallurgy products.

Background

Powder metallurgy is a process technology for manufacturing metal materials, composite materials and various products by preparing metal powder or using the metal powder as a raw material and forming and sintering the metal powder. The powder metallurgy method has similar places to the production of ceramics and belongs to the powder sintering technology, so a series of new powder metallurgy technologies can also be used for preparing ceramic materials. Due to the advantages of the powder metallurgy technology, the powder metallurgy technology becomes a key for solving the problem of new materials, and plays a significant role in the development of the new materials.

The powder metallurgy product can be connected together after being formed, so the powder metallurgy product needs to be separated, the general separation mode is to carry out sorting and separation through manual work, and the separation equipment is used, so that part of the powder metallurgy product is easy to shake out and drop in the using process, and the equipment can not push out and collect the separated powder metallurgy product, and the powder metallurgy product needs to be manually taken out by workers, so that the process is complicated.

Therefore, there is a need for a vibration separating apparatus for powder metallurgy products, which prevents the powder metallurgy products from dropping during the separation process and facilitates the collection, for solving the above problems.

Disclosure of Invention

In order to overcome current splitter in the use, lead to part powder metallurgy product to shake out easily and drop, need the staff to take out the shortcoming of powder metallurgy product manually, the technical problem is: the vibrating separation device for the powder metallurgy product is capable of preventing the powder metallurgy product from falling off in the separation process and convenient to collect.

A vibratory separator for a powder metallurgy product, comprising: the top of the base is provided with a shell; the motor is arranged on one side inside the shell; the shaking mechanism is arranged inside the shell; and the shielding mechanism is arranged at the top of the shell.

As a further preferable aspect, the shaking mechanism includes: the inner wall of one side of the shell is symmetrically provided with the first sliding groove plates; the loading frame is arranged between the two first sliding groove plates in a sliding manner; the first springs are connected between one side of the loading frame and the two first chute plates; the output shaft of the motor is provided with the lug through a coupler, and the lug is matched with the charging frame.

As a further preferable aspect, the shielding mechanism includes: the top of the shell is symmetrically provided with the second chute plates; the first sliding rods are symmetrically and slidably arranged between the tops of the two second sliding groove plates; the first baffle is arranged between the bottom ends of the two first sliding rods and is in sliding fit with the charging frame; and the second springs are connected between two sides of the upper part of the first sliding rod and two sides of the top of the second sliding groove plate.

As a further preferable mode, the apparatus further comprises an opening and closing unit, and the opening and closing unit comprises: the second baffle is arranged on one side of the loading frame in a sliding manner; the pull ropes are arranged on two sides of the second baffle; the side walls on two sides of the charging frame are provided with three winding wheels in a rotating mode; the third springs are connected between the two sides of the lower part of the second baffle and the charging frame; the second sliding rods are symmetrically arranged at the bottom of the charging frame; first push pedal, two slidingtype is provided with between the second slide bar first push pedal, three reel that the homonymy was all walked around to two stay cord tails is connected with first push pedal both sides.

As a further preferable scheme, the device further comprises a fixing component, and the fixing component comprises: the two sides of the upper part of the charging frame are both provided with the fixed blocks in a sliding manner, and the two fixed blocks are matched with the first baffle; the fourth springs are symmetrically connected between one side, back to the two fixing blocks, of the two fixing blocks and two sides of the charging frame; the sides, back to the sides, of the two fixed blocks are provided with the poking blocks; the third sliding groove plates are symmetrically arranged on two sides of the loading frame; the four third sliding groove plates are all provided with the third sliding rods in a sliding manner; the guide rods are arranged at the top ends of the four third sliding rods and are matched with the fixed block; the wedge-shaped blocks are arranged between the bottom ends of the two third sliding rods on the same side; and the fifth springs are connected between two sides of the top of the wedge-shaped block and the bottoms of the four third chute plates.

