CN215744777U

CN215744777U - Material screening and conveying device

Info

Publication number: CN215744777U
Application number: CN202122041933.3U
Authority: CN
Inventors: 叶亮
Original assignee: Lanxi Yasheng Machinery Co ltd
Current assignee: Lanxi Yasheng Machinery Co ltd
Priority date: 2021-08-27
Filing date: 2021-08-27
Publication date: 2022-02-08
Anticipated expiration: 2031-08-27

Abstract

The utility model discloses a material screening and conveying device, which comprises a rack and a material rack, wherein a chain channel and a slideway which are mutually communicated are arranged above the rack, a pushing cylinder for pushing the material is arranged at the communication part of the chain channel and the slideway, a conveying chain for conveying the material is movably connected inside the chain channel, a notch is arranged in the center of the slideway, a material cavity for placing the material is arranged in the center of the material rack, a scrap collecting box and a vibrator are arranged below the material cavity, a scrap discharging hole communicated with the scrap collecting box is arranged on the lower surface of the material cavity, more than two abutting plates are connected to one side of the material rack close to the chain channel, a push plate is arranged in the center of each two adjacent abutting plates in a sliding manner, and a jacking cylinder for driving the push plate to ascend and descend is connected to the side of the material rack; this conveyor can be automatically with the material spare screening, lifting and transportation, effectively reduces the required intensity of labour of labourer's transport material spare, and the material spare of being convenient for carries out follow-up processing, effectively improves material spare machine-shaping's convenience and efficiency.

Description

Material screening and conveying device

Technical Field

The utility model relates to a material screening and conveying device.

Background

Crank of bicycle or electric motor car is generally through the casting, punching press, cutting process, and need multiple different mechanical equipment to carry out the processing usually in the course of the processing, and most mechanical equipment are in the position of difference, from this need the manual material of operator to carry the transfer, and carry then not only consuming time power through the manual material of operator this kind, the handling efficiency of material also very low, be unfavorable for the batch processing of material, inside also very easily mixing the sweeps of material processing to the in-process of material handling inside the material, not only increase the transport weight of material, also influence the subsequent processing of material easily, reduce material processingquality.

SUMMERY OF THE UTILITY MODEL

The utility model mainly solves the technical problems in the prior art, and provides the material screening and conveying device which is convenient for removing mixed impurities in the material, effectively improves the conveying convenience of the material and improves the processing and forming efficiency of the material.

In order to solve the technical problems, the utility model is realized by the following technical scheme:

the utility model provides a material screening conveyor, includes frame and work or material rest, the top of frame is provided with chain way and the slide of mutual intercommunication, and the chain way is provided with the push cylinder that is used for propelling movement material spare with the intercommunication department of slide, the inside swing joint that the chain was said has the conveying chain that is used for carrying the material spare, and the central authorities of slide are provided with the notch, the central authorities of work or material rest are provided with the material chamber that is used for placing the material spare, and the below in material chamber is provided with collection bits box and vibrator, and the lower surface in material chamber is provided with the chip removal hole that is linked together with collection bits box, one side that the work or material rest is close to the chain way is connected with more than two to the board, and the central authorities that just adjacent two support the board slide and be provided with the push pedal, and the central authorities of push pedal are provided with the spring, and the rear of work or material rest is provided with the top jar that is used for driving the push pedal lift.

Preferably, the abutting plates are arranged between the material cavity and the chain channel and are uniformly distributed, the abutting plates close to the chain channel are higher than the abutting plates close to the material cavity, the material cavity inclines towards one side of the chain channel, so that the material parts in the material cavity can automatically approach the abutting plates, the material parts in the material cavity can conveniently enter the chain channel through the abutting plates and the pushing plate, the material parts do not need to be lifted manually by an operator, the labor intensity of the operator is reduced, and the safety of material part carrying is improved.

Preferably, the push pedal is provided with more than two, and the push pedal is located adjacent two respectively and supports between the board, the below of push pedal is connected with the fagging to be located the material spare on supporting the board and can be through the lift of push pedal with the material spare lifting, the setting of fagging then the push pedal of being convenient for can go up and down in step.

