CN218133528U - Vibrating feeder - Google Patents

Abstract

The utility model belongs to the technical field of the mineral aggregate processing, concretely relates to vibrating feeder, including the vibration shell, the vibration shell sets up for the slope, and the higher one side fixedly connected with vibrating motor of vibration shell, the vibration shell is provided with spring coupling spare one side by side with the adjacent bilateral symmetry formula of vibrating motor. The utility model has the advantages that: through above-mentioned structure, can be when the mineral aggregate pay-off, except the coarse screen, can also brush the mineral aggregate repeatedly, go out the high-efficient separation of the surperficial dust disintegrating slag of mineral aggregate, avoid a large amount of dust disintegrating slag to adhere to on the mineral aggregate surface, can not break away from through the vibration, get into under one process after, generate pressure and influence.

Description

Vibrating feeder

Technical Field

The utility model belongs to the technical field of the mineral aggregate processing, concretely relates to vibrating feeder.

Background

The vibration feeder is a device which can uniformly, regularly and continuously feed the block and granular materials from the storage bin to the receiving device. The material can be continuously and uniformly fed to a crushing machine in a sandstone production line, and the material is roughly sieved, so that the material is widely applied to crushing and sieving combined equipment in the industries of metallurgy, coal mine, mineral separation, building materials, chemical engineering, grinding materials and the like.

All can use mining vibrating feeder at mineral aggregate processing, the in-process of retrieving and recycling, but current mining vibrating feeder only possesses the function of coarse screening generally, screens out some earth and rubble through the vibration promptly, especially like the recycle of tailing, can contain a large amount of earth and rubble residue in the tailing, only hardly can be with adnexed earth and rubble residue clean up on the mineral aggregate through the coarse screening, can produce pressure and influence to next manufacturing procedure.

SUMMERY OF THE UTILITY MODEL

To above problem, the utility model aims to: the utility model provides a vibrating feeder, solves the problem that the background provided.

For the purpose of realizing above, the utility model discloses a technical scheme: a vibrating feeder comprises a vibrating shell, wherein the vibrating shell is obliquely arranged, a vibrating motor is fixedly connected to one side of the vibrating shell, spring connecting pieces I are symmetrically arranged on two sides of the vibrating shell adjacent to the vibrating motor in parallel, a first support is fixedly connected to the lower side of the spring connecting piece I on one side of the vibrating shell, which is close to the vibrating motor, a second support is fixedly connected to the lower side of the spring connecting piece I on one side of the vibrating shell, which is far away from the vibrating motor, a discharging shell is arranged on one side of the lower side of the vibrating shell, which is far away from the vibrating motor, the discharging shell is parallel to the vibrating shell, an end plate is fixedly connected to one end of the discharging shell, which is close to the vibrating shell, a fixing plate is fixedly connected between the end plate and the vibrating shell, a shaft hole is formed in the middle of the end plate, and a long shaft is inserted in the end plate through the shaft hole, the major axis sets up in ejection of compact shell, the one end that the major axis is close to the vibration shell is provided with the motor, the downside and the second support fixed connection of motor, one side symmetry formula fixedly connected with spring coupling spare one of vibration shell is kept away from to the ejection of compact shell, the equal fixedly connected with third support of downside of spring coupling spare one of ejection of compact shell, the other end of major axis rotates and is connected with the end, fixedly connected with gag lever post between end and the third support, the middle part equidistance of major axis is provided with clearance mechanism, the separating tank has evenly been seted up to the inboard of ejection of compact shell, the separating tank sets up the downside at the major axis, all sleeve of clearance mechanism package are one, sleeve one cup joints with the major axis, the outside equidistance of sleeve one encircles formula fixedly connected with bull stick one, the other end fixedly connected with brush head of bull stick one.

The utility model has the advantages that: through the structure, when mineral aggregate is fed, the cleaning mechanism can be used for repeatedly brushing and wiping the mineral aggregate except for a coarse screen, the dust and crushed slag on the surface of the mineral aggregate can be efficiently separated out, a large amount of dust and crushed slag are prevented from being attached to the surface of the mineral aggregate, the dust and crushed slag cannot be separated through vibration, and after the mineral aggregate enters a next procedure, pressure and influence are generated, so that the high-efficiency expansion of mineral aggregate processing work is promoted.