As a further preferable scheme, the device further comprises a pushing assembly, wherein the pushing assembly comprises: the fourth chute plate is symmetrically arranged on one side of the loading frame; the fourth sliding bars are arranged on the two fourth sliding groove plates in a sliding manner; the second push plate is arranged between one ends of the two fourth sliding rods and is connected with the material loading frame in a sliding mode; the pushing block is arranged between the other ends of the two fourth sliding rods; and the sixth springs are connected between two sides of the pushing block and one side of the two fourth chute plates.

As a further preferable scheme, the device further comprises a guide assembly, wherein the guide assembly comprises: the guide groove plate is arranged on one side of the shell in a sliding mode; the two sides of the guide groove plate are both connected with a circle of the seventh spring in an up-down symmetrical mode, the two seventh springs form a group, and the initial state of the seventh spring is a compressed state; and the clamping blocks are arranged between the tail ends of the seventh springs in each group and are matched with the shell.

As a further preferable mode, the guide groove plate is formed in an inclined plane shape.

Has the advantages that: 1. under the effect that the output shaft of motor rotated for rock the mechanism and rock back and forth and carry out the vibration separation to fashioned powder metallurgy product, shelter from the mechanism and slide down and cover rocking mechanism and can prevent that powder metallurgy product from shaking out and dropping.

2. The second baffle upwards slides and opens the left side of the charging frame, so that the worker can conveniently pull out the separated powder metallurgy products for collection.

3. Under the effect of fixed block, can block first baffle, no longer need the staff to continuously press first slide bar with first baffle lid at the frame top of feeding.

4. The staff extrudees the promotion piece and moves left, can make the second push pedal slide left and push out the powder metallurgy product in the frame of will loading left, can also extrude first push pedal and move left under the effect that promotes the piece simultaneously for the second baffle upwards slides and will load the frame left side and open.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic cross-sectional structure of the present invention.

Fig. 3 is a schematic perspective view of a rocking mechanism according to a first embodiment of the present invention.

Fig. 4 is a schematic perspective view of a rocking mechanism according to a second embodiment of the present invention.

Fig. 5 is a schematic diagram of a third three-dimensional structure of the rocking mechanism of the present invention.

FIG. 6 is a schematic cross-sectional view of the shielding mechanism of the present invention.

Fig. 7 is a perspective view of the opening/closing assembly of the present invention.

Fig. 8 is a schematic sectional view showing the opening and closing assembly of the present invention.

Fig. 9 is a perspective view of the fixing member of the present invention.

Fig. 10 is a schematic perspective view of the pusher assembly of the present invention.

Fig. 11 is a cross-sectional structural view of the guide assembly of the present invention.

Fig. 12 is a partial structural schematic view of a guide assembly of the present invention.

Fig. 13 is an enlarged schematic view of part a of the present invention.

The parts are labeled as follows: 1: base, 2: outer shell, 3: motor, 4: shaking mechanism, 41: charging frame, 42: first chute plate, 43: first spring, 44: bump, 5: shielding mechanism, 51: second chute plate, 52: first shutter, 53: first slide bar, 54: second spring, 6: opening and closing assembly, 61: second baffle, 62: a pull cord, 63: reel, 64: third spring, 65: first push plate, 66: second slide bar, 7: fixing assembly, 71: fixed block, 72: fourth spring, 73: toggle block, 74: guide bar, 75: third chute plate, 76: third slide bar, 77: fifth spring, 78: wedge block, 8: material pushing assembly, 81: second push plate, 82: fourth chute plate, 83: fourth slide bar, 84: sixth spring, 85: push block, 9: guide assembly, 91: guide groove plate, 92: clamping block, 93: and a seventh spring.

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings.

Example 1

As shown in fig. 1 and 2, the vibration separation device for the powder metallurgy product comprises a base 1, a shell 2, a motor 3, a shaking mechanism 4 and a shielding mechanism 5, wherein the shell 2 is arranged at the top of the base 1, the motor 3 is arranged on the right side inside the shell 2, the shaking mechanism 4 is arranged inside the shell 2, and the shielding mechanism 5 is arranged at the top of the shell 2.