Preferably, a top plate is arranged below the supporting plate, a gap hole is formed in the lower surface of the supporting plate, a guide pillar is connected to the upper portion of the top plate, the guide pillar is arranged inside the gap hole in a sliding mode, the spring is located in the center of the guide pillar, the supporting plate can be driven to lift through lifting of the top plate, the stability of the supporting plate is effectively improved through the spring between the supporting plate and the top plate, the possibility that the vibrator shakes down a material piece above the pushing plate is avoided, the lifting stability of the supporting plate is further improved through sliding fit of the guide pillar and the gap hole, and the material piece is conveniently lifted by the pushing plate above the supporting plate.

Preferably, chamfers a inclined towards the chain channel are arranged on the upper surfaces of the pushing plate and the abutting plate, and the range of the chamfers a is 5-15 degrees, so that the material piece can abut against the abutting plate on one side of the chain channel when being positioned on the abutting plate or the pushing plate, and the material piece can stably fall into the chain channel.

Preferably, the ejection cylinder is connected to the side of the material rack, and a piston rod of the ejection cylinder is connected with a supporting block connected with the top plate, so that the ejection cylinder can drive the top plate to lift through the supporting block, and further drive the supporting plate through the top plate and a push plate connected to the supporting plate to lift so as to lift the material lifting piece.

Preferably, a motor used for driving the conveying chain to run is connected to the side of the rack, an inductor is arranged in the center of the slide way, and the inductor, the pushing cylinder and the motor are in signal connection, so that the inductor can induce the conveying amount of the material in the slide way and can control whether the pushing cylinder is started or not in time, and the material in the chain way can be reasonably conveyed to the inside of the slide way to be processed.

Preferably, the tail end of the slide is connected with a sealing block, the notch is located between the inductor and the sealing block, and the height of the notch is lower than that of the chain channel, so that the material part can slide into the notch through the slide to be processed, and the material part can be rapidly grabbed and processed.

As preferred, the notch is long waist type U type hole, the center at the slide is connected to the seal piece and is higher than the notch, is convenient for spacing to the material spare through U type hole to restrict the material spare through the seal piece, effectively avoid the material spare to break away from the possibility of slide.

The utility model has the beneficial effects that: according to the utility model, an operator only needs to place the material in the material cavity, and the vibrator is connected below the material cavity, so that impurities mixed in the material can fall into the chip collecting box through the chip removing hole by means of vibration of the vibrator, the possibility that the impurities are mixed in the material is effectively reduced, and convenience and forming quality of material processing are ensured; more than two abutting plates are connected to one side, close to the chain channel, of the material rack, a push plate is arranged between every two adjacent abutting plates in a sliding mode, a top cylinder used for driving the push plate to lift is arranged behind the material rack, the push plate is driven to lift through the top cylinder, so that materials in the material cavity can be automatically conveyed into the chain channel through the push plate and conveyed into a notch in the slide channel through a conveying chain in the chain channel to be processed, conveying convenience and conveying efficiency of the materials are effectively improved, and working strength required for an operator to manually convey the materials is reduced; and the below of push pedal is connected with the fagging, is provided with guide pillar and spring between fagging and the roof for the jacking cylinder can carry out the shock attenuation through the spring to the push pedal and the material spare that is located the push pedal top and maintain steadily at the in-process that the drive roof goes up and down, avoids conventional conveyor because of rocking, the problem that drops that the oscillation probably appears when lifting material spare, effectively increases the stability and the efficiency of push pedal when lifting transport material spare, improves material spare and carries the convenience.

Drawings

FIG. 1 is a schematic structural diagram of a material screening and conveying device according to the present invention;

FIG. 2 is a schematic view of another directional structure of the material screening and conveying device of the present invention;

fig. 3 is a connection structure diagram of a push plate in the material screening and conveying device of the utility model.

Detailed Description

The following further describes embodiments of the present invention with reference to the drawings. It should be noted that the description of the embodiments is provided to help understanding of the present invention, but the present invention is not limited thereto. In addition, the technical features involved in the embodiments of the present invention described below may be combined with each other as long as they do not conflict with each other.