In order to ensure the separation effect of the large mineral aggregate;

as a further improvement of the above technical solution: the inboard equidistance range formula of vibration shell is provided with the division board, there is the clearance between the division board, the division board is parallel with the bottom surface of vibration shell, the downside fixedly connected with bracing piece of division board, bracing piece and vibration shell fixed connection.

The beneficial effect of this improvement does: can separate big mineral aggregate alone, can prevent to mix together with the dust disintegrating slag, avoid the separation effect not good.

To further facilitate the separation effect;

as a further improvement of the technical scheme: the upper side of the separation plate is fixedly connected with bumps at equal intervals.

The beneficial effect of this improvement does: when the large ore material block slides, the large ore material block violently jumps under the collision of vibration and the convex block, and the separation of the crushed slag and dust on the surface of the large ore material block can be promoted.

To enhance the brushing and separation effect;

as a further improvement of the above technical solution: the middle part equidistance of major axis is provided with turns over and dials the mechanism, turn over and dial the mechanism including sleeve two, sleeve two cup joints with the major axis, the even fixedly connected with bull stick two in the outside of sleeve two, the other end fixedly connected with of bull stick two turns over the driving lever, it is parallel with ejection of compact shell to turn over the driving lever.

The beneficial effect of this improvement does: through above-mentioned structure, make the mineral aggregate collision each other, break away from the dust disintegrating slag, the mineral aggregate is constantly stirred in addition and is vibrated, helps turning over the brush effect of driving lever.

For coarse screening;

as a further improvement of the technical scheme: the inboard bottom surface middle part of vibration shell is provided with the sieve, the downside of sieve is provided with the blanking shell, the downside of vibration shell and ejection of compact shell is provided with the slag notch board, the one side height that is close to the ejection of compact shell of slag notch board is low near one side of vibration shell.

The beneficial effect of this improvement does: through above-mentioned structure, can carry out the coarse screening to the mineral aggregate of process, go out the dust disintegrating slag separation that the part has come off.

In order to accelerate the sending of dust and slag;

as a further improvement of the above technical solution: the side symmetry formula of ejection of compact shell is fixedly connected with montant side by side, the equal fixedly connected with spring coupling spare two of lower extreme of montant, spring coupling spare two and slag discharging plate fixed connection, the one end downside fixedly connected with spring that the slag discharging plate is close to first support, spring and first support fixed connection.

The beneficial effect of this improvement does: through above-mentioned structure, can drive the vibration of slag discharging plate, can accelerate dust disintegrating slag and discharge.

The parts of the device not involved are the same as or can be implemented using prior art.

Drawings

Fig. 1 is a schematic structural view of the present invention;

fig. 2 is a side view of a first structure of the present invention;

fig. 3 is a side view of a second structure of the present invention;

FIG. 4 is a schematic view of the connection structure between the discharge casing and the long shaft of the present invention;

FIG. 5 is a schematic view of the structure of the separating plate of the present invention;

fig. 6 is a schematic structural diagram of a vibration shell in the present invention;

FIG. 7 is a schematic structural view of a cleaning mechanism according to the present invention;

fig. 8 is a schematic structural view of the middle turning mechanism of the present invention;

in the figure: 1. a vibrating shell; 2. a vibration motor; 3. a first spring connecting piece; 4. a first bracket; 5. a second bracket; 6. a separation plate; 7. a support bar; 8. a bump; 9. a sieve plate; 10. blanking shell; 11. a discharging shell; 12. an end plate; 13. a fixing plate; 14. a shaft hole; 15. a long axis; 16. a separation tank; 17. a motor; 18. a cleaning mechanism; 181. a first sleeve; 182. a first rotating rod; 183. a brush head; 19. a flipping mechanism; 191. a second sleeve; 192. a second rotating rod; 193. turning over the deflector rod; 20. a third support; 21. a tip; 22. a restricting lever; 23. a vertical rod; 24. a second spring connecting piece; 25. a slag discharging plate; 26. a spring.

