CN222815280U - Extrusion die for fish and shrimp feed production - Google Patents

Abstract

The utility model relates to the technical field of molds, and in particular to an extrusion mold for producing fish and shrimp feeds, comprising a protective shell, a first support plate is installed on the inner wall of the protective shell, a second support plate is installed in the protective shell, a third support plate is installed in the protective shell, a right side surface of the first support plate is fixedly connected with a feed hopper, a left side surface of the feed hopper passes through the first support plate, and a left side surface of the second support plate is rotatably connected with two rotating shafts, surfaces of the two rotating shafts are fixedly connected with rotating wheels, and two gears are rotatably connected between the first support plate and the second support plate; the utility model drives two rotating wheels to rotate relative to each other through a first servo motor, and drives the mold to rotate through a second servo motor, the rotating wheel can press the feed into the through hole on the inner wall of the mold, the mold can extrude the feed during rotation, and the scraper scrapes the feed on the surface of the mold, without the need for manual extrusion by staff, and the work efficiency is high.

Description

Extrusion die for fish and shrimp feed production

Technical Field

The utility model relates to the technical field of dies, in particular to an extrusion die for producing fish and shrimp feed.

Background

The utility model has reasonable structural design, ensures that the disassembly work of the extrusion die is more convenient and faster, further facilitates the disassembly of the extrusion die from the rotating shaft to perform cleaning work, improves the cleaning efficiency of the whole device after the production of the fish and shrimp feed, and further facilitates the casting of the extrusion die into the next use after the rapid disassembly and cleaning.

Above-mentioned current fish and shrimp fodder production extrusion tooling, the bull stick rotates and drives first push rod and rotate, first push rod rotates and begins to promote the rear side inclined plane of fixture block and begin to move in the spout, the fixture block moves in the spout and compresses first spring this moment, the fixture block is not located the recess this moment, the axis of rotation is no longer fixed with extrusion tooling this moment, can take off extrusion tooling from the axis of rotation this moment and clear up the work to in the use of being convenient for next time, but the device needs the manual work to put into the passageway extrusion pivot with the fodder and send out the mould, work efficiency is low.

In order to solve the problems, the utility model provides an extrusion die for producing fish and shrimp feed.

Disclosure of utility model

Aiming at the defects of the prior art, the utility model provides an extrusion die for producing fish and shrimp feed, which is used for solving the problems that in the prior art, a first push rod rotates and starts to push the rear inclined surface of a clamping block to start to move into a chute, the clamping block moves into the chute and compresses a first spring, the clamping block is not positioned in a groove, a rotating shaft and the extrusion die are not fixed any more, the extrusion die can be taken off from the rotating shaft to be cleaned, so that the feed is put into a channel manually to extrude the rotating shaft to send out the feed out of the die, and the working efficiency is low. "technical problem.

The novel protective cover comprises a protective cover, wherein a first supporting plate is arranged on the inner wall of the protective cover, a second supporting plate is arranged in the protective cover, a third supporting plate is arranged in the protective cover, a feeding hopper is fixedly connected to the right side surface of the first supporting plate, the left side surface of the feeding hopper penetrates through the first supporting plate, two rotating shafts are rotatably connected to the left side surface of the second supporting plate, rotating wheels are fixedly connected to the surfaces of the two rotating shafts, two gears are rotatably connected between the first supporting plate and the second supporting plate, the right ends of the two rotating shafts penetrate through the right side surface of the second supporting plate and are fixedly connected with the centers of the gears, two side walls of the gears are in meshed connection, the right side surface of the third supporting plate is rotatably connected with a die, a scraping plate is fixedly connected to the symmetrical position of the right side surface of the third supporting plate, glass is fixedly connected to the front surface and the back surface of the second supporting plate, a limiting groove is formed in the left side surface of the second supporting plate, a plurality of rolling shafts are rotatably connected to the limiting groove, rotating sleeves are rotatably connected to the rotating shafts, and the rotating sleeve is fixedly connected to the surfaces of the two supporting frames.

