CN212216186U - Improve feed production cleaning device of screening stability - Google Patents

Abstract

The utility model relates to the technical field of feed processing, in particular to a feed production cleaning device for improving screening stability, which comprises a shell and a cover plate arranged on the shell, wherein the shell is internally provided with a screening device, the screening device comprises a rotating shaft, a first scraper blade, a second scraper blade, a first screen and a second screen, the first screen is provided with a plurality of first sleeves, the second screen is fixedly provided with a plurality of second sleeves, the second sleeves are sleeved in the first sleeves, the first sleeves are internally provided with springs, the shell is externally provided with a mounting seat, the mounting seat is provided with a vibrating motor, an output shaft of the vibrating motor is provided with a cam, the cover plate is provided with a second motor, the output shaft of the second motor is connected with the rotating shaft, the cover plate is provided with a feed inlet, the bottom of the shell is fixedly provided with a funnel for solving the problem that large-granule feed is uneven in size, thereby leading large-granule, resulting in the problem that small pellet feeds cannot be screened.

Description

Improve feed production cleaning device of screening stability

Technical Field

The utility model relates to a feed processing technology field especially relates to an improve feed production cleaning device of screening stability.

Background

Animal husbandry is an extremely important link for exchanging substances between human beings and the nature, and generally needs a large amount of feed in the process of breeding. In the production and processing process of feed, screening operation is often required to be carried out on livestock feed by using a screening device. Screening operation generally divide into artifical screening and mechanical screening, now generally uses mechanical screening, and mechanical screening is generally through vibration screening now, in order to prevent that the fodder from rolling to the equipment outside, and screening plant generally installs and sieves the fodder inside the equipment.

When current fodder screening installation was sieved the fodder granule, generally appear easily because fodder granule size is inhomogeneous to make large granule fodder block up the filter mesh hole easily, lead to the granule fodder unable by the screening, reduce the use that sieves work efficiency and give the user and bring inconvenience.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model aims at providing an improve feed production cleaning device of screening stability is used for solving because the fodder granule size is inhomogeneous to make large granule fodder block up the filter mesh easily, lead to the unable problem of being screened of pellet fodder.

The utility model discloses an above-mentioned technical problem is solved to following technical means:

a feed production cleaning device capable of improving screening stability comprises a shell and a cover plate installed on the shell, wherein the shell is internally provided with a screening device, the screening device comprises a rotating shaft, a first scraper, a second scraper, a first screen and a second screen, the first scraper and the second scraper are installed on the rotating shaft, the first scraper is attached to the first screen, the second scraper is attached to the second screen, the aperture of the first screen is smaller than that of the second screen, a plurality of first sleeves are fixedly installed on the first screen, a plurality of second sleeves are fixedly installed on the second screen, the second sleeves are sleeved in the first sleeves, springs are installed in the first sleeves, one ends of the springs are fixedly connected to the bottoms of the first sleeves, the other ends of the springs are abutted to the tops of the second sleeves, a mounting seat is installed on the outer wall of the shell, and a vibration motor is installed on the mounting seat, the utility model discloses a vibrating screen, including shell, first screen cloth and second screen cloth, vibrating motor's output shaft passes the shell and installs the cam in the shell, the cam is located between first screen cloth and the second screen cloth, install the second motor on the apron, the output shaft and the rotation axis connection of second motor, the feed inlet has been seted up on the apron, the bottom fixed mounting of shell has the funnel, fixed mounting has four support columns on the shell, the funnel is located between four support columns.

Further, first through-hole has been seted up at the center of second screen cloth, wear to be equipped with in the first through-hole and rotate the post, first recess has been seted up at the center of first screen cloth, rotate the post and insert in first recess, the second recess has been seted up on the rotation post, fixed mounting has the projection in the axis of rotation, the projection is inserted in the second recess, first scraper blade fixed mounting sets up like this on rotating the post, and through axis of rotation and rotation post joint, first scraper blade is installed on rotating the post, and the second scraper blade is installed in the axis of rotation, makes the axis of rotation drive when rotating the post and rotating, can drive first scraper blade simultaneously and rotate on first screen cloth, and the second scraper blade can rotate on the second screen cloth.

Further, a first through groove has been seted up in the position that first screen cloth, second screen cloth correspond on the shell, the spout has been seted up on the lower cell wall in first through groove, spout and first through groove intercommunication, fixed mounting has the slider on the first screen cloth, slider slidable mounting is in the spout, the shell rotates in the upper portion in first through groove and installs the baffle, fixed mounting has the dog on the baffle, the dog card is established in the spout, sets up like this, through set up first through groove and spout on the shell, installs the slider on the first screen cloth, makes the screen cloth can install and take out through first through groove, through rotating the installation baffle in first through groove department, makes the baffle plug up first through groove, avoids the fodder to spill, simultaneously, avoids the screen cloth roll-off.