Detailed Description

The following detailed description of the present invention is given for the purpose of better understanding technical solutions of the present invention by those skilled in the art, and the present description is only exemplary and explanatory and should not be construed as limiting the scope of the present invention in any way.

Example 1:

as shown in fig. 1-8: a vibrating feeder comprises a vibrating shell 1, wherein the vibrating shell 1 is obliquely arranged, a vibrating motor 2 is fixedly connected to one higher side of the vibrating shell 1, spring connecting pieces I3 are symmetrically arranged on two sides of the vibrating shell 1 adjacent to the vibrating motor 2 in parallel, a first support 4 is fixedly connected to the lower side of one spring connecting piece I3, close to the vibrating motor 2, of the vibrating shell 1, a second support 5 is fixedly connected to the lower side of one spring connecting piece I3, far away from the vibrating motor 2, of the vibrating shell 1, a discharging shell 11 is arranged on one side, far away from the vibrating motor 2, of the lower side of the vibrating shell 1, the discharging shell 11 is parallel to the vibrating shell 1, an end plate 12 is fixedly connected to one end, close to the vibrating shell 1, of the discharging shell 11, a fixing plate 13 is fixedly connected between the end plate 12 and the vibrating shell 1, a shaft hole 14 is formed in the middle of the end plate 12, a long shaft 15 is inserted into the end plate 12 through the shaft hole 14, the long shaft 15 is arranged in the discharging shell 11, one end of the long shaft 15 close to the vibrating shell 1 is provided with a motor 17, the lower side of the motor 17 is fixedly connected with the second support 5, one side of the discharging shell 11 far away from the vibrating shell 1 is symmetrically and fixedly connected with a first spring connecting piece 3, the lower side of the first spring connecting piece 3 of the discharging shell 11 is fixedly connected with a third support 20, the other end of the long shaft 15 is rotatably connected with an end 21, a limiting rod 22 is fixedly connected between the end 21 and the third support 20, the middle part of the long shaft 15 is equidistantly provided with a cleaning mechanism 18, the inner side of the discharging shell 11 is uniformly provided with a separating groove 16, the separating groove 16 is arranged at the lower side of the long shaft 15, the cleaning mechanism 18 comprises all first sleeves 181, the first sleeves 181 are sleeved with the long shaft 15, the outer side of the first sleeves 181 is equidistantly and fixedly connected with a first rotating rod 182, the other end of the first rotating rod 182 is fixedly connected with a brush head 183.

Example 2:

as shown in fig. 1 to 8, as a further optimization of the above embodiment, a vibratory feeder comprises a vibratory shell 1, the vibratory shell 1 is disposed in an inclined manner, a vibratory motor 2 is fixedly connected to a higher side of the vibratory shell 1, spring connecting pieces 3 are symmetrically arranged in parallel on two sides of the vibratory shell 1 adjacent to the vibratory motor 2, a first support 4 is fixedly connected to a lower side of the spring connecting piece 3 on a side of the vibratory shell 1 close to the vibratory motor 2, a second support 5 is fixedly connected to a lower side of the spring connecting piece 3 on a side of the vibratory shell 1 away from the vibratory motor 2, a discharge shell 11 is disposed on a side of the lower side of the vibratory shell 1 away from the vibratory motor 2, the discharge shell 11 is parallel to the vibratory shell 1, an end plate 12 is fixedly connected to one end of the discharge shell 11 close to the vibratory shell 1, a fixing plate 13 is fixedly connected between the end plate 12 and the vibratory shell 1, a shaft hole 14 is disposed in the middle of the end plate 12, a long shaft 15 is inserted into the long shaft hole 15, a long shaft 15 is disposed in the middle of the discharge shell 11, a first support 16 is connected to a long shaft 16, a third support 16 is connected to a long shaft 16, a long shaft 15, a third shaft 16 is disposed on a side of the long shaft 16, and a long shaft 16 is connected to a long shaft 16 fixed in the long shaft mechanism, the first sleeve 181 is sleeved with the long shaft 15, the first outer side of the first sleeve 181 is fixedly connected with a first rotating rod 182 in an equidistant surrounding mode, the other end of the first rotating rod 182 is fixedly connected with a brush head 183, the separation plates 6 are arranged on the inner side of the vibration shell 1 in an equidistant mode, gaps are reserved among the separation plates 6, the separation plates 6 are parallel to the bottom face of the vibration shell 1, a support rod 7 is fixedly connected to the lower side of the separation plates 6, and the support rod 7 is fixedly connected with the vibration shell 1.

