CN210585833U - Even glassware down of vibration cooler - Google Patents

Abstract

The utility model discloses a vibrating cooler's even glassware down relates to food processing machinery's technical field, including feeder hopper, mixing hopper and frame, feeder hopper one end and frame fixed connection, in the other end stretched into the mixing hopper, be provided with drive arrangement in the frame to make the mixing hopper do reciprocating swing in the frame. Adjusting the driving device to enable the homogenizing hopper to do reciprocating motion on the frame, after the materials are poured into the frame from the feeding hopper, the materials are discharged onto the screen mesh from the homogenizing hopper, the uniform degree of feeding of the vibration cooling machine is improved, and therefore the purpose of uniform material distribution on the screen mesh of the vibration cooling machine is achieved.

Description

Even glassware down of vibration cooler

Technical Field

The utility model relates to a food processing machinery's technical field, more specifically says, it relates to a even glassware down of vibration cooling machine.

Background

The linear vibrating screen utilizes the vibration of a vibrating motor as a vibration source to throw up materials on the screen and simultaneously move forwards in a linear manner, the materials uniformly enter a discharge port of the screening machine from a feeding machine, and oversize products and undersize products of various specifications generated by a plurality of layers of screen meshes are respectively discharged from respective outlets.

In the prior art, chinese patent with publication number CN202943021U proposes a novel vibrating screen, including bank of screens, vibrating motor, a plurality of layers of screens, loading hopper and discharging device, vibrating motor installs in the bank of screens bottom, and a plurality of layers of screens are installed on the bank of screens, and the mutual parallel arrangement of screens, loading hopper are located the top central authorities of screen, and discharging device is located the bottom central authorities of screen, and one side of each screen layer is equipped with a row of cinder notch respectively. The material gets into the shale shaker from the loading hopper, and the shaker vibration makes the material screening get into the screen cloth of different layers and goes on, and the material is finally discharged from the discharge gate, and the waste residue is discharged from row cinder notch.

However, in the above technical scheme, when the feeding of the vibrating screen is uneven, the material cannot be subjected to the action of even exciting force, so that the material on the screen surface of the vibrating screen deviates to one side of the screen surface.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art exists, the utility model aims to provide a glassware under vibration cooler's is even makes the homocline hopper do reciprocating swing in the frame through drive arrangement, realizes the even purpose of material distribution on the vibration cooler screen cloth.

In order to achieve the above purpose, the utility model provides a following technical scheme:

the utility model provides a vibrating cooler's even glassware down, includes feeder hopper, equalizing hopper and frame, feeder hopper one end and frame fixed connection, in the other end stretched into the equalizing hopper, be provided with drive arrangement in the frame to make the equalizing hopper do reciprocating swing in the frame.

Through adopting above-mentioned technical scheme, adjust drive arrangement, make the mixing hopper be reciprocating motion in the frame, pour the back with the material from the feeder hopper, the material is discharged to the screen cloth from the mixing hopper on, improves the even degree of vibration cooler feed to realize the even purpose of material distribution on the vibration cooler screen cloth.

Further, a slide way is arranged on the rack, the slide way is fixedly installed on the rack along the swing track of the material homogenizing hopper, and a slide block connected with the slide way in a sliding mode is arranged on the material homogenizing hopper.

Through adopting above-mentioned technical scheme, the slider slides with the slide and is connected, when having reduced equalizing charge hopper and frame direct contact, the equalizing charge hopper swings the frictional force that receives, and the slide provides the holding power for sliding of slider, has improved the stability that equalizing charge hopper and frame are connected.

Furthermore, drive arrangement includes elastomer, motor, cam and drive assembly, and the cam passes through drive assembly and is connected with motor output main shaft, and the mixing hopper is contradicted with the cam, elastomer one end and mixing hopper fixed connection, the other end and frame fixed connection.

Through adopting above-mentioned technical scheme, the motor drives the cam and rotates, and then the drive equalizing hopper rotates, and the equalizing hopper rotates back elastomer quilt and is stretched or compress, and when the equalizing hopper slided to the farthest apart from the motor, the equalizing hopper can be under elastomer restoring force and cam holding power effect, slided to the direction that is close to the motor.