Further, install ejection of compact shell on the shell, set up like this, can scrape out first screen cloth with the large granule fodder on the first screen cloth through ejection of compact shell, make the screen cloth continuously sieve the fodder.

Further, the third recess has been seted up to the axis of rotation in the outer one end of apron, the third recess is the cross, fixed mounting has the connecting block in the pivot of second motor, the connecting block is the cross, the connecting block card is established in the third recess, sets up like this, makes the second motor can drive the axis of rotation and rotates, and simultaneously, the axis of rotation can the rebound.

Further, a fourth groove has been seted up in the axis of rotation, fixed mounting has the connecting rod on the apron, rotate on the connecting rod and install the lever, the one end card of lever is established in the fourth groove, fixed mounting has the fixed plate on the apron, the fixed plate is L shape, sets up like this, can upwards remove the axis of rotation through the lever to fix the position of removal, it is convenient, swift.

The utility model discloses a feed production cleaning device for improving screening stability, through dividing the screen cloth into first screen cloth and second screen cloth, install the second scraper blade in the axis of rotation, second scraper blade and the laminating of second screen cloth, make the second scraper blade can scrape the large granule fodder on the second screen cloth off, make the second screen cloth can continue screening, the axis of rotation is connected with the rotation post rotation, install the first scraper blade on the rotation post, the laminating of first scraper blade and first screen cloth, make the fodder granule that does not reach standard can be struck off through the discharging shell by the first scraper blade, guarantee that the fodder through first screen cloth can both reach standard; the cam is arranged on the vibrating motor and is positioned between the first screen and the second screen, so that the second screen can vibrate on the first screen, the possibility that the screen is blocked by feed is reduced, and the problem that the small-particle feed cannot be screened because large-particle feed easily blocks filter meshes due to the uneven size of feed particles is solved; through set up first logical groove and spout on the shell, install the slider on the first screen cloth, make the screen cloth can follow first logical inslot and take out, make things convenient for the screen cloth to take out the clearance after long-time the use.

Drawings

FIG. 1 is a schematic structural diagram I of a feed production cleaning device for improving screening stability of the utility model;

FIG. 2 is a schematic structural diagram II of the feed production cleaning device for improving the screening stability of the present invention;

FIG. 3 is a schematic view of the split structure of the feed production cleaning device for improving the screening stability of the present invention;

FIG. 4 is an enlarged schematic view of the structure at A in FIG. 3;

FIG. 5 is an enlarged view of the structure at B in FIG. 3;

FIG. 6 is a schematic view of the cross-sectional structure of a feed production cleaning apparatus for improving the screening stability of the present invention;

FIG. 7 is a schematic view of the separating structure of the sieving device of the feed production cleaning device for improving the sieving stability of the present invention;

the device comprises a shell 1, a first through groove 101, a second through groove 102, a sliding groove 103, a cover plate 2, a feed inlet 201, a connecting rod 202, a lever 203, a fixing plate 204, a supporting column 3, a discharge shell 4, a second motor 5, a connecting block 501, a baffle 6, a handle 601, a stop block 602, a rotating shaft 7, a third groove 701, a fourth groove 702, a second scraper 703, a second screen 704, a first screen 705, a first through hole 706, a rotating column 707, a second groove 708, a first scraper 709, a first sleeve 710, a spring 711, a first groove 712, a sliding block 713, a second sleeve 714, a vibrating motor 8, a cam 801, a mounting seat 802 and a funnel 9.

Detailed Description

The invention will be described in detail with reference to the following drawings and specific embodiments:

as shown in figures 1-7, the utility model discloses a improve fodder production cleaning device of screening stability, including shell 1 and the apron 2 of installing on the shell, install screening plant in the shell 1, install second motor 5 on the apron 2. The bottom fixed mounting of shell 1 has funnel 9, and fixed mounting has four support columns 3 on the shell 1, and funnel 9 is located between four support columns 3, has seted up feed inlet 201 on the apron 2.

