CN220559400U - Fodder oil processing raw materials breaker - Google Patents

Abstract

The utility model provides a feed oil processing raw material crushing device which comprises a box body, wherein an inner cavity is arranged in the box body, a partition plate is arranged in the middle of the inner cavity, the partition plate divides the inner cavity into a primary crushing cavity and a secondary crushing cavity, a material conveying opening communicated with the primary crushing cavity and the secondary crushing cavity is formed in the middle of the partition plate, an electromagnetic valve is arranged in the material conveying opening, heating cavities are formed in two sides of the middle of the primary crushing cavity, and a plurality of heating plates are arranged in the heating cavities. The utility model has the following beneficial effects: through the design of one-level cutting mechanism, after the raw materials unfreezes, a motor drives the rotation axis to rotate, and two nut movable blocks are driven to move in opposite directions through the external threads with opposite thread directions when the rotation axis rotates, and the two nut movable blocks drive the fixed plate to move in opposite directions with a plurality of cutting blades, and the cutting blades gradually cut the raw materials into slices when moving.

Description

Fodder oil processing raw materials breaker

Technical Field

The utility model relates to a feed oil processing raw material crushing device, and belongs to the field of feed oil processing.

Background

The feed oil is the grease added in the animal feed, is mainly mixed into the feed for livestock to eat, can improve the mouthfeel of livestock to eat, and achieves the purpose of increasing meat. The feed oil is produced with animal oil and vegetable oil as side product, and includes mainly animal oil, fat lower abdomen, leftover meat, etc.

In the feed oil processing process, the feed oil raw material needs to be crushed, however, the feed oil raw material needs to be taken out from a refrigerator to be thawed, then the thawed raw material is cut and crushed, and the raw material is processed after being thawed, so that the feed oil processing process is slower and the efficiency is poor.

Disclosure of Invention

Aiming at the defects existing in the prior art, the utility model aims to provide a feed oil processing raw material crushing device. In order to achieve the above purpose, the utility model is realized through the following technical scheme that the feed oil processing raw material crushing device comprises a box body, an inner cavity is formed in the box body, a partition plate is arranged in the middle of the inner cavity, the inner cavity is divided into a primary crushing cavity and a secondary crushing cavity by the partition plate, a material conveying opening communicated with the primary crushing cavity and the secondary crushing cavity is formed in the middle of the partition plate, an electromagnetic valve is arranged in the material conveying opening, heating cavities are formed in two sides of the middle of the primary crushing cavity, a plurality of heating plates are arranged in the heating cavities, driven extrusion assemblies are arranged on two sides of the inner side of the primary crushing cavity, a primary cutting mechanism is arranged in the primary crushing cavity, and a secondary cutting mechanism is arranged in the secondary crushing cavity.

Further, the driven extrusion assembly comprises a chute arranged at the top of the primary crushing cavity, a sliding block is slidably connected in the chute, a spring is arranged between one side of the sliding block and the inner wall of the chute, the bottom end of the sliding block penetrates through the primary crushing cavity and is fixedly connected with a vertical plate, and a plurality of blade holes are formed in the vertical plate at equal intervals.

Further, the one-level cutting mechanism includes the power cutting subassembly that two symmetries set up, the power cutting subassembly is including being located the operation chamber of one-level crushing intracavity top side, two openings have been seted up to the bottom both ends symmetry in operation chamber, operation intracavity portion one side is equipped with motor one, the side output of motor one is equipped with the rotation axis, the external screw thread has all been seted up at the surface both ends of rotation axis, two sections the screw thread opposite direction of external screw thread, the cover is equipped with the nut movable block on the external screw thread, the nut movable block with operation chamber sliding connection, the bottom of nut movable block runs through to one-level crushing intracavity portion is fixed with the fixed plate connection, the side equidistant a plurality of cutting blade one that is equipped with of fixed plate, cutting blade one with the blade hole is corresponding.

Further, the secondary cutting mechanism comprises a rotating cylinder which is rotationally connected with the bottom of the secondary crushing cavity and a working cavity which is arranged in the bottom of the box body, a rotating shaft is rotationally connected in the rotating cylinder, and a plurality of second cutting blades are arranged on the outer surfaces of the rotating cylinder and the rotating shaft.