Example 3:

as shown in fig. 1 to 8, as a further optimization of the above embodiment, a vibratory feeder comprises a vibratory shell 1, the vibratory shell 1 is disposed in an inclined manner, a vibratory motor 2 is fixedly connected to a higher side of the vibratory shell 1, spring connecting pieces 3 are symmetrically arranged in parallel on two sides of the vibratory shell 1 adjacent to the vibratory motor 2, a first support 4 is fixedly connected to a lower side of the spring connecting piece 3 on a side of the vibratory shell 1 close to the vibratory motor 2, a second support 5 is fixedly connected to a lower side of the spring connecting piece 3 on a side of the vibratory shell 1 away from the vibratory motor 2, a discharge shell 11 is disposed on a side of the lower side of the vibratory shell 1 away from the vibratory motor 2, the discharge shell 11 is parallel to the vibratory shell 1, an end plate 12 is fixedly connected to one end of the discharge shell 11 close to the vibratory shell 1, a fixing plate 13 is fixedly connected between the end plate 12 and the vibratory shell 1, a shaft hole 14 is disposed in the middle of the end plate 12, a long shaft 15 is inserted into the long shaft hole 15, a long shaft 15 is disposed in the middle of the discharge shell 11, a first support 16 is connected to a long shaft 16, a third support 16 is connected to a long shaft 16, a long shaft 15, a third shaft 16 is disposed on a side of the long shaft 16, and a long shaft 16 is connected to a long shaft 16 fixed in the long shaft mechanism, a sleeve 181 cup joints with major axis 15, a first outer equidistance surrounding type fixedly connected with bull stick 182 of a sleeve 181, the brush head 183 of the other end fixedly connected with of bull stick 182, the inboard equidistance range formula of vibration shell 1 is provided with separator plate 6, it is gapped between the separator plate 6, separator plate 6 is parallel with the bottom surface of vibration shell 1, the downside fixedly connected with bracing piece 7 of separator plate 6, bracing piece 7 and vibration shell 1 fixed connection, the upside equidistance fixedly connected with lug 8 of separator plate 6.

Example 4:

as shown in fig. 1 to 8, as a further optimization of the above embodiment, a vibratory feeder comprises a vibratory shell 1, the vibratory shell 1 is disposed in an inclined manner, a vibratory motor 2 is fixedly connected to a higher side of the vibratory shell 1, spring connecting pieces 3 are symmetrically arranged in parallel on two sides of the vibratory shell 1 adjacent to the vibratory motor 2, a first support 4 is fixedly connected to a lower side of the spring connecting piece 3 on a side of the vibratory shell 1 close to the vibratory motor 2, a second support 5 is fixedly connected to a lower side of the spring connecting piece 3 on a side of the vibratory shell 1 away from the vibratory motor 2, a discharge shell 11 is disposed on a side of the lower side of the vibratory shell 1 away from the vibratory motor 2, the discharge shell 11 is parallel to the vibratory shell 1, an end plate 12 is fixedly connected to one end of the discharge shell 11 close to the vibratory shell 1, a fixing plate 13 is fixedly connected between the end plate 12 and the vibratory shell 1, a shaft hole 14 is disposed in the middle of the end plate 12, a long shaft 15 is inserted into the long shaft hole 15, a long shaft 15 is disposed in the middle of the discharge shell 11, a first support 16 is connected to a long shaft 16, a third support 16 is connected to a long shaft 16, a long shaft 15, a third shaft 16 is disposed on a side of the long shaft 16, and a long shaft 16 is connected to a long shaft 16 fixed in the long shaft mechanism, the utility model discloses a brush head brush for the kitchen, including sleeve one 181, long axis 15, turning rod one 182, turning rod two 191, sleeve two 191 and long axis 15, the first 181 of sleeve cup joints with long axis 15, the outside equidistance surrounding type fixedly connected with turning rod one 182 of sleeve one 181, the other end fixedly connected with brush head 183 of turning rod one 182, the middle part equidistance of long axis 15 is provided with stirring mechanism 19, stirring mechanism 19 is including sleeve two 191, sleeve two 191 cup joints with long axis 15, the even fixedly connected with turning rod two 192 in the outside of sleeve two 191, the other end fixedly connected with of turning rod two 192 turns over driving rod 193, stirring rod 193 is parallel with ejection of compact shell 11.

