CN221157572U - Bullfrog feed additive processing is with structure of sieving - Google Patents

Abstract

The utility model discloses a sieving structure for processing bullfrog feed additives, which belongs to the technical field of feed production and comprises a sieving machine body, supporting legs, screw feeding paddles, a motor and a feed inlet, wherein the supporting legs are fixedly connected to the bottom of the sieving machine body, the screw feeding paddles are rotatably connected to the upper part inside the sieving machine body, the feed inlet is arranged on the top of the sieving machine body in a matched manner, the motor is fixedly arranged on the upper part outside the sieving machine body, and an output shaft of the motor is connected with the screw feeding paddles. According to the utility model, two dust collectors are respectively arranged at the feed inlet and the discharge outlet of the sieving machine to filter dust generated by materials, the two layers of filter screens are discharged outside through the negative pressure of the discharge fan after being filtered, the sucked dust is filtered through the small-hole density filter screen, then the dust is further filtered through the middle-hole density filter screen, the dust in the air is filtered, the human body is not damaged, the cleanest effect is achieved, and the filter screen can be cleaned or replaced through the filter screen replacement chute.

Description

Bullfrog feed additive processing is with structure of sieving

Technical Field

The utility model belongs to the technical field of feed production, and particularly relates to a sieving structure for processing a bullfrog feed additive.

Background

Bullfrog is used as an aquaculture animal at present, and in the cultivation process, the cultivation density is higher, and food such as insects is difficult to capture, so that artificial feed throwing is needed.

According to the search, a sieving structure for bullfrog feed processing is disclosed, wherein the application number of the sieving structure is CN 202020003087.9; the disadvantages are as follows:

The existing screening machine can generate a large amount of dust to fly around during feeding and discharging every time, and the dust is sucked by staff in a large amount, so that the health of human bodies is greatly endangered, materials are sometimes screened according to different requirements, but the volumes of the materials are different, the same screening net cannot be used for screening, if a plurality of screening machines are purchased, the labor consumption of the staff is large, the occupied space is large, and the economic expenditure is large.

Disclosure of utility model

The utility model aims at: in order to solve the problems, a sieving structure for processing bullfrog feed additive is provided.

The technical scheme adopted by the utility model is as follows: the utility model provides a bullfrog feed additive processing is with structure of sieving, including sieve organism, landing leg, screw feeder paddle, motor, feed inlet, sieve organism bottom fixedly connected with landing leg, the inside top rotation of sieve organism is connected with screw feeder paddle, sieves the supporting feed inlet that is provided with in organism top, sieves the outside top fixed mounting of organism and has the motor, and the motor output shaft is connected with screw feeder paddle, sieve the organism outer wall and have through hinge mounting to cross the screen cloth and change the door, the feed inlet and the discharge gate department installation that sieve the organism can effectively handle the clean structure of fodder dust, the replacement structure that sieves organism internally mounted and can change according to the material volume size.

The cleaning structure comprises a dust collection machine body A, a fan, a filter screen A, a filter screen B, a filter screen replacement door, an annular dust collection opening and a filter screen replacement chute, wherein the dust collection machine body B and the dust collection machine body A are respectively installed at a feed inlet and a discharge outlet of the dust collection machine body, the fan is respectively installed inside the dust collection machine body A and the dust collection machine body B, the filter screen replacement door is hinged to the outer walls of the dust collection machine body A and the dust collection machine body B, the filter screen replacement chute is fixedly connected inside the dust collection machine body A and the dust collection machine body B, the filter screen A and the filter screen B are movably connected to the inner wall of the filter screen replacement chute, the filter screen B is located above the filter screen A, the density of the filter screen A in the dust collection machine body A is 30 meshes, the density of the filter screen B is 45 meshes, the dust collection machine body A is connected with the annular dust collection opening through an air inlet pipe, and the annular dust collection opening is located under the discharge outlet of the dust collection machine body B, and the air inlet pipe of the dust collection machine body B extends to the inner wall of the feed inlet.

The replacement structure comprises a frame, connecting columns, a screen, pulleys, springs, vibrating motors, drainage plates and sliding grooves, wherein the frame is installed inside the screening machine body through the springs, the connecting columns are fixedly connected between the frames, the vibrating motors are fixedly connected to the outer walls of the frames, the sliding grooves are embedded in opposite faces of the frames, the screen and the drainage plates are installed inside the sliding grooves through the pulleys, the drainage plates are installed between the frames, the drainage plates are located under the screen, the number of the screening nets is two, the screening nets are installed in the sliding grooves on the frames in an inclined mode, and the number of the springs on two sides of the frames is eight.

In summary, due to the adoption of the technical scheme, the beneficial effects of the utility model are as follows:

1. According to the utility model, two dust collectors are respectively arranged at the feed inlet and the discharge outlet of the sieving machine to filter dust generated by materials, the two layers of filter screens are discharged outside through the negative pressure of the discharge fan after being filtered, the sucked dust is filtered through the small-hole density filter screen, then the dust is further filtered through the middle-hole density filter screen, the dust in the air is filtered, the human body is not damaged, the cleanest effect is achieved, and the filter screen can be cleaned or replaced through the filter screen replacement chute.

