CN219880521U - Feed additive screening classifier - Google Patents

Abstract

The utility model belongs to the technical field of screening and grading equipment, and discloses a feed additive screening and grading device, which comprises a frame, wherein a feed cylinder is fixedly arranged at the top of the frame, a plurality of second sliding grooves are formed in two sides of the frame, a guide rail is fixedly arranged on the frame, a sliding seat is connected onto the guide rail in a sliding manner, a connecting frame is arranged on the sliding seat, a plurality of screening devices are arranged on one side of the connecting frame, sliding shafts are fixedly connected to two sides of the screening devices, and the sliding shafts extend into the second sliding grooves in a sliding manner; the screening device is provided with a second electric push rod; a first electric push rod is arranged between the connecting frame and the sliding seat. The utility model is provided with a plurality of screening devices, a first electric push rod and a second electric push rod, the screening devices can grade feed additives with various particle sizes at the same time, and the first electric push rod and the second electric push rod can realize automatic discharging by matching.

Description

Feed additive screening classifier

Technical Field

The utility model belongs to the technical field of screening and grading equipment, and particularly relates to a feed additive screening and grading device.

Background

Most of the existing feed additives are granular, the size of the feed additives is required by animals with different growth periods, if the granules are large, the feed additives cannot be thoroughly absorbed, and waste is caused, so that the feed additives are required to be classified in particle size, and the feed additives are suitable for animals with different growth periods to eat. In the prior art, most of the feed additive classifying and screening modes adopt a mode that the feed additive is placed on a screen, small feed additive particles leak out from the lower part through a vibrating screen, the large feed additive particles are left above the screen after the vibration screening is finished, and then the screen is taken down to pour out the feed additive, so that the screening and classifying are finished; however, the screening mode can only screen feed additives with one particle size at a time, so that when feed additives with different particle sizes are required to be screened, the screen is required to be replaced for repeated operation, and the process is troublesome in operation, and time and labor are wasted. In addition, in the existing screening operation, the feed additive is poured out after the screen cloth is manually taken down, so that the workload is high.

Disclosure of Invention

The utility model aims to provide a feed additive screening classifier, which aims to solve the problems that the existing screening classifier cannot classify various particle sizes at the same time and cannot automatically discharge.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

the utility model provides a feed additive screening classifier, includes the frame, the top fixed mounting of frame has a feed cylinder, a plurality of second spouts have all been seted up to the frame both sides, fixed mounting has the guide rail in the frame, sliding connection has the slide on the guide rail, be equipped with the link on the slide, a plurality of U type connecting seats are installed from top to bottom in one side of link rotation, fixed mounting has sieving mechanism on the U type connecting seat, and the sieving mechanism is located the inside of frame, the equal fixedly connected with slide shaft in both sides of sieving mechanism, and slide shaft one-to-one's slip stretches into in the second spout.

Preferably, the screening device comprises a mounting frame and a screen fixedly connected to the bottom of the mounting frame.

Preferably, the pore diameters of the screens in a plurality of screening devices are sequentially reduced from top to bottom.

Preferably, the installation frame comprises a screening frame with a U-shaped structure and a baffle with a straight-line-shaped structure, and a second electric push rod is connected between two ends of the screening frame and the baffle.

Preferably, a first electric push rod is fixedly arranged between the connecting frame and the sliding seat.

Preferably, the motor is fixedly installed on the frame, the rotating frame is fixedly connected to the output end of the motor, the sliding rod is fixedly connected to one end of the rotating frame, the fixing block is fixedly installed on the sliding seat, the first sliding groove is formed in the fixing block, and the first sliding groove is in sliding connection with the sliding rod.

Compared with the prior art, the utility model has the following beneficial effects:

(1) The utility model is provided with a plurality of screening devices, the pore diameters of the screens in the screening devices are sequentially reduced from top to bottom, and the feed additives fall down layer by layer through the reciprocating motion of the screening devices, so that the feed additives with different particle sizes are left on the screens with different layers, and the feed additives with various particle sizes are classified simultaneously.

(2) According to the utility model, the first electric push rod and the second electric push rod are arranged, one side of the screening device can be lifted by the first electric push rod, so that the screening device is in an inclined state, then a gap is formed between the baffle and the screening frame through the second electric push rod, and the feed additive slides out of the gap due to self gravity, so that automatic discharging is realized, and the operation is simple.

Drawings

FIG. 1 is a first perspective view of the present utility model;

FIG. 2 is a cross-sectional view of the present utility model;

FIG. 3 is a second perspective view of the present utility model;

in the figure: 1-frame, 2-first electric putter, 3-slide, 4-guide rail, 5-fixed block, 6-first spout, 7-rotating turret, 8-motor, 9-slide bar, 10-link, 11-screening frame, 12-U connecting seat, 13-screen cloth, 14-feed cylinder, 15-second spout, 16-slide shaft, 17-second electric putter, 18-baffle.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-3, the present utility model provides the following technical solutions:

the utility model provides a feed additive screening classifier, which comprises a frame 1, feeding barrel 14 is fixedly installed at the top of frame 1, a plurality of second spouts 15 have all been seted up to frame 1 both sides, fixedly mounted has guide rail 4 on frame 1, sliding connection has slide 3 on the guide rail 4, be equipped with link 10 on the slide 3, a plurality of U type connecting seats 12 are installed in the rotation from top to bottom to one side of link 10, fixedly mounted has screening plant on the U type connecting seat 12, and screening plant is located frame 1's inside, both sides of screening plant are fixedly connected with slide shaft 16, and slide shaft 16 one-to-one slip stretches into in the second spout 15;

the screening device comprises a mounting frame and a screen 13 fixedly connected to the bottom of the mounting frame;

the pore diameters of the screens 13 in the plurality of screening apparatuses decrease in order from top to bottom.