Furthermore, one side of the homogenizing hopper close to the rack is fixedly connected with a fixed block, the side face of the cam is provided with a sliding rail along the circumferential direction of the cam, and the fixed block is provided with a pulley which slides in a rolling manner with the sliding rail.

Through adopting above-mentioned technical scheme, the pulley replaces the mixing hopper and cam direct contact, has reduced the frictional force when sliding, and the slide rail is seted up on the cam, makes the pulley rotate the in-process and is difficult for deviating from the cam. The fixed block sets up on the sizing material hopper, and pulley fixed mounting has reduced the pulling force or the thrust that the sizing material hopper lateral wall receives on the fixed block.

Furthermore, the driving device comprises a motor, a cam and a transmission assembly, the cam is connected with the output main shaft of the motor through the transmission assembly, and the cam is connected with the material homogenizing hopper through a transmission piece, so that the cam drives the material homogenizing hopper to swing back and forth along the slide way.

By adopting the technical scheme, the motor rotates, the transmission component drives the cam, and the cam drives the transmission piece to enable the material homogenizing hopper to do reciprocating motion along the slideway.

Furthermore, one side of the homogenizing hopper close to the rack is fixedly connected with a fixing block, the transmission part comprises a transmission rod connected with one end, far away from the motor spindle, of the cam, one end of the transmission rod is hinged with the cam, and the other end of the transmission rod is hinged with the fixing block.

By adopting the technical scheme, the motor drives the cam to rotate, so that the transmission rod drives the fixed block, and the homogenizing hopper can swing back and forth under the action of the transmission rod.

Furthermore, a sliding groove is formed in the cam along the circumferential direction of the cam, a sliding block connected with the sliding groove in a sliding mode is arranged in the sliding groove, a fixed block is fixedly connected to one side, close to the rack, of the material homogenizing hopper, the transmission piece comprises a sliding rod, one end of the sliding rod is hinged to the fixed block, and the other end of the sliding rod is hinged to the sliding block.

By adopting the technical scheme, the motor drives the cam to rotate, so that the sliding block slides in the sliding groove and simultaneously drives the sliding rod, the sliding rod drives the fixed block, and the material homogenizing hopper reciprocates along the slideway.

Furthermore, the transmission assembly comprises a first gear and a second gear, wherein the first gear is coaxially arranged with the output spindle of the motor, the second gear is fixedly connected with the cam, and the first gear is meshed with the second gear.

Through adopting above-mentioned technical scheme, first gear and second gear engagement, the motor drives first gear and rotates to make the second gear drive cam rotation.

Compared with the prior art, the utility model has the advantages that:

1. the driving device drives the homogenizing hopper to do reciprocating swing on the rack, so that the aim of uniformly distributing materials on the screen of the vibration cooler is fulfilled;

2. the cam and the homogenizing hopper are connected in a rolling sliding manner by adopting a pulley and a sliding rail, so that the friction force of the sliding connection is reduced, and the resource utilization rate is improved; in addition, the sliding rail is arranged on the cam, so that the sliding rail is not easy to separate from the pulley in the rotation process.

Drawings

FIG. 1 is a schematic view of the assembly of the present invention with a vibration cooler;

FIG. 2 is a partial schematic view of a first embodiment;

FIG. 3 is a partial schematic view of the second embodiment;

fig. 4 is a partial schematic view of the third embodiment.

Reference numerals: 1. a feed hopper; 2. a material homogenizing hopper; 21. a slider; 22. a fixed block; 3. a frame; 31. a slideway; 4. a drive device; 41. an elastomer; 42. a motor; 43. a cam; 44. a transmission assembly; 441. a first gear; 442. a second gear; 5. a pulley; 51. a slide rail; 6. a transmission rod; 7. a slide bar; 71. a chute.

Detailed Description

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

Example one

Referring to fig. 1 and 2, the uniform blanking device of the vibration cooling machine comprises a feed hopper 1, a homogenizing hopper 2 and a rack 3, wherein the feed hopper 1 is funnel-shaped, the large end of the feed hopper 1 is welded with the rack 3, and the small end of the feed hopper 1 extends into the homogenizing hopper 2. The frame 3 is provided with a driving device 4 for driving the homogenizing hopper 2 to do reciprocating swing on the frame 3.