As shown in fig. 1 to 3, a material screening and conveying device comprises a frame 1 and a material rack 2, wherein a chain way 11 and a slide way 12 which are communicated with each other are arranged above the frame 1, a pushing cylinder 4 for pushing the material is arranged at the communication part of the chain channel 11 and the slideway 12, a conveying chain 31 for conveying the material is movably connected inside the chain channel 11, a notch 13 is arranged at the center of the slideway 12, a material cavity 21 for placing a material part is arranged in the center of the material rack 2, a chip collecting box 23 and a vibrator 24 are arranged below the material cavity 21, a chip removing hole 211 communicated with the chip collecting box 23 is arranged on the lower surface of the material cavity 21, more than two abutting plates 22 are connected to one side of the material rack 2 close to the chain channel 11, and the center of two adjacent abutting plates 22 is provided with a push plate 531 in a sliding manner, the center of the push plate 531 is provided with a spring 522, and the rear of the rack 2 is provided with a top cylinder 5 for driving the push plate 531 to lift.

The abutting plates 22 are arranged between the material cavity 21 and the chain channel 11, the abutting plates 22 close to the chain channel 11 are higher than the abutting plates 22 close to the material cavity 21, the material cavity 21 inclines towards one side of the chain channel 11, so that the material parts in the material cavity 21 can automatically approach the abutting plates 22, the material parts in the material cavity 21 can conveniently enter the chain channel 11 through the abutting plates 22 and the push plate 531, and an operator does not need to manually lift the material parts.

Push pedal 531 is provided with more than two, and push pedal 531 is located between two adjacent resisting board 22 respectively, the below of push pedal 531 is connected with fagging 53 to be located the material spare on resisting board 22 and can be through the lift with the material spare lifting of push pedal 531, the setting of fagging 53 then is convenient for push pedal 531 can go up and down in step.

The top plate 52 is arranged below the supporting plate 53, the gap 521 is arranged on the lower surface of the supporting plate 53, the guide post 523 is connected above the top plate 52, the guide post 523 is slidably arranged inside the gap 521, the spring 522 is located in the center of the guide post 523, the supporting plate 53 can be driven to lift through the lifting of the top plate 52, the stability of the supporting plate 53 is effectively improved by the spring 522 between the supporting plate 53 and the top plate 52, the possibility that the vibrator 24 shakes down a material piece above the push plate 531 is avoided, the lifting stability of the supporting plate 53 is further improved by the sliding fit of the guide post 523 and the gap 521, and the material piece is conveniently lifted by the push plate 531 above the supporting plate 53.

The upper surfaces of the push plate 531 and the abutting plate 22 are both provided with chamfers a inclined towards the chain path 11, and the chamfers a range is 5-15 degrees, so that the material can abut against the abutting plate 22 on one side of the chain path 11 when being positioned on the abutting plate 22 or the push plate 531, and the material can stably fall into the chain path 11.

The top cylinder 5 is connected to the side of the material rack 2, and a piston rod of the top cylinder 5 is connected with a supporting block 51 connected with a top plate 52, so that the top cylinder 5 can drive the top plate 52 to lift through the supporting block 51, and further drive a supporting plate 53 through the top plate 52 and a push plate 531 connected to the supporting plate 53 to lift for lifting the material part.

The side of the frame 1 is connected with a motor 3 used for driving the conveying chain 31 to operate, the center of the slide way 12 is provided with an inductor 41, the pushing cylinder 4 and the motor 3 are in signal connection, the inductor 41 can induce the conveying amount of the material in the slide way 12, and the pushing cylinder 4 can be controlled to be started or not in time, so that the material in the chain way 11 can be reasonably conveyed to the inside of the slide way 12 to be processed.

The end connection of slide 12 has a block 14, notch 13 is located between inductor 41 and block 14, and the height that highly is less than chain way 11 of notch 13 for the material can be through slide 12 landing notch 13 inside waiting to process, so that snatch the processing fast with the material.

Notch 13 is long waist type U type hole, the central authorities that seal 14 are connected at slide 12 are higher than notch 13, are convenient for spacing to the material spare through U type hole to restrict the material spare through seal 14, effectively avoid the possibility that the material spare breaks away from slide 12.