As a preferable technical scheme of the utility model, the right side of the first supporting plate is fixedly connected with a first servo motor, and the output end of the first servo motor penetrates through the left side surface of the first supporting plate and is fixedly connected with the right end of one rotating shaft.

As the preferable technical scheme of the utility model, the left side surface of the third supporting plate is fixedly connected with a second servo motor, and the output end of the second servo motor penetrates through the right side surface of the third supporting plate and is fixedly connected with the left side surface of the die.

As the preferable technical scheme of the utility model, the side wall of the second supporting plate is provided with a feeding hole, the inner wall of the feeding hole is fixedly connected with a feeding pipe, and the right end of the feeding pipe is communicated with the inside of the feeding hopper.

As the preferable technical scheme of the utility model, the right end face of the support frame is fixedly connected with a third servo motor, and the output end of the third servo motor penetrates through the left side face of one support frame and is fixedly connected with the right end of the rotating wheel.

As a preferable technical scheme of the utility model, one end of the scraping plate is connected with the outer wall of the die in a sliding way, and the right side surface of the scraping plate is abutted with the left side surface of the second supporting plate.

The utility model provides an extrusion die for producing fish and shrimp feed, which has the following beneficial effects:

1. the two rotating wheels are driven to rotate relatively through the first servo motor, the die is driven to rotate through the second servo motor, the rotating wheels can press feed into the through holes in the inner wall of the die, the feed can be extruded out of the die in the rotating process, the scraping plate scrapes the feed on the surface of the die, manual extrusion by workers is not needed, and the working efficiency is high;

2. The protective housing blocks the cut fodder, and the staff can watch the state of fodder output through glass.

Drawings

FIG. 1 is a schematic diagram of a structure according to the present utility model;

FIG. 2 is a schematic view of a scraper according to the present utility model;

FIG. 3 is a schematic diagram of a mold structure according to the present utility model;

FIG. 4 is a schematic diagram of a first servo motor according to the present utility model;

FIG. 5 is a schematic diagram of a gear structure according to the present utility model;

FIG. 6 is a schematic view of a plane structure of a rotor according to the present utility model;

FIG. 7 is a schematic view of a rotary sleeve according to the present utility model;

FIG. 8 is a schematic diagram of a limiting groove according to the present utility model;

FIG. 9 is a schematic view of a rotating shaft according to the present utility model;

Fig. 10 is a schematic view of a rotating wheel structure according to the present utility model.

In the figure, a protective shell 1, a first support plate 2, a first servo motor 3, a feed hopper 4, a die 5, a third support plate 6, a scraping plate 7, a second servo motor 8, a limit groove 9, a second support plate 10, a feed hole 11, a rotary sleeve 12, a rotary wheel 13, a rotary shaft 14, a feed pipe 15, a gear 16, glass 17, a roller 18, a third servo motor 19, a support frame 20, a sliding belt 21 and a rotary wheel 22 are arranged.

Detailed Description

In order to make the technical problems, technical schemes and beneficial effects to be solved more clear, the utility model is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

Thus, reference throughout this specification to one feature will be used in order to describe one embodiment of the utility model, not to imply that each embodiment of the utility model must be in the proper motion. Furthermore, it should be noted that the present specification describes a number of features. Although certain features may be combined together to illustrate a possible system design, such features may be used in other combinations not explicitly described. Thus, unless otherwise indicated, the illustrated combinations are not intended to be limiting.