Further, the bottom of the rotating cylinder penetrates through the working cavity and is fixedly connected with the driven bevel gear, the bottom of the rotating shaft penetrates through the working cavity and is fixedly connected with the driven bevel gear II, a motor II is arranged on one side of the inside of the working cavity, a driving bevel gear is arranged at the side output end of the motor II, and the driving bevel gear is meshed with the driven bevel gear I and the driven bevel gear II.

Further, a guide block is arranged at the top end of the rotating shaft, and the top of the guide block is of a conical structure.

Further, a feeding hole communicated with the primary crushing cavity is formed in the center of the top of the box body, and a discharging hole communicated with the secondary crushing cavity is formed in the side edge of the box body.

The utility model has the advantages that,

through the design of heater and hot plate to can unfreeze the raw materials that enters into the inside of one-level crushing chamber, and then make the raw materials make things convenient for one-level cutting structure to cut work.

Through the design of one-level cutting mechanism, after the raw materials unfreezes, a motor drives the rotation axis to rotate, and two nut movable blocks are driven to move in opposite directions through the external threads with opposite thread directions when the rotation axis rotates, and the two nut movable blocks drive the fixed plate to move in opposite directions with a plurality of cutting blades, and the cutting blades gradually cut the raw materials into slices when moving.

Through driven extrusion subassembly's design, and then remove at fixed plate and cutting blade one both and cut the during operation, cutting blade passes the blade hole for a moment and cuts the raw materials, and, the fixed plate can extrude and promote riser horizontal migration, and the riser can be with the raw materials extrusion stack that unfreezes together, and then makes things convenient for cutting blade one can cut the raw materials and smash.

Through the design of second grade cutting mechanism, the motor drives driven bevel gear one and driven bevel gear two through initiative bevel gear and rotates, and driven bevel gear one can drive both rotations of a rotation section of thick bamboo and axis of rotation respectively with driven bevel gear two rotatory, can bring a plurality of cutting blade two rotations when rotating a rotation section of thick bamboo and axis of rotation two, and then carries out the secondary cutting to the raw materials piece.

Through the design in blade hole, when the fixed plate is carrying the first reverse removal that resets of cutting blade, at the in-process that the fixed plate was removed in the reverse direction, the riser can be reset under the effect of spring and slider and remove, and both removal of riser and fixed plate go on simultaneously, when the slider removed the side of spout, when the riser can't remove, at this moment, the removal action of cutting blade can make cutting blade break away from in the blade hole a while, and in this process, the raw materials sediment that adheres to on cutting blade can be hung by the blade hole and be removed, and then avoid raw materials sediment to enter into the outside of riser.

Through the design of guide block, when the material conveying mouth is to the inside conveying raw materials piece of two-stage crushing chamber, the raw materials piece whereabouts is on the guide block, then, the inclined plane direction through the guide block makes the raw materials piece can be even whereabouts to two-stage crushing chamber everywhere.

Drawings

Other features, objects and advantages of the present utility model will become more apparent upon reading of the detailed description of non-limiting embodiments, made with reference to the following drawings,

FIG. 1 is a schematic perspective view of a crushing device for feed oil processing raw materials;

FIG. 2 is a schematic diagram showing a partial internal structure of a crushing device for feed oil processing materials;

FIG. 3 is a schematic diagram showing the connection structure of a slider and a vertical plate of a feed oil processing raw material crushing device;

FIG. 4 is a schematic diagram showing a partial internal structure of a crushing device for feed oil processing materials;

FIG. 5 is an enlarged schematic view of the structure of the point A of the feed oil processing raw material crushing device;

fig. 6 is a schematic diagram of a connection structure between a nut moving block and a fixed plate of a feed oil processing raw material crushing device.

In the figure, 1, a box body; 2. a partition plate; 3. a material conveying port; 4. a heating chamber; 5. a heating plate; 6. a chute; 7. a spring; 8. a slide block; 9. a riser; 10. a blade hole; 11. an operating chamber; 12. a first motor; 13. a rotation shaft; 14. an external thread; 15. a nut moving block; 16. a fixing plate; 17. a first cutting blade; 18. a rotating cylinder; 19. a rotating shaft; 20. a guide block; 21. a working chamber; 22. a second motor; 23. a driving bevel gear; 24. driven bevel gear one; 25. driven bevel gears II; 26. a second cutting blade; 27. a feed inlet; 28. and a discharge port.