When the material screening and conveying device conveys the material, an operator only needs to place the material in the material cavity 21, and the material is automatically abutted against the side of the abutting plate 22 through the inclined arrangement of the material cavity 21; the vibrator 24 below the material rack 2 can vibrate continuously, so that impurities mixed in the material part fall into the chip collecting box 23 below the material cavity 21 through the chip removing holes 211, and the impurities are further distinguished from the material part; meanwhile, the top plate 52 is driven to lift through the top cylinder 5, the top plate 52 lifts the supporting plate 53 and the push plate 531 connected above the supporting plate 53 through the spring 522, the material part is lifted to the adjacent abutting plate 22 through the push plate 531, and therefore the material part is lifted to the conveying chain 31 in the chain channel 11 step by step through the push plate 531; and motor 3 can drive transfer chain 31 and carry out the material piece and carry, with the material piece transportation chain way 11 and slide 12's intercommunication department, and through pushing away the cylinder 4 with the material piece propelling movement in the chain way 11 slide 12, let the material piece automatic landing in notch 13 through tilting slide 12, and the setting of slide 12 central authorities inductor 41 then can respond to the inside material piece of slide 12, so that in time control pushes away cylinder 4 and carries out the propelling movement with the material piece, improve the order and the facility of the follow-up processing of material piece.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the described embodiments. It will be apparent to those skilled in the art that various changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, and the scope of protection is still within the scope of the utility model.

Claims

1. The utility model provides a material piece screening conveyor which characterized in that: the automatic feeding device comprises a rack and a material rack, wherein a chain channel and a slide channel which are communicated with each other are arranged above the rack, a pushing cylinder used for pushing a material piece is arranged at the communication position of the chain channel and the slide channel, a conveying chain used for conveying the material piece is movably connected inside the chain channel, a notch is formed in the center of the slide channel, a material cavity used for placing the material piece is formed in the center of the material rack, a scrap collecting box and a vibrator are arranged below the material cavity, a scrap discharging hole communicated with the scrap collecting box is formed in the lower surface of the material cavity, more than two supporting plates are connected to one side, close to the chain channel, of the material rack, a pushing plate is arranged in the center of each two adjacent supporting plates in a sliding mode, a spring is arranged in the center of the pushing plate, and a pushing cylinder used for driving the pushing plate to ascend and descend is arranged at the rear of the material rack.

2. The material piece screening and conveying device according to claim 1, wherein: the support plates are arranged between the material cavity and the chain channel, more than two support plates are uniformly distributed between the material cavity and the chain channel, the support plates close to the chain channel are higher than the support plates close to the material cavity, and the material cavity inclines towards one side of the chain channel.

3. The material screening and conveying device of claim 2, wherein: the push plates are arranged more than two, are respectively positioned between two adjacent abutting plates and are connected with supporting plates below.

4. The material screening and conveying device of claim 3, wherein: the supporting plate is characterized in that a top plate is arranged below the supporting plate, a gap hole is formed in the lower surface of the supporting plate, a guide pillar is connected to the upper portion of the top plate, the guide pillar is arranged in the gap hole in a sliding mode, and the spring is located in the center of the guide pillar.

5. The material piece screening and conveying device according to claim 4, wherein: and chamfers a inclined towards the chain path are arranged on the upper surfaces of the push plate and the abutting plate, and the range of the chamfers a is 5-15 degrees.

6. The material piece screening and conveying device according to claim 5, wherein: the ejection cylinder is connected to the side of the material rack, and a piston rod of the ejection cylinder is connected with a supporting block connected with the top plate.

7. The material piece screening and conveying device according to claim 1, wherein: the side of the rack is connected with a motor used for driving the conveying chain to run, the center of the slideway is provided with an inductor, and the inductor, the pushing cylinder and the motor are in signal connection.

8. The material screening and conveying device of claim 7, wherein: the tail end of the slide is connected with a sealing block, the notch is located between the inductor and the sealing block, and the height of the notch is lower than that of the chain channel.

9. The material screening and conveying device of claim 8, wherein: the notch is long waist type U type hole, the center at the slide is connected and is higher than the notch to the seal block.