The frame 3 is provided with two slides 31 and the slide 31 is close to and offers the bar groove along slide 31 length direction on the side of feeder hopper 1, and the slide 31 welds on frame 3 along the 2 swing trails of equalizing charge hopper, and the welding has the slider 21 of being connected with slide 31 slides on the equalizing charge hopper 2, and slider 21 is L shape slider, and slider 21 slides with slide 31 and cooperates for be difficult for deviating from frame 3 when equalizing charge hopper 2 swings. Adjust drive arrangement 4, make the swing of equalizing charge hopper 2, the user pours the material into feeder hopper 1 into, and the material falls on the vibration cooling machine screen cloth by equalizing charge hopper 2 for material distribution is even on the vibration cooling machine screen cloth, realizes the normal mesh of material flow.

Referring to fig. 2, the driving device 4 includes an elastic body 41, a motor 42, a cam 43 and a transmission assembly 44 disposed on the same side of the homogenizing hopper 2, the transmission assembly 44 includes a first gear 441 disposed coaxially with the output spindle of the motor 42, a second gear 442 welded to the rotation shaft of the cam 43, the first gear 441 is engaged with the second gear 442 so that the cam 43 can rotate by the motor 42, and the first gear 441 and the second gear 442 are preferably bevel gears. The equalizing hopper 2 is abutted against the cam 43, the elastic body 41 is a spring, one end of the elastic body 41 is fixedly connected with the equalizing hopper 2, and the other end is fixedly connected with the rack 3. The motor 42 is turned on, and the homogenizing hopper 2 reciprocates along the slideway 31 under the action of the elastic body 41 and the cam 43.

One side of the homogenizing hopper 2 close to the rack 3 is welded with a fixed block 22, the side of the cam 43 is provided with a slide rail 51 along the circumferential direction, and the fixed block 22 is welded with a pulley 5 which slides with the slide rail 51 in a rolling manner. The pulley 5 and the slide rail 51 roll and slide, so that the friction force of the cam 43 and the equalizing hopper 2 during sliding is reduced.

The working principle is as follows:

the motor 42 drives the cam 43 to rotate, the acting force of the cam 43 acts on the pulley 5 of the material homogenizing hopper 2, so that the pulley 5 moves along the slide rail 51, namely, the material homogenizing hopper 2 moves towards the direction far away from the motor 42, the elastic body 41 is stretched, when the distance between the material homogenizing hopper 2 and the motor 42 reaches the maximum, the material homogenizing hopper 2 moves towards the direction close to the motor 42 under the action of the restoring force of the elastic body 41 and the supporting force of the cam 43, the resetting of the material homogenizing hopper 2 is realized, and the reciprocating circulation is carried out. The user puts in the material by feeder hopper 1, and the material is discharged from equalizing hopper 2, realizes the evenly distributed of material on the vibration cooling machine screen cloth.

Example two

Referring to fig. 3, the uniform feeder of the vibration cooling machine is different from the first embodiment in that a driving device 4 comprises a motor 42, a cam 43 and a transmission assembly 44, the cam 43 is connected with an output spindle of the motor 42 through the transmission assembly 44, the cam 43 is connected with a fixed block 22 through a transmission piece, the transmission piece comprises a transmission rod 6, one end of the transmission rod 6 is hinged with the cam 43, and the other end of the transmission rod is hinged with the fixed block 22, so that the cam 43 drives a material homogenizing hopper 2 to swing back and forth along a slide way 31. The motor 42 drives the cam 43 to rotate, so that the transmission rod 6 drives the fixed block 22 to enable the homogenizing hopper 2 to swing back and forth along the slideway 31, and the aim of uniform blanking is fulfilled.

The working principle is as follows:

the motor 42 drives the cam 43 to rotate, and the action of the cam 43 acts on the transmission rod 6, so that the transmission rod 6 drives the equalizing hopper 2 to do reciprocating swing away from and close to the motor 42 along the slideway 31. The user puts in the material by feeder hopper 1, and the material is discharged from equalizing hopper 2, realizes the evenly distributed of material on the vibration cooling machine.