As shown in fig. 3, the screening device includes a rotating shaft 7, a first scraper 709, a second scraper 703, a first screen 705 and a second screen 704, the first scraper 709 and the second scraper 703 are both installed on the rotating shaft 7, the first scraper 709 is attached to the first screen 705, the second scraper 703 is attached to the second screen 704, the aperture of the first screen 705 is smaller than that of the second screen 704, and large-particle fodder that cannot pass through the second screen 704 is scraped off by the second scraper 703. A plurality of first sleeves 710 are fixedly mounted on the first screen 705, a plurality of second sleeves 714 are fixedly mounted on the second screen 704, the second sleeves 714 are sleeved in the first sleeves 710, springs 711 are mounted in the first sleeves 710, one ends of the springs 711 are fixedly connected to the bottoms of the first sleeves 710, the other ends of the springs 711 abut against the tops of the second sleeves 714, and the second screen 704 can rock above the first screen 705 under the action of the springs 711. A first through hole 706 is formed in the center of the second screen 704, a rotating column 707 penetrates through the first through hole 706, a first groove 712 is formed in the center of the first screen 705, and the rotating column 707 is inserted into the first groove 712. The first scraper 709 is fixedly installed on the rotating column 707, a second groove 708 is formed on the rotating column 707, a convex column is fixedly installed on the rotating shaft 7, and the convex column is inserted into the second groove 708, so that the rotating shaft 7 can rotate to drive the rotating column 707 and the first scraper 709 to rotate.

The first through groove 101 is formed in the position, corresponding to the first screen 705 and the second screen 704, of the shell 1, the sliding groove 103 is formed in the lower groove wall of the first through groove 101, the sliding groove 103 is communicated with the first through groove 101, the sliding block 713 is fixedly mounted on the first screen 705, the sliding block 713 is slidably mounted in the sliding groove 103, and the sliding block 713 slides in the sliding groove 103, so that the first screen 705 can slide in the shell 1. The shell 1 is rotatably provided with the baffle 6 on the upper part of the first through groove 101, the baffle 6 is fixedly provided with the stop block 602 at the corresponding position of the sliding groove 103, and the stop block 602 is clamped in the sliding groove 103, so that the baffle 6 cannot be easily separated from the shell 1, and the feed cannot be separated from the shell 1 through the first through groove 101. The baffle 1 is fixedly provided with a handle 601, and the baffle 6 can be opened conveniently through the handle 601. The outer wall of the housing 1 is provided with a mounting seat 802, the mounting seat 802 is provided with a vibrating motor 8, an output shaft of the vibrating motor 8 penetrates through the housing 1 and is provided with a cam 801 in the housing 1, the cam 801 is positioned between the first screen 705 and the second screen 704, and the top of the cam 801 is abutted against the second screen 704. The vibrating motor 8 rotates the cam 801, and the cam 801 enables the second screen 704 to vibrate on the first screen 705, so that the possibility that large-particle feed blocks the second screen 704 is reduced. The discharging shell 4 is installed on the housing 1, so that the feed piled on the first screen 705 can be scraped out of the housing 1 by the first scraper 709, and the continuous screening of the feed is not affected.

Third recess 701 has been seted up to axis of rotation 7 in the outer one end of apron 2, and third recess 701 is the cross, and fixed mounting has connecting block 501 in second motor 5's the pivot, and connecting block 501 is the cross, and connecting block 501 card is established in third recess 701, and the degree of depth size of third recess 701 is greater than connecting block 501's thickness size, makes second motor 5 can drive axis of rotation 7 and rotate, and simultaneously, axis of rotation 7 can upwards shift up. A fourth groove 702 is formed in the rotating shaft 7, the connecting rod 202 is fixedly mounted on the cover plate 2, the lever 203 is rotatably mounted on the connecting rod 202, and one end of the lever 203 is clamped in the fourth groove 702, so that the lever 203 can drive the rotating shaft 7 to move upwards. The cover plate 2 is fixedly provided with a fixing plate 204, the fixing plate 204 is in an L shape, and when the lever 203 moves the rotating shaft 7 upwards, one end of the lever 203 is clamped in the fixing plate 204 and used for limiting the position of the rotating shaft 7.

