CN217911548U - Oyster peptide production is with preventing blockking up shale shaker - Google Patents

Abstract

The utility model relates to an oyster peptide production technical field, and disclose an oyster peptide production is with preventing blockking up shale shaker, solved present shale shaker material and directly fallen, the material falls too fast, and too much causes the problem of jam easily, and it includes the frame, the connecting seat is all installed down in frame upper end four corners, and four inside all rotations of connecting seat are connected with the elastic plate down, and the elastic plate top is connected with the shale shaker subassembly, and the connecting seat is all installed in shale shaker subassembly lower extreme four corners, the utility model discloses, through preventing blockking up the setting of subassembly, the motor can drive spiral leaf helical drive, such screw motion mode can avoid the inside material of storage hopper to pile up, can make the material whereabouts smooth and easy, and simultaneously, the rotating plate can drive the material downwards landing gradually to avoid on the direct whereabouts of material to the shale shaker subassembly, the effectual whereabouts of slowing down accumulation volume of avoiding the material too much to cause the blocking phenomenon, make the material sieve move the process smooth and easy.

Description

Oyster peptide production is with preventing blockking up shale shaker

Technical Field

The utility model belongs to the technical field of oyster peptide production, specifically be an oyster peptide production is with preventing blockking up shale shaker.

Background

The vibrating screen works by utilizing reciprocating rotary vibration generated by vibration excitation of the vibrator, the upper rotary heavy hammer of the vibrator enables the screen surface to generate plane rotary vibration, and the vibrating screen is required to be used in oyster peptide production.

The existing vibrating screen is generally used for discharging materials, the materials usually directly fall onto a screen, the falling of the materials is too fast, and the materials are too much easy to cause blockage, so that the working efficiency is reduced, and therefore, the anti-blockage vibrating screen for producing the oyster peptides is designed.

SUMMERY OF THE UTILITY MODEL

To the above-mentioned condition, for overcoming prior art's defect, the utility model provides an oyster peptide production is with preventing blockking up shale shaker has effectually solved present shale shaker material and directly falls down, and the material falls at the excessive speed, too much causes the problem of jam easily.

In order to achieve the above object, the utility model provides a following technical scheme: an anti-blocking vibrating screen for oyster peptide production comprises a frame, wherein lower connecting seats are arranged at four corners of the upper end of the frame, elastic plates are rotatably connected inside the four lower connecting seats, a vibrating screen assembly is connected above the elastic plates, upper connecting seats are arranged at four corners of the lower end of the vibrating screen assembly, the upper ends of the four elastic plates are rotatably connected with the corresponding upper connecting seats, fixed blocks are fixedly connected to two sides of the frame, and anti-blocking assemblies are connected to the upper ends of the fixed blocks;

the anti-blocking assembly comprises a supporting rod connected with the fixing blocks on two sides, the upper end of the supporting rod is connected with a U-shaped frame, and one side of the U-shaped frame is connected with a storage hopper.

Preferably, the storage hopper comprises boss form upper portion and cylindric lower part, and boss form upper portion inner wall rotates and is connected with the pivot, goes up the pivot external connection and has the spiral leaf, and cylindric lower part inner wall rotates and is connected with lower pivot, and lower pivot outer end circumferential connection has the rotor plate, and the rotor plate is three, and three rotor plate evenly distributed is outside in lower pivot, and rotor plate one end and the contact of cylindric lower part inner wall.

Preferably, it all extends to the boss form upper portion outside and is connected with driving pulley to go up pivot one end, and lower pivot one end extends to cylindric lower part external connection and has driven pulley, and the transmission is connected with the drive belt between driven pulley and the driving pulley, goes up the pivot other end and is connected with the motor, and the motor is located boss form upper portion outer wall.

Preferably, the vibrating screen assembly comprises a bottom frame, a vibrating machine is installed on one side of the lower end of the bottom frame, a blanking port is formed in one side of the inside of the bottom frame, and a lower guide chute is connected to the lower end of the blanking port.

Preferably, the upper end of the underframe is connected with a middle frame, a second sieve plate is connected inside the middle frame, and one side of the middle frame is connected with a middle guide chute.

Preferably, the upper end of the middle frame is connected with a top frame, a first sieve plate is connected inside the top frame, and one side of the top frame is connected with an upper guide chute.

Preferably, the mesh aperture of the first sieve plate surface is larger than the mesh aperture of the second sieve plate surface.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model discloses, through preventing the setting of jam subassembly, the motor can drive spiral leaf helical drive, and such helical motion mode can avoid the inside material of storage hopper to pile up, can make the material whereabouts smooth and easy, and simultaneously, the rotor plate can drive the downward landing with the material gradually to avoid the direct whereabouts of material to the shale shaker subassembly on, effectual whereabouts of slowing down accumulation volume avoids the material too much to cause and piles up blocking phenomenon, makes the material sieve move the process smooth and easy.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention.