EXAMPLE III

A uniform blanking device of a vibration cooling machine is characterized in that a sliding groove 71 along the circumferential direction of a cam 43 is formed in the cam, the sliding groove 71 is a T-shaped groove, a sliding block connected with the sliding groove 71 in a sliding mode is arranged in the sliding groove 71, the sliding block slides in the sliding groove 71 and cannot fall out of the sliding groove 71, a fixed block 22 is integrally formed on one side, close to a rack 3, of a material homogenizing hopper 2, a transmission piece comprises a sliding rod 7, one end of the sliding rod 7 is hinged to the fixed block 22, and the other end of the sliding rod is hinged to the sliding block.

The working principle is as follows:

the motor 42 drives the cam 43 to rotate, the acting force of the cam 43 acts on the sliding block and drives the sliding rod 7, so that the sliding rod 7 drives the material homogenizing hopper 2 to do reciprocating swing far away from or close to the motor 42 along the slideway 31. The user puts in the material by feeder hopper 1, and the material is discharged from equalizing hopper 2, realizes the evenly distributed of material on the vibration cooling machine.

It is above only the utility model discloses a preferred embodiment, the utility model discloses a scope of protection does not only confine above-mentioned embodiment, the all belongs to the utility model discloses a technical scheme under the thinking all belongs to the utility model discloses a scope of protection. It should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (8)

1. The utility model provides a vibrating cooler's even glassware down which characterized in that, includes feeder hopper (1), equalizing hopper (2) and frame (3), feeder hopper (1) one end and frame (3) fixed connection, the other end stretches into in equalizing hopper (2), be provided with drive arrangement (4) on frame (3) to make equalizing hopper (2) do reciprocating swing on frame (3).

2. The uniform blanking device of a vibration cooling machine as claimed in claim 1, wherein a slideway (31) is arranged on the frame (3), the slideway (31) is fixedly mounted on the frame (3) along the swing track of the equalizing hopper (2), and a sliding block (21) connected with the slideway (31) in a sliding manner is arranged on the equalizing hopper (2).

3. The uniform blanking device of a vibration cooling machine as claimed in claim 2, wherein said driving device (4) comprises an elastic body (41), a motor (42), a cam (43) and a transmission assembly (44), the cam (43) is connected with the output main shaft of the motor (42) through the transmission assembly (44), the equalizing hopper (2) is abutted against the cam (43), one end of the elastic body (41) is fixedly connected with the equalizing hopper (2), and the other end is fixedly connected with the frame (3).

4. The uniform blanking device of a vibration cooling machine as claimed in claim 3, wherein a fixed block (22) is fixedly connected to one side of the uniform material hopper (2) close to the frame (3), a slide rail (51) is arranged along the circumferential direction of the cam (43) on the side surface, and a pulley (5) which slides with the slide rail (51) in a rolling manner is arranged on the fixed block (22).

5. The uniform blanking device of a vibration cooling machine as claimed in claim 2, wherein said driving device (4) comprises a motor (42), a cam (43) and a transmission assembly (44), the cam (43) is connected with the output main shaft of the motor (42) through the transmission assembly (44), and said cam (43) is connected with the equalizing hopper (2) through a transmission member, so that the cam (43) drives the equalizing hopper (2) to swing back and forth along the slideway (31).

6. The uniform feeder of the vibration cooling machine as claimed in claim 5, wherein a fixed block (22) is fixedly connected to one side of the uniform hopper (2) close to the frame (3), the transmission member comprises a transmission rod (6) connected to one end of the cam (43) far away from the output main shaft of the motor (42), one end of the transmission rod (6) is hinged to the cam (43), and the other end is hinged to the fixed block (22).

7. The uniform blanking device of the vibration cooling machine as claimed in claim 5, wherein the cam (43) is provided with a sliding groove (71) along the circumferential direction thereof, a sliding block connected with the sliding groove (71) in a sliding manner is arranged in the sliding groove (71), one side of the homogenizing hopper (2) close to the rack (3) is fixedly connected with a fixed block (22), the transmission member comprises a sliding rod (7), one end of the sliding rod (7) is hinged with the fixed block (22), and the other end of the sliding rod is hinged with the sliding block.

8. The uniform blanking unit of a vibration cooling machine as claimed in claim 3 or 5, characterized in that said transmission assembly (44) comprises a first gear (441) arranged coaxially with the output shaft of the motor (42), a second gear (442) fixedly connected with the cam (43), said first gear (441) being in mesh with the second gear (442).

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