Detailed Description

The utility model is further described in connection with the following detailed description, in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the utility model easy to understand.

Referring to fig. 1-6, the utility model provides a technical scheme of a feed oil processing raw material crushing device, which comprises a box body 1, wherein an inner cavity is arranged in the box body 1, a partition plate 2 is arranged in the middle of the inner cavity, the inner cavity is divided into a primary crushing cavity and a secondary crushing cavity by the partition plate 2, a material conveying opening 3 communicated with the primary crushing cavity and the secondary crushing cavity is formed in the middle of the partition plate 2, an electromagnetic valve is arranged in the material conveying opening 3, heating cavities 4 are arranged on two sides of the middle of the primary crushing cavity, a plurality of heating plates 5 are arranged in the heating cavities 4, driven extrusion assemblies are arranged on two sides of the inner part of the primary crushing cavity, a primary cutting mechanism is arranged in the primary crushing cavity, and a secondary cutting mechanism is arranged in the secondary crushing cavity; through the design of heater 4 and hot plate 5 to can unfreeze the raw materials that enters into the inside of one-level crushing chamber, and then make the raw materials make things convenient for one-level cutting structure to cut work.

Referring to fig. 2-3, the driven extrusion assembly comprises a chute 6 arranged at the top of the primary crushing cavity, a sliding block 8 is slidably connected in the chute 6, a spring 7 is arranged between one side of the sliding block 8 and the inner wall of the chute 6, the bottom end of the sliding block 8 penetrates through the primary crushing cavity and is fixedly connected with a vertical plate 9, and a plurality of blade holes 10 are formed in the vertical plate 9 at equal intervals; through the design of driven extrusion subassembly, and then at fixed plate 16 and the first 17 during cutting operation that removes of cutting blade, cutting blade one 17 can pass blade hole 10 and cut the raw materials, and fixed plate 16 can extrude and promote riser 9 horizontal migration, and riser 9 can be with the raw materials extrusion stack that unfreezes together, and then make things convenient for cutting blade one 17 then can smash the raw materials cutting.

Referring to fig. 4-6, the primary cutting mechanism includes two symmetrically disposed power cutting assemblies, the power cutting assemblies include an operation cavity 11 located at a top side of the primary crushing cavity, two openings are symmetrically formed at two ends of a bottom of the operation cavity 11, a first motor 12 is disposed at one side of an inside of the operation cavity 11, a rotating shaft 13 is disposed at an output end of a side face of the first motor 12, external threads 14 are disposed at two ends of an outer surface of the rotating shaft 13, thread directions of the two sections of the external threads 14 are opposite, a nut moving block 15 is sleeved on the external threads 14, the nut moving block 15 is slidably connected with the operation cavity 11, the bottom of the nut moving block 15 penetrates through the inside of the primary crushing cavity and is fixedly connected with a fixing plate 16, a plurality of first cutting blades 17 are disposed at equal intervals on the side of the fixing plate 16, and the first cutting blades 17 correspond to the blade holes 10; through the design of one-level cutting mechanism, after the raw materials unfreezes, motor one 12 drives rotation axis 13 rotation, and two nut movable blocks 15 are driven to move in opposite directions through two sections of external screw threads 14 with opposite screw thread directions when rotation axis 13 rotates, and two nut movable blocks 15 drive fixed plate 16 and a plurality of cutting blade one 17 to move in opposite directions when moving, and cutting blade one 17 gradually cuts the raw materials into the slice when moving.