The principles and structure of the present utility model are described in detail below with reference to the drawings and examples:

Referring to fig. 1-10, a fish and shrimp feed production extrusion die 5, including protecting crust 1, first backup pad 2 is installed to the inner wall of protecting crust 1, install second backup pad 10 in the protecting crust 1, install third backup pad 6 in the protecting crust 1, the right flank fixedly connected with feeder hopper 4 of first backup pad 2, the left surface of feeder hopper 4 runs through first backup pad 2, the left surface of second backup pad 10 rotates and is connected with two axis of rotation 14, the equal fixedly connected with runner 13 of surface of two axis of rotation 14, rotate between first backup pad 2 and the second backup pad 10 and be connected with two gears 16, the right-hand member of two axis of rotation 14 runs through the right flank of second backup pad 10 and the central fixed connection of gear 16, the lateral wall meshing of two gears 16 is connected, the right flank of third backup pad 6 rotates and is connected with mould 5, the symmetrical position fixedly connected with scraper blade 7 of the right flank of third backup pad 6, the front and the back fixedly connected with glass 17 of shell 1, the spacing groove 9 has been seted up in the left surface of second backup pad 10, the rolling connection has a plurality of rollers 18 in the spacing groove 9, the equal fixedly connected with runner 13 of surface of two axis of rotation 14, the right-hand member 12 is connected with two lower roll support frames 20, the two end surfaces 20 are connected with two support frames 20, two lower roll support frames 20 are connected with two support frames 20.

By arranging the rotating shafts 14, the two rotating shafts 14 rotate relatively to drive the rotating wheel 13 to rotate relatively.

Further, the right side of the first support plate 2 is fixedly connected with a first servo motor 3, and the output end of the first servo motor 3 penetrates through the left side surface of the first support plate 2 and is fixedly connected with the right end of one rotating shaft 14.

By arranging the first servo motor 3, the first servo motor 3 drives the rotating wheel 13 to rotate so as to drive the feed to turn over;

Further, the left side surface of the third supporting plate 6 is fixedly connected with a second servo motor 8, and the output end of the second servo motor 8 penetrates through the right side surface of the third supporting plate 6 and is fixedly connected with the left side surface of the die 5.

Through setting up second servo motor 8, second servo motor 8 drives mould 5 rotation, and the rotation of mould 5 drives the rotation of fodder.

Further, the side wall of the second supporting plate 10 is provided with a feeding hole 11, the inner wall of the feeding hole 11 is fixedly connected with a feeding pipe 15, and the right end of the feeding pipe 15 is communicated with the feeding hopper 4.

By arranging the die 5, a plurality of holes are formed in the surface of the die 5, and the holes shape extruded feed.

Further, the right end face of the supporting frame 20 is fixedly connected with a third servo motor 19, and the output end of the third servo motor 19 penetrates through the left side face of one supporting frame 20 and is fixedly connected with the right end of the rotating wheel 22.

By arranging the support rod, the protective shell 1 is placed on the surface of the support rod, so that the sliding belt 21 can roll conveniently.

Further, one end of the scraper 7 is slidably connected to the outer wall of the mold 5, and the right side surface of the scraper 7 abuts against the left side surface of the second support plate 10.

By providing the scraper 7, the surface of the third support plate 6 is fixed with the scraper 7, and the scraper 7 scrapes off the extruded feed.

Firstly, a worker screws the cleaned mould 5 on the inner wall of a rotary sleeve 12 in time, a protective cover is arranged on the surfaces of a first supporting plate 2 and a third supporting plate 6, then, a first servo motor 3 is started to drive one rotary shaft 14 to rotate in time, the other rotary shaft 14 can be driven to rotate in reverse time through meshing of a gear 16, two rotary shafts 14 can drive two rotary wheels 13 to rotate relatively, a second servo motor 8 is started to drive the mould 5 to rotate in time, at the moment, the worker pours feed into the mould 5 from a feed hopper 4 and a feed pipe 15, a groove in the rotary wheels 13 drives the feed to rotate, the outer wall of the rotary wheels 13 extrudes the feed on the inner wall of the mould 5, the feed is extruded from holes in the mould 5, scrapers 7 on two sides of the mould 5 scrape the feed extruded on the outer wall of the mould 5, a protective box is blocked from collecting the scraped feed downwards, after the automatic operation of the machine, the worker can observe the output of the feed and the state of the feed through glass 17, finally, the worker starts a third servo motor 19 to drive a rotary wheel 22 to rotate in reverse time, and the rotary wheel 22 drives a belt 21 to slide in reverse direction, and the belt 21 slides on the surface of the feed belt 21 to move in reverse direction;

compared with the prior art, the device does not need manual extrusion, and has high working efficiency.