When needs carry out the vibration isolation to fashioned powder metallurgy product, the staff pours the powder metallurgy product into rocking mechanism 4, the staff presses to shelter from mechanism 5 lapse afterwards and will rock mechanism 4 and cover, at this moment staff start motor 3, the output shaft of motor 3 rotates and makes rocking mechanism 4 rock around shaking and carry out the vibration isolation to fashioned powder metallurgy product, treat powder metallurgy product vibration isolation and accomplish the back, the staff closes motor 3 and stops the operation, the staff loosens and shelters from mechanism 5, shelter from mechanism 5 and upwards slide thereupon and reset no longer cover rocking mechanism 4, the staff collects the powder metallurgy product of separation afterwards. The device has simple structure and convenient operation.

Example 2

As shown in fig. 2, 3, 4, 5, and 6, in embodiment 1, the swing mechanism 4 includes a loading frame 41, first chute plates 42, first springs 43, and protrusions 44, the first chute plates 42 are symmetrically disposed on the inner wall of the front side of the housing 2, the loading frame 41 is slidably disposed between the two first chute plates 42, the first springs 43 are connected between the front side of the loading frame 41 and the two first chute plates 42, the protrusions 44 are disposed on the output shaft of the motor 3 through a coupling, and the protrusions 44 are engaged with the loading frame 41.

The shielding mechanism 5 comprises second sliding groove plates 51, first baffles 52, first sliding rods 53 and second springs 54, the second sliding groove plates 51 are arranged on the top of the shell 2 in a bilateral symmetry mode, the first sliding rods 53 are arranged between the tops of the two second sliding groove plates 51 in a front-back symmetrical sliding mode, the first baffles 52 are arranged between the bottom ends of the two first sliding rods 53, the first baffles 52 are in sliding fit with the material loading frame 41, and the second springs 54 are connected between the left and right sides of the upper portions of the two first sliding rods 53 and the front and back sides of the tops of the two second sliding groove plates 51.

When the formed powder metallurgy product needs to be separated by vibration, a worker pours the powder metallurgy product into the loading frame 41, after the separation is completed, the worker presses the first sliding rod 53 to slide downwards, the second spring 54 is compressed, the first sliding rod 53 slides downwards to drive the first baffle plate 52 to move downwards to cover the top of the loading frame 41, then the worker starts the motor 3, the output shaft of the motor 3 rotates to drive the lug 44 to rotate to extrude the loading frame 41 to slide forwards, the first spring 43 is compressed, the lug 44 rotates to not extrude the loading frame 41, the first spring 43 resets to drive the loading frame 41 to slide backwards, the formed powder metallurgy product is separated by vibration under the action of the continuous reciprocating forward and backward sliding of the loading frame 41, the powder metallurgy product can be prevented from shaking out and falling under the action of the first baffle plate 52, after the separation by vibration of the powder metallurgy product is completed, the worker closes the motor 3 to stop operation, when the worker releases the first sliding rod 53, the second spring 54 returns to drive the first sliding rod 53 to slide upwards, and the first sliding rod 53 slides upwards to drive the first baffle plate 52 to move upwards so as to open the top of the loading frame 41. This device simple structure, the frame 41 of feeding constantly slides from beginning to end, and then carries out the vibration isolation to fashioned powder metallurgy product, can prevent that powder metallurgy product from shaking out and dropping under the effect of first baffle 52.

Example 3

As shown in fig. 2, 7, 8, 9, 10, 11, 12 and 13, based on embodiment 2, the present invention further includes an opening and closing assembly 6, where the opening and closing assembly 6 includes a second baffle 61, a pull rope 62, a reel 63, a third spring 64, a first push plate 65 and a second slide rod 66, the second baffle 61 is slidably disposed on the left side of the charging frame 41, the pull ropes 62 are disposed on the front and rear sides of the lower portion of the second baffle 61, three reels 63 are rotatably disposed on the side walls on the front and rear sides of the charging frame 41, the third springs 64 are connected between the front and rear sides of the lower portion of the second baffle 61 and the charging frame 41, the second slide rods 66 are symmetrically disposed on the front and rear sides of the bottom of the charging frame 41, a first push plate 65 is slidably disposed between the two second slide rods 66, and the tail ends of the two pull ropes 62 are connected to the front and rear sides of the right portion of the first push plate 65 by bypassing the three reels 63 on the same side.