In the drawings:

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

FIG. 2 is a schematic structural view of the shaker assembly of the present invention;

FIG. 3 is a schematic structural view of the anti-clogging assembly of the present invention;

FIG. 4 is a cross-sectional view of the anti-clogging assembly of the present invention;

in the figure: 1. a frame; 2. a lower connecting seat; 3. an elastic plate; 4. a shaker screen assembly; 401. a chassis; 402. a vibrator; 403. a blanking port; 404. a lower guide chute; 405. a middle frame; 406. a second screen deck; 407. a middle material guide groove; 408. a top frame; 409. a first screen deck; 410. an upper material guide groove; 5. an upper connecting seat; 6. a fixed block; 7. an anti-clogging assembly; 701. a strut; 702. a U-shaped frame; 703. a storage hopper; 7031. a boss-shaped upper portion; 7032. a cylindrical lower portion; 704. an upper rotating shaft; 705. helical leaves; 706. a lower rotating shaft; 707. a rotating plate; 708. a driving pulley; 709. a driven pulley; 710. a transmission belt; 711. an electric motor.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments; based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In the first embodiment, as shown in fig. 1-4, the utility model comprises a frame 1, wherein lower connecting seats 2 are respectively installed at four corners of the upper end of the frame 1, elastic plates 3 are respectively rotatably connected inside the four lower connecting seats 2, a vibrating screen assembly 4 is connected above the elastic plates 3, upper connecting seats 5 are respectively installed at four corners of the lower end of the vibrating screen assembly 4, the upper ends of the four elastic plates 3 are rotatably connected with the corresponding upper connecting seats 5, fixed blocks 6 are respectively fixedly connected to two sides of the frame 1, and an anti-blocking assembly 7 is connected to the upper ends of the fixed blocks 6;

the anti-blocking assembly 7 comprises a supporting rod 701 connected with the fixing blocks 6 on two sides, the upper end of the supporting rod 701 is connected with a U-shaped frame 702, one side of the U-shaped frame 702 is connected with a storage hopper 703, the storage hopper 703 is composed of a boss-shaped upper part 7031 and a cylindrical lower part 7032, the inner wall of the boss-shaped upper part 7031 is rotatably connected with an upper rotating shaft 704, the outer part of the upper rotating shaft 704 is connected with a spiral blade 705, the inner wall of the cylindrical lower part 7032 is rotatably connected with a lower rotating shaft 706, the outer end of the lower rotating shaft 706 is circumferentially connected with three rotating plates 707, the three rotating plates 707 are uniformly distributed outside the lower rotating shaft 706, one end of each rotating plate 707 is contacted with the inner wall of the cylindrical lower 7032, one end of each upper rotating shaft 704 extends to the outer side of the boss-shaped upper 7031 and is connected with a driving pulley 708, one end of the lower rotating shaft 706 extends to the outer part 7032 and is connected with a driven pulley 709, a transmission belt 710 is connected between the driven shaft 704, the other end of the upper rotating shaft 704 is connected with a motor 711, and the motor 711 is positioned on the outer wall of the boss-shaped upper 7031;

during operation, the motor 711 drives the upper rotating shaft 704 to rotate, so that the driving pulley 708 rotates, under the transmission of the transmission belt 710, the driven pulley 709 drives the lower rotating shaft 706 to rotate, so that the upper rotating shaft 704 drives the spiral blade 705 to rotate, and simultaneously the lower rotating shaft 706 drives the rotating plate 707 to rotate, along with the rotation of the spiral blade 705, the material located in the boss-shaped upper portion 7031 can be spirally stirred, so that the material can slide downwards, the material slides downwards into a cavity formed between the two adjacent rotating plates 707 and the inner wall of the cylindrical lower portion 7032, the rotating plates 707 divide the cylindrical lower portion 7032 into three cavities, along with the rotation of the rotating plates 707, the material in each cavity is driven to move towards the outlet of the lower end, and then the material is guided out of the material storage hopper 703, so that the material falls onto the vibrating screen assembly 4.

In the second embodiment, on the basis of the first embodiment, the vibrating screen assembly 4 includes a base frame 401, a vibrating machine 402 is installed on one side of the lower end of the base frame 401, a blanking port 403 is formed in one side of the inside of the base frame 401, a lower guide chute 404 is connected to the lower end of the blanking port 403, an intermediate frame 405 is connected to the upper end of the base frame 401, a second screen plate 406 is connected to the inside of the intermediate frame 405, an intermediate guide chute 407 is connected to one side of the intermediate frame 405, an upper frame 408 is connected to the upper end of the intermediate frame 405, a first screen plate 409 is connected to the inside of the upper frame 408, an upper guide chute 410 is connected to one side of the upper frame 408, and the mesh aperture on the surface of the first screen plate 409 is larger than the mesh aperture on the surface of the second screen plate 406.