Referring to fig. 2 and 4, the secondary cutting mechanism includes a rotating drum 18 rotatably connected to the bottom in the secondary crushing cavity and a working cavity 21 provided in the inner bottom of the box 1, the rotating drum 18 is rotatably connected with a rotating shaft 19, the outer surfaces of the rotating drum 18 and the rotating shaft 19 are both provided with a plurality of second cutting blades 26, the bottom end of the rotating drum 18 penetrates into the working cavity 21 and is fixedly connected with a first driven bevel gear 24, the bottom end of the rotating shaft 19 penetrates into the working cavity 21 and is fixedly connected with a second driven bevel gear 25, one side of the inner part of the working cavity 21 is provided with a second motor 22, the side output end of the second motor 22 is provided with a driving bevel gear 23, and the driving bevel gear 23 is meshed with the first driven bevel gear 24 and the second driven bevel gear 25; through the design of the secondary cutting mechanism, the motor II 22 drives the driven bevel gear I24 and the driven bevel gear II 25 to rotate through the driving bevel gear 23, the driven bevel gear I24 and the driven bevel gear II 25 respectively drive the rotating cylinder 18 and the rotating shaft 19 to rotate simultaneously, and the rotating cylinder 18 and the rotating shaft 19 simultaneously drive the plurality of cutting blades II 26 to rotate, so that the raw material block is subjected to secondary cutting.

Referring to fig. 2 and 4, a guide block 20 is disposed at the top end of the rotating shaft 19, the top of the guide block 20 is in a conical structure, a feed port 27 communicated with the primary crushing cavity is disposed at the center of the top of the box 1, and a discharge port 28 communicated with the secondary crushing cavity is disposed at the side of the box 1; through the design of guide block 20, when the feed inlet 3 carries the former piece to the secondary crushing intracavity portion, the former piece whereabouts is on the guide block 20, then, makes the former piece whereabouts everywhere in the secondary crushing chamber that can be even through the inclined plane direction of guide block 20.

When the device is used, feed oil raw materials (slaughter processing byproducts such as frozen sausage, fat of lower abdomen, leftover meat and the like) purchased from a refrigerator are input into a primary crushing cavity through a feed inlet 27, then a heating plate 5 in a heating cavity 4 is started, heat can be transferred to the inner wall of the primary crushing cavity, the frozen raw materials are subjected to defrosting treatment, after the defrosting treatment, a primary cutting mechanism is started, a motor I12 in the primary cutting structure drives a rotating shaft 13 to rotate, two nut moving blocks 15 are driven to face each other through two external threads 14 with opposite thread directions while the rotating shaft 13 rotates, the two nut moving blocks 15 drive a fixed plate 16 to face each other with a plurality of cutting blades I17 while moving, the cutting blades I17 gradually cut the raw materials into sheets while moving, the cutting blades I17 penetrate through a blade hole 10 while the fixed plate 16 and the cutting blades I17 move, the fixed plate 16 can push a vertical plate 9 to move horizontally, the unfrozen raw materials are extruded and stacked together by the vertical plate 9, and the cutting blades I17 can cut and crush the raw materials;

meanwhile, the fixed plate 16 carries the first cutting blade 17 to move reversely, in the process of moving the fixed plate 16 reversely, the vertical plate 9 can reset and move under the action of the spring 7 and the sliding block 8, the movement of the vertical plate 9 and the movement of the fixed plate 16 are simultaneously carried out, when the sliding block 8 moves to the side edge of the sliding groove 6, and the vertical plate 9 cannot move, at the moment, the first cutting blade 17 can be separated from the blade hole 10 by the movement of the first cutting blade 17, and in the process, raw material slag attached to the first cutting blade 17 can be hung by the blade hole 10, so that the raw material slag is prevented from entering the outer side of the vertical plate 9;

after the primary cutting mechanism finishes processing, at the moment, an electromagnetic valve in the material conveying opening 3 is opened, a cut raw material block falls into a secondary crushing cavity through the electromagnetic valve, at the moment, a secondary crushing mechanism is started, a motor II 22 on the secondary crushing mechanism is started, the motor II 22 drives a driven conical gear I24 and a driven conical gear II 25 to rotate through a driving conical gear 23, the driven conical gear I24 and the driven conical gear II 25 simultaneously respectively drive a rotating cylinder 18 and a rotating shaft 19 to rotate, and a plurality of cutting blades II 26 are driven to rotate while the rotating cylinder 18 and the rotating shaft 19 rotate, so that the raw material block is subjected to secondary cutting;

when the material conveying port 3 conveys the raw material blocks to the inside of the secondary crushing cavity, the raw material blocks can fall onto the guide blocks 20, and then the raw material blocks can uniformly fall to all positions of the secondary crushing cavity through the inclined surface guide of the guide blocks 20.