After the powder metallurgy product vibration separation is accomplished, the staff promotes first push pedal 65 and slides left and drive second baffle 61 and upwards slide through stay cord 62, third spring 64 is compressed, second baffle 61 upwards slides and opens the loading frame 41 left side, the staff dials the powder metallurgy product that the separation was accomplished afterwards and collects, after the completion, the staff loosens first push pedal 65, third spring 64 resets thereupon and drives second baffle 61 and slide down and reset and close the loading frame 41 left side, second baffle 61 slides down and drives first push pedal 65 through the pulling and slide right and reset. This device simple structure, second baffle 61 upwards slides and opens the left side of charging frame 41, makes things convenient for the staff to dial out the powder metallurgy goods that the separation was accomplished and collects.

Also comprises a fixing component 7, the fixing component 7 comprises a fixing block 71, a fourth spring 72, a toggle block 73 and a guide rod 74, the material loading frame 41 comprises a third sliding chute plate 75, third sliding rods 76, fifth springs 77 and wedge blocks 78, fixed blocks 71 are arranged on the front side and the rear side of the upper portion of the material loading frame 41 in a sliding mode, the two fixed blocks 71 are matched with the first baffle 52, fourth springs 72 are symmetrically arranged between the back sides of the two fixed blocks 71 and the front side and the rear side of the material loading frame 41 in a bilateral mode, toggle blocks 73 are arranged on the back sides of the two fixed blocks 71 in a reverse mode, third sliding chute plates 75 are symmetrically arranged on the front side and the rear side of the material loading frame 41 in a bilateral mode, the fourth sliding rods 76 are arranged on the four third sliding chute plates 75 in a sliding mode, guide rods 74 are arranged at the top ends of the four third sliding rods 76, the guide rods 74 are matched with the fixed blocks 71, the wedge blocks 78 are arranged between the bottom ends of the two third sliding rods 76 on the same side, and the fifth springs 77 are connected between the left sides and the left sides of the tops of the two wedge blocks 78 and the bottoms of the four third sliding chute plates 75.

The first baffle plate 52 slides downwards to extrude the fixed block 71 to slide backwards, the fourth spring 72 is compressed, when the first baffle plate 52 slides downwards to a certain position and does not extrude the fixed block 71 any more, the fourth spring 72 resets to drive the fixed block 71 to slide oppositely to clamp the front side and the rear side of the first baffle plate 52, after the powder metallurgy product is separated by vibration, a worker pushes the first push plate 65 to slide leftwards, the first push plate 65 extrudes the wedge block 78 to move upwards to drive the third slide bar 76 to slide upwards, the fifth spring 77 is compressed, the third slide bar 76 slides upwards to drive the guide rod 74 to move upwards to extrude the shifting block 73 to move backwards, the shifting block 73 moves backwards to drive the fixed block 71 to slide backwards, the fourth spring 72 is compressed, the fixed block 71 slides backwards to not clamp the first baffle plate 52 any more, when the worker finishes the separation of the powder metallurgy product, the first push plate 65 slides rightwards to reset to no more to extrude the wedge block 78, the fifth spring 77 is reset to drive the wedge block 78 to move downwards, the third slide bar 76 slides downwards to reset, the third slide bar 76 slides downwards to drive the guide rod 74 to move downwards and not to extrude the shifting block 73, the fourth spring 72 is reset to drive the fixed blocks 71 to slide oppositely, and the fixed blocks 71 slide oppositely to drive the shifting blocks 73 to move oppositely to reset. The device is simple in structure, the first baffle plate 52 can be clamped under the action of the fixing block 71, and a worker is not required to continuously press the first sliding rod 53 to cover the first baffle plate 52 on the top of the loading frame 41.