The working principle is as follows: when the anti-blocking device is used, materials are guided into a storage hopper 703 on an anti-blocking assembly 7, an upper rotating shaft 704 is driven to rotate through a motor 711, a driving belt wheel 708 rotates, a driven belt wheel 709 drives a lower rotating shaft 706 to rotate under the transmission of a transmission belt 710, the upper rotating shaft 704 drives a spiral blade 705 to rotate, the lower rotating shaft 706 drives a rotating plate 707 to rotate, the materials located in a boss-shaped upper portion 7031 can be spirally stirred along with the rotation of the spiral blade 705, the materials can slide downwards, the materials slide downwards into cavities formed between two adjacent rotating plates 707 and the inner wall of a cylindrical lower portion 7032, the rotating plate 707 divides the cylindrical lower portion 7032 into three cavities, the materials in each cavity are driven to move towards an outlet at the lower end along with the rotation of the rotating plate 707, the materials are guided out to the storage hopper 703, the materials fall onto a vibrating screen assembly 4, then the vibrating screen assembly 4 vibrates under the driving of a vibrating machine 402, the materials are screened, the materials can be filtered by a first screen plate 409, the larger impurities can be discharged from an upper rotating hopper 410, the impurities of a second screen plate can be discharged from a small rotating plate 403, and the material guiding plate can be gradually discharged from a small material guiding groove 403, and the material can be prevented from the material falling under the inner side of the rotating plate 404, and the material guiding groove 401.

Claims (7)

1. The utility model provides an oyster peptide production is with preventing blockking up shale shaker, includes frame (1), its characterized in that: the anti-blocking device is characterized in that lower connecting seats (2) are respectively installed at four corners of the upper end of the rack (1), elastic plates (3) are respectively rotatably connected inside the four lower connecting seats (2), a vibrating screen assembly (4) is connected above the elastic plates (3), upper connecting seats (5) are respectively installed at four corners of the lower end of the vibrating screen assembly (4), the upper ends of the four elastic plates (3) are rotatably connected with the corresponding upper connecting seats (5), fixed blocks (6) are respectively fixedly connected to two sides of the rack (1), and anti-blocking assemblies (7) are connected to the upper ends of the fixed blocks (6);

the anti-blocking assembly (7) comprises a supporting rod (701) connected with the fixing blocks (6) on the two sides, the upper end of the supporting rod (701) is connected with a U-shaped frame (702), and one side of the U-shaped frame (702) is connected with a storage hopper (703).

2. The anti-clogging vibrating screen for oyster peptide production according to claim 1, wherein: storage hopper (703) comprise boss form upper portion (7031) and cylindric lower part (7032), boss form upper portion (7031) inner wall rotates and is connected with pivot (704), go up pivot (704) external connection and have spiral leaf (705), cylindric lower part (7032) inner wall rotates and is connected with lower pivot (706), lower pivot (706) outer end circumferential direction is connected with rotor plate (707), rotor plate (707) are three, three rotor plate (707) evenly distributed is outside in lower pivot (706), and rotor plate (707) one end and cylindric lower part (7032) inner wall contact.

3. The anti-clogging vibrating screen for oyster peptide production according to claim 2, wherein: go up pivot (704) one end and all extend to boss form upper portion (7031) outside and be connected with driving pulley (708), down pivot (706) one end extend to cylindric lower part (7032) external connection has driven pulley (709), the transmission is connected with drive belt (710) between driven pulley (709) and driving pulley (708), upward pivot (704) other end is connected with motor (711), motor (711) are located boss form upper portion (7031) outer wall.

4. The anti-clogging vibrating screen for oyster peptide production according to claim 1, wherein: the vibrating screen assembly (4) comprises a bottom frame (401), a vibrating machine (402) is installed on one side of the lower end of the bottom frame (401), a blanking port (403) is formed in one side of the inside of the bottom frame (401), and a lower guide chute (404) is connected to the lower end of the blanking port (403).

5. The anti-clogging vibrating screen for oyster peptide production according to claim 4, wherein: the upper end of the bottom frame (401) is connected with a middle frame (405), a second sieve plate (406) is connected inside the middle frame (405), and one side of the middle frame (405) is connected with a middle guide chute (407).

6. The anti-clogging vibrating screen for oyster peptide production according to claim 5, wherein: the upper end of the middle frame (405) is connected with a top frame (408), a first sieve plate (409) is connected inside the top frame (408), and one side of the top frame (408) is connected with an upper guide chute (410).

7. The anti-clogging vibrating screen for oyster peptide production according to claim 6, wherein: the mesh aperture on the surface of the first sieve plate (409) is larger than that on the surface of the second sieve plate (406).

Images