2. According to the utility model, the frame is arranged in the sieving machine, the sliding groove is arranged in the frame, the sieving net can be replaced according to the volume of feed, the pulley in the sliding groove can enable a worker to replace the sieving net more labor-saving and efficient, the number of the sieving nets is two and the sieving net is arranged in the sliding groove on the frame in an inclined state, and the sieved material can reach the discharge hole more quickly by arranging the sieving net in an inclined mode, so that the working efficiency is increased.

Drawings

FIG. 1 is a schematic diagram of the overall cross-sectional structure of the present utility model;

FIG. 2 is a schematic diagram of the overall side cross-sectional structure of the present utility model;

FIG. 3 is a schematic illustration of the overall front cross-sectional structure of the present utility model;

FIG. 4 is a schematic and simplified schematic illustration of the three-dimensional structure of the annular dust collection opening of the utility model;

fig. 5 is a schematic diagram showing a three-dimensional structure of a frame in the present utility model.

The marks in the figure: 1. a sieving machine body; 101. a support leg; 102. passing through a screen replacement door; 103. screw feeding paddles; 1021. a hinge; 1031. a motor; 104. a feed inlet; 2. a dust collector body A; 3. a frame; 201. a fan is arranged; 202. a filter screen A; 203. a filter screen B; 204. a filter screen replacement door; 205. an annular dust collection port; 206. the filter screen is replaced with a chute; 301. a connecting column; 302. sieving; 303. a pulley; 304. a spring; 305. a vibration motor; 306. a drainage plate; 307. a chute; 4. the dust collector body B.

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.

In the utility model, the following components are added:

Referring to fig. 1-5, a bullfrog feed additive processes and uses structure that sieves, including sieving organism 1, landing leg 101, screw feeding paddle 103, motor 1031, feed inlet 104, the bottom fixedly connected with landing leg 101 of sieving organism 1, the inside top rotation of sieving organism 1 is connected with screw feeding paddle 103, the supporting feed inlet 104 that is provided with in organism 1 top sieves, the outside top fixed mounting of organism 1 has motor 1031 sieves, motor 1031 output shaft is connected with screw feeding paddle 103, sieve organism 1 outer wall passes through hinge 1021 and installs screen cloth change door 102, the clean structure that can effectively handle the fodder dust of feed inlet 104 and discharge gate department of organism 1 sieves, the inside installation of organism 1 of sieving can change the replacement structure according to the material volume size.

Further, the cleaning structure comprises a dust collection machine body A2, a fan 201, a filter screen A202, a filter screen B203, a filter screen replacing door 204, an annular dust collection opening 205 and a filter screen replacing chute 206, wherein the dust collection machine body B4 and the dust collection machine body A2 are respectively arranged at the feed inlet 104 and the discharge outlet of the filter machine body 1, the fan 201 is arranged inside the dust collection machine body A2 and the dust collection machine body B4, a large amount of dust generated when a worker pours materials into the feed inlet 104 is sucked into the dust collection machine body B4 through the negative pressure of the fan 201, the dust collection machine body A2 at the discharge outlet can suck the dust generated during discharging after the materials are screened, the filter screen replacing door 204 is hinged to the outer walls of the dust collection machine body A2, the filter screen replacing chute 206 is fixedly connected inside the dust collection machine body A2 and the dust collection machine body B4, the filter screen replacing chute 206 is movably connected with the filter screen A202 and the filter screen B203, can filter the dust in the air, it is simple and convenient to make the human body receive the injury, filter screen B203 is located the top of filter screen A202, the density of filter screen A202 in the dust absorption organism A2 is 30 meshes, the density of filter screen B203 is 45 meshes, the inhaled dust filters through aperture density filter screen B203 earlier, then further filter the dust through filter screen A202, make it reach cleanest effect, dust absorption organism A2 is connected with annular dust absorption mouth 205 through the air-supply line, annular dust absorption mouth 205 is located the discharge gate of screening organism 1 under, the dust that produces when the material that sieves passes annular dust absorption mouth 205 in discharge gate department can be inhaled by dust absorption organism A2 again, discharge after carrying out two-layer filtration to the dust, further reduced the harm that the material dust produced to the human body, the air-supply line of dust absorption organism B4 extends to the inner wall of feed inlet 104.

Further, the replacement structure comprises a frame 3, connecting columns 301, a screen passing cloth 302, pulleys 303, springs 304, vibrating motors 305, a drainage plate 306 and a chute 307, wherein the frame 3 is installed inside the screen machine body 1 through the springs 304, the connecting columns 301 are fixedly connected between the frames 3, the vibrating motors 305 are fixedly connected to the outer walls of the frame 3, the chute 307 is embedded in the opposite surfaces of the frame 3, the screen passing cloth 302 and the drainage plate 306 are installed inside the chute 307 through the pulleys 303, the chute 307 can be replaced by the screen passing cloth 302 according to the volume of feed, the pulleys 303 inside the chute 307 can enable workers to replace the screen passing cloth 302 more labor-saving and efficient, the drainage plate 306 is installed between the frames 3, the drainage plate 306 is located under the screen passing cloth 302, the two screens 302 are installed in the chute 307 on the frame 3 in an inclined state, the screened materials can reach a discharge hole more quickly, and the working efficiency is increased, and the number of the springs 304 on two sides of the frame 3 is eight.