Still including pushing away material assembly 8, push away material assembly 8 including the second push pedal 81, fourth chute board 82, the fourth slide bar 83, sixth spring 84 and promotion piece 85, it is provided with fourth chute board 82 to feed frame 41 right side front and back symmetry, all slidingtype is provided with fourth slide bar 83 on two fourth chute boards 82, be provided with second push pedal 81 between two fourth slide bar 83 left ends, second push pedal 81 and the frame 41 sliding type of feeding are connected, be provided with between two fourth slide bar 83 right-hand members and promote piece 85, it all is connected with sixth spring 84 to promote between piece 85 left part front and back both sides and two fourth chute boards 82 right sides.

After the vibration separation of the powder metallurgy products is finished, the worker extrudes the pushing block 85 to move leftwards to drive the fourth sliding rod 83 to slide leftwards, the sixth spring 84 is compressed, the fourth sliding rod 83 slides leftwards to drive the second pushing plate 81 to slide leftwards to push the powder metallurgy products in the loading frame 41 leftwards, the worker collects the powder metallurgy products, the first push plate 65 is pressed to slide leftwards while the push block 85 moves leftwards, so that the second baffle plate 61 is upwards slid to open the left side of the charging frame 41 while the powder metallurgy product is pushed out, after the collection is finished, the worker loosens the pushing block 85, the sixth spring 84 resets to drive the pushing block 85 to move rightwards and reset, the fourth sliding rod 83 slides rightwards and resets, the fourth sliding rod 83 slides rightwards and drives the second pushing plate 81 to slide rightwards and reset, the pushing block 85 moves rightwards and does not extrude the first pushing plate 65 any more, the second baffle 61 slides downwards and resets under the action of the third spring 64 to close the left side of the loading frame 41. This device simple structure, staff's extrusion promotes piece 85 and moves left, can make second push plate 81 slide left and push out the powder metallurgy product in with the frame 41 of feeding left, can also extrude first push plate 65 and move left under the effect that promotes piece 85 simultaneously for second baffle 61 slides up and opens the frame 41 left side of feeding.

Still including guide assembly 9, guide assembly 9 is including guide slot board 91, press from both sides tight piece 92 and

seventh spring

93, 2 left sides slidingtype of shell are provided with guide slot board 91, guide slot board 91 is the inclined plane form, the equal longitudinal symmetry in both sides all is connected with round seventh spring 93 around guide slot board 91, seventh spring 93 is two and is a set of, seventh spring 93 initial state is compression state, all be provided with between every group seventh spring 93 tail end and press from both sides tight piece 92, press from both sides tight piece 92 all with the cooperation of shell 2.

The second push plate 81 slides leftwards to push out the powder metallurgy products in the loading frame 41 leftwards, because the guide groove plate 91 is inclined, the powder metallurgy products slide downwards through the inclined plane of the guide groove plate 91, the powder metallurgy products are collected by workers, when the guide groove plate 91 needs to be taken down for replacement, the workers pull the guide groove plate 91 to slide leftwards, the clamping block 92 is separated from the left side of the shell 2, the seventh spring 93 resets accordingly to drive the clamping block 92 to slide and reset oppositely, after replacement is completed, the workers push the guide groove plate 91 to slide rightwards, the clamping block 92 slides backwards accordingly, the seventh spring 93 is compressed, under the action of the seventh spring 93, the clamping block 92 clamps the left side of the shell 2, and the guide groove plate 91 is prevented from falling off. This device simple structure, under the effect of guide way board 91, can make the powder metallurgy product that is pushed down concentrate and drop, make things convenient for the staff to collect.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims

1. A vibration separation device for powder metallurgy products is characterized by comprising:

the top of the base (1) is provided with a shell (2);

the motor (3) is arranged on one side inside the shell (2);

the shaking mechanism (4) is arranged in the shell (2);

the shielding mechanism (5) is arranged at the top of the shell (2).

2. A vibration separating apparatus for powder metallurgy products according to claim 1, wherein the shaking means (4) comprises:

the inner wall of one side of the shell (2) is symmetrically provided with the first chute plates (42);

the loading frame (41) is arranged between the two first sliding groove plates (42) in a sliding mode;

the first springs (43) are connected between one side of the loading frame (41) and the two first sliding groove plates (42);

the lug (44) is arranged on the output shaft of the motor (3) through a coupler, and the lug (44) is matched with the loading frame (41).