The utility model discloses a use method as follows: when the feed screening device is used, feed is continuously poured into the shell 1 through the feed inlet 201, the feed enters the screen, meanwhile, the vibration motor 8 and the second motor 5 are switched on, the vibration motor 8 enables the second screen 704 to vibrate on the first screen 705, the blockage of the second screen 704 by large-particle feed is reduced, the qualified small-particle feed continuously passes through the first screen 705 and the second screen 704 and then enters the hopper 9, the second motor 5 enables the first scraper 709 and the second scraper 703 to rotate, the second scraper 703 rotates to enable the large-particle feed on the second screen 704 to be scraped, the continuous passing of the feed through the screen is not influenced, when any unqualified feed particles exist in the feed passing through the second screen 704, the first scraper 709 on the first screen 704 rotates, the feed is further scraped out of the first screen through the second through groove 102 and the discharge shell 4, the feed passes through the double-layer screening, the qualified feed is obtained, and the problem that the size of the feed particles is not uniform is solved, therefore, the large-particle feed is easy to block the filter mesh, and the small-particle feed cannot be screened; after the screening plant worked for a long time, the impurity that accumulates on first screen cloth 705 and the second screen cloth 704 was more, opens baffle 6 through handle 601, through lever 203 with axis of rotation 7 rebound, makes axis of rotation 7 and rotation post 707 break away from, pulls out shell 1 with the screen cloth again, and then can be with screen cloth clean up, convenient, swift.

Although the present invention has been described in detail with reference to the preferred embodiments, those skilled in the art will understand that the present invention can be modified or replaced with other embodiments without departing from the spirit and scope of the present invention, which should be construed as limited only by the appended claims. The technology, shape and construction parts which are not described in detail in the present invention are all known technology.

Claims (6)

1. The utility model provides an improve feed production cleaning device of screening stability, includes shell (1) and installs apron (2) on the shell, its characterized in that: install screening plant in shell (1), screening plant includes axis of rotation (7), first scraper blade (709), second scraper blade (703), first screen cloth (705) and second screen cloth (704), first scraper blade (709) and second scraper blade (703) are all installed on axis of rotation (7), first scraper blade (709) and first screen cloth (705) laminating, second scraper blade (703) and second screen cloth (704) laminating, the aperture of first screen cloth (705) is less than the aperture of second screen cloth (704), a plurality of first sleeves (710) of fixed mounting are gone up to first screen cloth (705), a plurality of second sleeves (714) are fixed mounting on second screen cloth (704), second sleeve (714) cover is established in first sleeve (710), install spring (711) in first sleeve (710), the one end fixed connection of spring (711) is in first sleeve (710) bottom, the other end offsets with second sleeve (714) top, install mount pad (802) on the outer wall of shell (1), install vibrating motor (8) on mount pad (802), the output shaft of vibrating motor (8) passes shell (1) and installs cam (801) in shell (1), cam (801) are located between first screen cloth (705) and second screen cloth (704), install second motor (5) on apron (2), the output shaft and the axis of rotation (7) of second motor (5) are connected, feed inlet (201) have been seted up on apron (2), the bottom fixed mounting of shell (1) has funnel (9), fixed mounting has four support columns (3) on shell (1), funnel (9) are located between four support columns (3).

2. The feed production cleaning device for improving screening stability of claim 1, wherein: first through-hole (706) have been seted up in the center of second screen cloth (704), wear to be equipped with in first through-hole (706) and rotate post (707), first recess (712) have been seted up at the center of first screen cloth (705), rotate post (707) and insert in first recess (712), second recess (708) have been seted up on rotating post (707), fixed mounting has the projection on axis of rotation (7), the projection is inserted in second recess (708), first scraper blade (709) fixed mounting is on rotating post (707).

3. The feed production cleaning device for improving screening stability of claim 2, wherein: first logical groove (101) have been seted up in the position that first screen cloth (705), second screen cloth (704) correspond on shell (1), spout (103) have been seted up on the lower cell wall of first logical groove (101), spout (103) and first logical groove (101) intercommunication, fixed mounting has slider (713) on first screen cloth (705), slider (713) slidable mounting is in spout (103), shell (1) rotates in the upper portion of first logical groove (101) and installs baffle (6), fixed mounting has dog (602) on baffle (6), dog (602) card is established in spout (103).

4. A feed production cleaning device for improving screening stability according to claim 3, characterized in that: and a discharging shell (4) is arranged on the shell (1).

5. The feed production cleaning device for improving screening stability of claim 4, wherein: third recess (701) has been seted up in the outer one end of apron (2) to axis of rotation (7), third recess (701) are the cross, fixed mounting has connecting block (501) in the pivot of second motor (5), connecting block (501) are the cross, connecting block (501) card is established in third recess (701).

6. The feed production cleaning device for improving screening stability of claim 5, wherein: the novel bearing is characterized in that a fourth groove (702) is formed in the rotating shaft (7), the connecting rod (202) is fixedly mounted on the cover plate (2), the lever (203) is mounted on the connecting rod (202) in a rotating mode, one end of the lever (203) is clamped in the fourth groove (702), the fixing plate (204) is fixedly mounted on the cover plate (2), and the fixing plate (204) is L-shaped.

Images