Working principle: firstly, the material can be poured from the feed inlet 104, a large amount of dust generated by pouring can be sucked by the dust suction machine body B4, the feed dust can be prevented from flying around and being sucked by a human body, harm is caused to the human body, the sucked dust is filtered by the filter screen A202 and the filter screen B203 in the dust suction machine body B4 and then discharged outside through the negative pressure of the air outlet fan 201, the sucked dust is firstly filtered by the small hole density filter screen B203, then the dust is further filtered by the filter screen A202, the dust in the air is filtered, the human body is not damaged, the cleanest effect is achieved, the poured material is conveyed to the dust passing 302 by the spiral feeding blade 103, the vibrating motor 305 drives the frame 3 to vibrate, the spring 304 plays an auxiliary role to drive the frame 3 to vibrate, the dust passing 302 is obliquely arranged, the sieved material can reach the discharge outlet more quickly, the working efficiency is increased, the chute 307 in the frame 3 can be replaced by the filter screen 302 according to the volume of the feed, the pulley 303 in the chute 307 can enable workers to replace the dust more effectively, the dust is produced by the filter screen A2 when the sieved material passes through the annular dust suction machine body 205, and the dust is discharged from the dust suction machine body 2 when the dust is further damaged by the dust is discharged by the dust suction machine body.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the utility model.

Claims (7)

1. The utility model provides a bullfrog feed additive processing is with structure of sieving, including organism (1), landing leg (101), spiral feeding paddle (103), motor (1031), feed inlet (104) sieve organism (1) bottom fixedly connected with landing leg (101), the inside top rotation of organism (1) of sieving is connected with spiral feeding paddle (103), and the supporting feed inlet (104) that is provided with in organism (1) top of sieving sieves, and the outside top fixed mounting of organism (1) of sieving has motor (1031), and motor (1031) output shaft is connected with spiral feeding paddle (103), its characterized in that: the cleaning structure capable of effectively treating feed dust is arranged at the feed inlet (104) and the discharge outlet of the sieving machine body (1), and the replacement structure capable of being replaced according to the size of the material is arranged in the sieving machine body (1).

2. A bullfrog feed additive processing screen structure as recited in claim 1, wherein: the cleaning structure comprises a dust collection machine body A (2), a fan (201), a filter screen A (202), a filter screen B (203), a filter screen replacement door (204), an annular dust collection opening (205) and a filter screen replacement chute (206), wherein the dust collection machine body B (4) and the dust collection machine body A (2) are respectively installed at a feed opening (104) and a discharge opening of the dust collection machine body (1), the fan (201) is installed inside the dust collection machine body A (2) and the dust collection machine body B (4), the filter screen replacement door (204) is hinged to the outer walls of the dust collection machine body A (2) and the dust collection machine body B (4), the filter screen replacement chute (206) is fixedly connected to the inner wall of the dust collection machine body A (2) and the filter screen B (203), the filter screen B (203) is located above the filter screen A (202), and the dust collection machine body A (2) is connected with the annular dust collection opening (205) through an air inlet pipe.

3. A bullfrog feed additive processing screen structure as recited in claim 1, wherein: the replacement structure comprises a frame (3), connecting columns (301), a screening net (302), pulleys (303), springs (304), vibrating motors (305), drainage plates (306) and sliding grooves (307), wherein the frame (3) is installed inside the screening machine body (1) through the springs (304), the connecting columns (301) are fixedly connected between the frame (3), the vibrating motors (305) are fixedly connected to the outer walls of the frame (3), the sliding grooves (307) are embedded in opposite faces of the frame (3), the sliding grooves (307) are internally provided with the screening net (302) and the drainage plates (306) through the pulleys (303), the drainage plates (306) are installed between the frame (3), and the drainage plates (306) are located under the screening net (302).

4. A bullfrog feed additive processing screen structure as recited in claim 1, wherein: the outer wall of the sieving machine body (1) is provided with a screen replacement door (102) through a hinge (1021).

5. A bullfrog feed additive processing screen structure as recited in claim 2, wherein: the annular dust collection opening (205) is positioned right below the discharge opening of the sieving machine body (1), and the air inlet pipe of the dust collection machine body B (4) extends to the inner wall of the feed inlet (104).

6. A bullfrog feed additive processing screen structure as recited in claim 2, wherein: the density of the filter screen A (202) in the dust collector body A (2) is 30 meshes, and the density of the filter screen B (203) is 45 meshes.

7. A bullfrog feed additive processing screen structure as claimed in claim 3, wherein: the number of the screening nets (302) is two, the screening nets are installed in sliding grooves (307) on the frame (3) in an inclined state, and the number of springs (304) on two sides of the frame (3) is eight.