Example 5:

as shown in fig. 1 to 8, as a further optimization of the above embodiment, a vibratory feeder comprises a vibratory shell 1, the vibratory shell 1 is disposed in an inclined manner, a vibratory motor 2 is fixedly connected to a higher side of the vibratory shell 1, spring connecting pieces 3 are symmetrically arranged in parallel on two sides of the vibratory shell 1 adjacent to the vibratory motor 2, a first support 4 is fixedly connected to a lower side of the spring connecting piece 3 on a side of the vibratory shell 1 close to the vibratory motor 2, a second support 5 is fixedly connected to a lower side of the spring connecting piece 3 on a side of the vibratory shell 1 away from the vibratory motor 2, a discharge shell 11 is disposed on a side of the lower side of the vibratory shell 1 away from the vibratory motor 2, the discharge shell 11 is parallel to the vibratory shell 1, an end plate 12 is fixedly connected to one end of the discharge shell 11 close to the vibratory shell 1, a fixing plate 13 is fixedly connected between the end plate 12 and the vibratory shell 1, a shaft hole 14 is disposed in the middle of the end plate 12, a long shaft 15 is inserted into the long shaft hole 15, a long shaft 15 is disposed in the middle of the discharge shell 11, a first support 16 is connected to a long shaft 16, a third support 16 is connected to a long shaft 16, a long shaft 15, a third shaft 16 is disposed on a side of the long shaft 16, and a long shaft 16 is connected to a long shaft 16 fixed in the long shaft mechanism, sleeve 181 cup joints with major axis 15, an outside equidistance surrounding type fixedly connected with bull stick 182 of sleeve 181, the other end fixedly connected with brush head 183 of bull stick 182, the inboard bottom surface middle part of vibration shell 1 is provided with sieve 9, the downside of sieve 9 is provided with blanking shell 10, the downside of vibration shell 1 and ejection of compact shell 11 is provided with slag discharging plate 25, one side that slag discharging plate 25 is close to ejection of compact shell 11 is high to be close to one side of vibration shell 1 and is low.

Example 6:

as shown in fig. 1 to 8, as a further optimization of the above embodiment, a vibratory feeder comprises a vibratory shell 1, the vibratory shell 1 is disposed in an inclined manner, a vibratory motor 2 is fixedly connected to a higher side of the vibratory shell 1, first spring connectors 3 are symmetrically arranged in parallel on two sides of the vibratory shell 1 adjacent to the vibratory motor 2, a first support 4 is fixedly connected to a lower side of the first spring connector 3 on a side of the vibratory shell 1 close to the vibratory motor 2, a second support 5 is fixedly connected to a lower side of the first spring connector 3 on a side of the vibratory shell 1 away from the vibratory motor 2, a discharge shell 11 is disposed on a side of the lower side of the vibratory shell 1 away from the vibratory motor 2, the discharge shell 11 is parallel to the vibratory shell 1, an end plate 12 is fixedly connected to one end of the discharge shell 11 close to the vibratory shell 1, a fixing plate 13 is fixedly connected between the end plate 12 and the vibratory shell 1, a shaft hole 14 is disposed in the middle of the end plate 12, a long shaft hole 15 is inserted in the end plate 12 through the shaft hole 14, the long shaft hole 15 is disposed in the discharge shell 11, a cleaning mechanism is disposed in the discharge shell 15, a position close to one end of the vibratory shell 1, a first spring connector 17 is disposed on a second support 17, a third spring connector 16 is disposed on a side of the fixed in the stationary shell 11, a stationary shell 15, a stationary sleeve 16 is connected to a stationary sleeve 16, and a stationary sleeve 16, a stationary sleeve 16 is disposed on a stationary sleeve 16 fixed in the stationary sleeve 16, the utility model discloses a brush head of the outer equidistance surrounding type fixedly connected with bull stick 182 of a sleeve 181, the sleeve 181 cup joints with major axis 15, the outside equidistance surrounding type fixedly connected with bull stick 182 of a sleeve 181, the other end fixedly connected with brush head 183 of bull stick 182, the side symmetry formula of ejection of compact shell 11 is fixedly connected with montant 23 side by side, the equal fixedly connected with spring coupling two 24 of lower extreme of montant 23, spring coupling two 24 and 25 fixed connection of the board of slagging tap, the board 25 of slagging tap is close to the one end downside fixedly connected with spring 26 of first support 4, spring 26 and first support 4 fixed connection.