Although the present disclosure describes embodiments, not every embodiment is described in terms of a single embodiment, and such description is for clarity only, and one skilled in the art will recognize that the embodiments described in the disclosure as a whole may be combined appropriately to form other embodiments that will be apparent to those skilled in the art.

Claims (7)

1. Feed oil processing raw materials breaker, its characterized in that, including box (1), box (1) inside is equipped with the inner chamber, the inner chamber middle part is equipped with division board (2), division board (2) will the inner chamber divide into one-level crushing chamber and secondary crushing chamber, division board (2) middle part seted up with one-level crushing chamber with the delivery port (3) that the chamber is linked together are smashed to the secondary, be equipped with the solenoid valve in delivery port (3), one-level crushing intracavity middle part both sides all are equipped with heating chamber (4), heating chamber (4) inside is equipped with a plurality of hot plate (5), one-level crushing intracavity portion both sides all are equipped with driven extrusion subassembly, one-level crushing intracavity portion is equipped with one-level cutting mechanism, the secondary crushing intracavity portion is equipped with secondary cutting mechanism.

2. The feed oil processing raw material crushing device according to claim 1, wherein the driven extrusion assembly comprises a chute (6) arranged at the top of the primary crushing cavity, a sliding block (8) is slidably connected in the chute (6), a spring (7) is arranged between one side of the sliding block (8) and the inner wall of the chute (6), the bottom end of the sliding block (8) penetrates through the primary crushing cavity and is fixedly connected with a vertical plate (9), and a plurality of blade holes (10) are formed in the vertical plate (9) at equal intervals.

3. The feed oil processing raw material crushing device according to claim 2, wherein the primary cutting mechanism comprises two symmetrically arranged power cutting assemblies, each power cutting assembly comprises an operating cavity (11) positioned at the side edge of the top in the primary crushing cavity, two openings are symmetrically formed in two ends of the bottom of each operating cavity (11), one side of the inside of each operating cavity (11) is provided with a motor I (12), the side output end of each motor I (12) is provided with a rotating shaft (13), two external threads (14) are formed in two ends of the outer surface of each rotating shaft (13), the directions of the threads of the two external threads (14) are opposite, a nut moving block (15) is sleeved on each external thread (14), each nut moving block (15) is slidably connected with each operating cavity (11), the bottom of each nut moving block (15) penetrates through the inside of each primary crushing cavity and is fixedly connected with a fixing plate (16), a plurality of first cutting blades (17) are arranged on the side edges of the fixing plates (16) at equal intervals, and the first cutting blades (17) correspond to the holes (10).

4. A feed oil processing raw material crushing device according to claim 3, characterized in that the secondary cutting mechanism comprises a rotating cylinder (18) rotatably connected to the bottom in the secondary crushing cavity and a working cavity (21) formed in the inner bottom of the box body (1), a rotating shaft (19) is rotatably connected to the inner part of the rotating cylinder (18), and a plurality of second cutting blades (26) are arranged on the outer surfaces of both the rotating cylinder (18) and the rotating shaft (19).

5. The feed oil processing raw material crushing device according to claim 4, wherein the bottom end of the rotary cylinder (18) penetrates through the working cavity (21) and is fixedly connected with the driven bevel gear I (24), the bottom end of the rotary shaft (19) penetrates through the working cavity (21) and is fixedly connected with the driven bevel gear II (25), a motor II (22) is arranged on one side of the interior of the working cavity (21), a driving bevel gear (23) is arranged at the side output end of the motor II (22), and the driving bevel gear (23) is meshed with the driven bevel gear I (24) and the driven bevel gear II (25).

6. The feed oil processing raw material crushing device according to claim 5, wherein a guide block (20) is arranged at the top end of the rotating shaft (19), and the top of the guide block (20) is of a conical structure.

7. The feed oil processing raw material crushing device according to claim 6, wherein a feed inlet (27) communicated with the primary crushing cavity is formed in the center of the top of the box body (1), and a discharge outlet (28) communicated with the secondary crushing cavity is formed in the side edge of the box body (1).