The present utility model is not limited to the above embodiments, and various equivalent modifications and substitutions can be easily made by those skilled in the art within the technical scope of the present utility model, and these modifications and substitutions are intended to be included in the scope of the present utility model. Therefore, the protection scope of the utility model is subject to the protection scope of the claims.

Claims (6)

1. The utility model provides a fish and shrimp fodder production extrusion tooling (5), includes protection shell (1), its characterized in that, first backup pad (2) are installed to the inner wall of protection shell (1), install second backup pad (10) in protection shell (1), the internally mounted of protection shell (1) has third backup pad (6), the right flank fixedly connected with feeder hopper (4) of first backup pad (2), the left surface of feeder hopper (4) runs through first backup pad (2), the left surface rotation of second backup pad (10) is connected with two axis of rotation (14), two the equal fixedly connected with runner (13) of surface of axis of rotation (14), rotate between first backup pad (2) and second backup pad (10) and be connected with two gears (16), two the right-hand member of axis of rotation (14) runs through the right flank of second backup pad (10) and the center fixed connection of gears (16), two the lateral wall meshing of gears (16) is connected with feeder hopper (4), the right flank of third backup pad (6) rotates and is connected with mould (5), the surface of rotation of second backup pad (14) is connected with the face of turning one side (7), the front of a side (7) is equipped with glass (17) of the fixed connection of second backup pad (10), the novel roller is characterized in that a plurality of rollers (18) are connected in the limiting groove (9) in a rolling mode, a rotating sleeve (12) is connected in the limiting groove (9) in a rotating mode, the left end of the rotating sleeve (12) is connected with the surface of the rollers (18) in a rolling mode, supporting frames (20) are fixedly connected to the lower end faces of the first supporting plate (2) and the third supporting plate (6), two rotating wheels (22) are connected between the two supporting frames (20) in a rotating mode, and sliding belts (21) are connected to the surface of the two rotating wheels (22) in a transmission mode.

2. The fish and shrimp feed production extrusion die (5) according to claim 1, wherein the right side of the first support plate (2) is fixedly connected with a first servo motor (3), and the output end of the first servo motor (3) penetrates through the left side surface of the first support plate (2) and is fixedly connected with the right end of one rotating shaft (14).

3. The fish and shrimp feed production extrusion die (5) of claim 1, wherein the left side surface of the third support plate (6) is fixedly connected with a second servo motor (8), and the output end of the second servo motor (8) penetrates through the right side surface of the third support plate (6) and is fixedly connected with the left side surface of the die (5).

4. The extrusion die (5) for producing fish and shrimp feed according to claim 1, wherein the side wall of the second supporting plate (10) is provided with a feeding hole (11), the inner wall of the feeding hole (11) is fixedly connected with a feeding pipe (15), and the right end of the feeding pipe (15) is communicated with the inside of the feeding hopper (4).

5. The fish and shrimp feed production extrusion die (5) of claim 1, wherein a third servo motor (19) is fixedly connected to the right end surface of the support frame (20), and the output end of the third servo motor (19) penetrates through the left side surface of one support frame (20) and is fixedly connected with the right end of the rotating wheel (22).

6. The extrusion die (5) for producing fish and shrimp feed according to claim 1, wherein one end of the scraper (7) is slidably connected to the outer wall of the die (5), and the right side surface of the scraper (7) is abutted to the left side surface of the second support plate (10).