The utility model discloses a theory of operation and use flow: when the utility model is used, mineral aggregate is put in from the higher side of the vibration shell 1, the vibration motor 2 is started, the vibration motor 2 drives the vibration shell 1 to vibrate, the vibration shell 1 drives the separation plate 6 to vibrate through the support rod 7, when the mineral aggregate passes through the separation plate 6, smaller mineral aggregate blocks, dust and slag and the like fall from the gap between the separation plates 6, the larger mineral aggregate blocks slide downwards from the separation plate 6, when the mineral aggregate slides, the mineral aggregate blocks are collided by the vibration and the lug 8, the larger mineral aggregate blocks violently jump, the slag and dust on the surface of the large mineral aggregate can be promoted to be separated, in addition, the large mineral aggregate is separated independently, the dust and the slag can be prevented from being mixed together, the separation effect is poor, after the smaller mineral aggregate blocks, the dust and the slag and the like fall into the bottom surface of the vibration shell 1, the dust and slag slide downwards through the vibration, when the slag is discharged through the sieve plate 9, the dust and slag can be primarily screened, and part of the slag falls onto the dust plate 25 through the blanking shell 10 from the sieve plate 9, big mineral aggregate and remaining fragment slip to ejection of compact shell 11 through the vibration in, ejection of compact shell 11 vibrates under the drive of vibration shell 1, starting motor 17 this moment, motor 17 drives clearance mechanism 18 through major axis 15 and rotates, clearance mechanism 18 is when rotating, sleeve 181 drives brush head 183 through bull stick 182 and rotates, the mineral aggregate that passes along on the way is repeatedly brushed, brush the dust disintegrating slag on mineral aggregate surface, at this moment under the effect of ejection of compact shell 11 vibration, the dust disintegrating slag falls into on slag discharging plate 25 from separating tank 16, meanwhile, major axis 15 drives stirring mechanism 19 and rotates, stirring mechanism 19 is when rotating, sleeve two drives stirring pole 193 through bull stick 191 two 192 and rotates, stir the mineral aggregate repeatedly when stirring pole 193 rotates, make the mineral aggregate collide each other, break away from the disintegrating slag 193, in addition the mineral aggregate is stirred and is vibrated constantly, help stirring the brushing effect of stirring pole, the mineral aggregate after the separation is wiped to the brush through ejection of compact shell 11 and falls out, and the above-mentioned dust disintegrating slag that is separated out falls into slag discharging plate 25 on the back, and slag discharging plate 25 is under the drive of ejection of compact shell 11 through montant 23 and two 24 of spring coupling spare, and slag discharging plate 25 vibrates, and the effect of vibration drives the dust disintegrating slag to lower one side roll-off, later is collected. Through above-mentioned structure, can be when the mineral aggregate pay-off, except that the coarse screen, can also brush repeatedly the mineral aggregate through clearance mechanism, go out the high-efficient separation of the dust disintegrating slag on mineral aggregate surface, avoid a large amount of dust disintegrating slag to adhere to on the mineral aggregate surface, can't break away from through the vibration, get into down one process after, generate pressure and influence have promoted the high-efficient expansion of mineral aggregate processing work.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

The principles and embodiments of the present invention are explained herein using specific examples, which are presented only to assist in understanding the method and its core concepts of the present invention. The foregoing is only a preferred embodiment of the present invention, and it should be noted that there are objectively infinite specific structures due to the limited character expressions, and it will be apparent to those skilled in the art that a plurality of modifications, decorations or changes may be made without departing from the principle of the present invention, and the above technical features may be combined in a suitable manner; such modifications, variations, or combinations, or other applications of the inventive concepts and solutions as may be employed without such modifications, are intended to be included within the scope of the present invention.