In the illustration of the utility model, a structural example is preferably shown, on which three screening devices (screens 13) are provided, on the basis of which, in the execution of the feed additive classification treatment:

referring to three screens 13 provided in the drawing, a screen 13a, a screen 13b, and a screen 13c are respectively provided from top to bottom, and the pore diameters are sequentially reduced;

the U-shaped connecting seat 12 is adjusted to be in a horizontal position, feed additives are added from the feeding barrel 14, the feed additives fall on the screen 13a, then the sliding seat 3 is moved to enable the sliding seat 3 to reciprocate on the guide rail 4, the connecting frame 10 is driven to reciprocate, the screening device is further reciprocated, the sliding shaft 16 slides in the second sliding groove 15, the screening device is kept horizontal in the moving process, the feed additive particles roll on the screen 13a due to the reciprocation of the screening device, the feed additive particles smaller than the aperture of the screen 13a fall on the screen 13b, meanwhile, the feed additive particles falling on the screen 13b roll on the screen 13b, the feed additive particles smaller than the aperture of the screen 13b fall on the screen 13c, and the like, so that the feed additives with different particle sizes are classified simultaneously.

Above-mentioned, in order to realize the reciprocating motion of slide 3, fixed mounting has motor 8 on the frame 1, and the output fixedly connected with rotating turret 7 of motor 8, the one end fixedly connected with slide bar 9 of rotating turret 7, fixed mounting has fixed block 5 on the slide 3, has seted up first spout 6 on the fixed block 5, and first spout 6 and slide bar 9 sliding connection. Based on this, the motor 8 is started to drive the rotating frame 7 to rotate, so that the slide bar 9 rotates around the output shaft of the motor 8, the slide bar 9 drives the fixed block 5 to move left and right during rotation, and the slide bar 9 slides up and down in the first sliding groove 6, so that the sliding seat 3 slides on the guide rail, and the reciprocating motion of the sliding seat 3 is formed due to the continuous rotation of the motor 8.

In addition, in order to realize automatic discharging after screening and grading, the following preferable structure is correspondingly arranged:

the installation frame comprises a screening frame 11 with a U-shaped structure and a baffle 18 with a straight-line-shaped structure, and a second electric push rod 17 is connected between two ends of the screening frame 11 and the baffle 18;

a first electric push rod 2 is fixedly arranged between the connecting frame 10 and the sliding seat 3.

From the above, after screening and grading are completed, the first electric push rod 2 is started to push out the telescopic end, so that the connecting frame 10 moves upwards, the U-shaped connecting seat 12 moves upwards, one side, connected with the U-shaped connecting seat 12, of the screening device is further moved upwards, the other side of the screening device rotates around the sliding shaft 16, the screening device is in an inclined state, and the second electric push rod 17 is started to push out the telescopic end, so that a gap is formed between the baffle 18 and the screening frame 11, and feed additive particles slide out of the gap due to self gravity, so that automatic discharging of the feed additive is realized.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a feed additive screening classifier, includes frame (1), its characterized in that: the utility model discloses a screening device for a plastic material machine, including frame (1), sliding connection, screening device, sliding shaft (16) and second spout (15) are installed in top fixed mounting of frame (1), a plurality of second spouts (15) have all been seted up to frame (1) both sides, fixed mounting has guide rail (4) on frame (1), sliding connection has slide (3) on guide rail (4), be equipped with link (10) on slide (3), a plurality of U type connecting seat (12) are installed in one side from top to bottom rotation of link (10), fixed mounting has screening device on U type connecting seat (12), and screening device is located the inside of frame (1), the equal fixedly connected with slide shaft (16) in both sides of screening device, and slide shaft (16) one-to-one's slip stretches into in second spout (15).

2. A feed additive screening classifier according to claim 1, wherein: the screening device comprises a mounting frame and a screen (13) fixedly connected to the bottom of the mounting frame.

3. A feed additive screening classifier according to claim 2, wherein: the pore diameters of the screens (13) in the screening devices are sequentially reduced from top to bottom.

4. A feed additive screening classifier according to claim 2, wherein: the installation frame comprises a screening frame (11) with a U-shaped structure and a baffle (18) with a straight-line-shaped structure, and a second electric push rod (17) is connected between two ends of the screening frame (11) and the baffle (18).

5. A feed additive screening classifier according to claim 4, wherein: a first electric push rod (2) is fixedly arranged between the connecting frame (10) and the sliding seat (3).

6. A feed additive screening classifier according to claim 1, wherein: the novel sliding seat is characterized in that a motor (8) is fixedly installed on the frame (1), the output end of the motor (8) is fixedly connected with a rotating frame (7), one end of the rotating frame (7) is fixedly connected with a sliding rod (9), a fixed block (5) is fixedly installed on the sliding seat (3), a first sliding groove (6) is formed in the fixed block (5), and the first sliding groove (6) is in sliding connection with the sliding rod (9).