3. A vibration separating apparatus for powder metallurgy products according to claim 2, wherein the shielding means (5) comprises:

the top of the shell (2) is symmetrically provided with the second chute plates (51);

the first sliding rod (53) is symmetrically and slidably arranged between the tops of the two second sliding groove plates (51);

the first baffle (52) is arranged between the bottom ends of the two first sliding rods (53), and the first baffle (52) is in sliding fit with the loading frame (41);

and the second springs (54) are connected between two sides of the upper parts of the two first sliding rods (53) and two sides of the tops of the two second sliding groove plates (51).

4. A vibration separating apparatus for powder metallurgy products according to claim 3, further comprising an opening and closing unit (6), wherein the opening and closing unit (6) comprises:

the second baffle (61) is arranged on one side of the loading frame (41) in a sliding mode;

the pull ropes (62) are arranged on two sides of the second baffle (61);

three reels (63) rotatably provided on the side walls on both sides of the loading frame (41);

the third springs (64) are connected between the two sides of the lower part of the second baffle plate (61) and the loading frame (41);

the second sliding rods (66) are symmetrically arranged at the bottoms of the loading frames (41);

the first push plate (65), two slidingtype is provided with between the second slide bar (66) first push plate (65), and two stay cords (62) tail end all walks around three reel (63) of homonymy and is connected with first push plate (65) both sides.

5. A vibratory separator for powder metallurgy products as set forth in claim 4, further comprising a fixing member (7), the fixing member (7) comprising:

the two sides of the upper part of the charging frame (41) are both provided with the fixed blocks (71) in a sliding manner, and the two fixed blocks (71) are matched with the first baffle (52);

the fourth springs (72) are symmetrically connected between one side, back to the two fixing blocks (71), of the two fixing blocks and the two sides of the loading frame (41);

the poking blocks (73) are arranged on one sides, back to the other sides, of the two fixed blocks (71);

the third sliding groove plates (75) are symmetrically arranged on two sides of the loading frame (41);

the fourth sliding bar (76) is arranged on each of the four third sliding groove plates (75) in a sliding manner;

the guide rods (74) are arranged at the top ends of the four third sliding rods (76), and the guide rods (74) are matched with the fixed block (71);

the wedge-shaped blocks (78) are arranged between the bottom ends of the two third sliding rods (76) on the same side;

and the fifth springs (77) are connected between two sides of the tops of the two wedge blocks (78) and the bottoms of the four third chute plates (75).

6. The vibration separating apparatus for powder metallurgy products according to claim 5, further comprising a pusher assembly (8), wherein the pusher assembly (8) comprises:

the fourth chute plate (82) is symmetrically arranged on one side of the loading frame (41);

the fourth sliding rods (83) are arranged on the two fourth sliding groove plates (82) in a sliding manner;

the second push plate (81) is arranged between one ends of the two fourth sliding rods (83), and the second push plate (81) is connected with the loading frame (41) in a sliding manner;

the pushing block (85) is arranged between the other ends of the two fourth sliding rods (83);

and the sixth springs (84) are connected between the two sides of the pushing block (85) and one side of the two fourth chute plates (82).

7. The vibratory separator for powder metallurgy products as claimed in claim 6, further comprising a guide assembly (9), wherein the guide assembly (9) comprises:

the guide groove plate (91) is arranged on one side of the shell (2) in a sliding mode;

the two sides of the guide groove plate (91) are both connected with a circle of the seventh spring (93) in an up-down symmetrical mode, two of the seventh springs (93) form a group, and the seventh springs (93) are in a compressed state in an initial state;

and the clamping blocks (92) are arranged between the tail ends of the seventh springs (93) of each group, and the clamping blocks (92) are matched with the shell (2).

8. The vibration separating apparatus for powder metallurgy products according to claim 7, wherein the guide groove plate (91) has a slant surface shape.