Claims (6)

1. A vibrating feeder is characterized in that: the vibration shell comprises a vibration shell (1), the vibration shell (1) is obliquely arranged, a vibration motor (2) is fixedly connected to one higher side of the vibration shell (1), spring connecting pieces I (3) are symmetrically arranged on two sides of the vibration shell (1) adjacent to the vibration motor (2) in parallel, a first support (4) is fixedly connected to the lower side of the spring connecting piece I (3) on one side of the vibration shell (1) close to the vibration motor (2), a second support (5) is fixedly connected to the lower side of the spring connecting piece I (3) on one side of the vibration shell (1) far away from the vibration motor (2), a discharge shell (11) is arranged on one side of the lower side of the vibration shell (1) far away from the vibration motor (2), the discharge shell (11) is parallel to the vibration shell (1), an end plate (12) is fixedly connected to one end of the discharge shell (11) close to the vibration shell (1), a fixing plate (13) is fixedly connected between the end plate (12) and the vibration shell (1), a long shaft hole (15) is formed in the middle of the end plate (12), a long shaft hole (15) is formed in the vibration shell (15), and a long shaft hole (17) is formed in the vibration shell (15) close to the long shaft hole (15) of the vibration shell (1), the downside and the second support (5) fixed connection of motor (17), one side symmetry formula fixedly connected with spring coupling spare (3) of vibration shell (1) are kept away from in ejection of compact shell (11), the equal fixedly connected with third support (20) of downside of spring coupling spare (3) of ejection of compact shell (11), the other end of major axis (15) is rotated and is connected with end (21), fixedly connected with regulating stem (22) between end (21) and third support (20), the middle part equidistance of major axis (15) is provided with clearance mechanism (18), separating tank (16) have evenly been seted up to the inboard of ejection of compact shell (11), separating tank (16) set up the downside in major axis (15), clearance mechanism (18) package all sleeve (181), sleeve (181) cup joint with major axis (15), the outside equidistance of sleeve (181) encircles formula fixedly connected with bull stick (182), the other end fixedly connected with brush head (183) of bull stick (182).

2. A vibratory feeder according to claim 1, wherein: the inboard equidistance range formula of vibration shell (1) is provided with division board (6), it is gapped between division board (6), division board (6) are parallel with the bottom surface of vibration shell (1), downside fixedly connected with bracing piece (7) of division board (6), bracing piece (7) and vibration shell (1) fixed connection.

3. A vibratory feeder according to claim 2, wherein: the upper side of the separation plate (6) is fixedly connected with bumps (8) at equal intervals.

4. A vibratory feeder according to claim 1, wherein: the middle part equidistance of major axis (15) is provided with turns over and dials mechanism (19), turn over and dial mechanism (19) including sleeve two (191), sleeve two (191) cup joint with major axis (15), the even fixedly connected with bull stick two (192) in the outside of sleeve two (191), the other end fixedly connected with of bull stick two (192) turns over driving lever (193), it is parallel with ejection of compact shell (11) to turn over driving lever (193).

5. A vibratory feeder according to claim 1, wherein: the inboard bottom surface middle part of vibration shell (1) is provided with sieve (9), the downside of sieve (9) is provided with blanking shell (10), the downside of vibration shell (1) and ejection of compact shell (11) is provided with slag discharging plate (25), it is low that one side height that one side that slag discharging plate (25) is close to ejection of compact shell (11) is close to vibration shell (1).

6. A vibratory feeder according to claim 1, wherein: the side symmetry formula of ejection of compact shell (11) is fixedly connected with montant (23) side by side, the equal fixedly connected with spring coupling spare two (24) of lower extreme of montant (23), spring coupling spare two (24) and slag discharging plate (25) fixed connection, slag discharging plate (25) are close to one end downside fixedly connected with spring (26) of first support (4), spring (26) and first support (4) fixed connection.

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