CN113231156B

CN113231156B - Soybean oil raw material crushing device

Info

Publication number: CN113231156B
Application number: CN202110519140.XA
Authority: CN
Inventors: 李之建; 李文峰
Original assignee: Anhui Jinlong Grain And Oil Co ltd
Current assignee: Anhui Jinlong Grain And Oil Co ltd
Priority date: 2021-05-12
Filing date: 2021-05-12
Publication date: 2021-11-23
Anticipated expiration: 2041-05-12
Also published as: CN113231156A

Abstract

The invention relates to the technical field of crushing processing, in particular to a soybean oil raw material crushing device which comprises a machine shell, wherein the machine shell is arranged on a bottom plate, an execution slitting unit is arranged on the inner wall of the upper end of the machine shell, and an auxiliary crushing unit is arranged in the middle of the inner wall of the machine shell. The soybean crushing machine can solve the following problems in the crushing process of the conventional soybean particles, namely firstly, the conventional soybean is crushed in an extrusion mode, and the mode of crushing the soybean particles by extrusion easily causes the oil in the soybean particles to overflow, so that the soybean oil is wasted, and secondly, the soybean particles are not cut sufficiently by adopting the conventional machine for cutting and crushing the soybean particles, so that the oil pressing efficiency of the soybean is influenced.

Description

Soybean oil raw material crushing device

Technical Field

The invention relates to the technical field of crushing processing, in particular to a soybean oil raw material crushing device.

Background

Soybean oil is one of the most common edible oils in the world, is rich in various valuable nutritional ingredients, and has to be kept fresh after being processed into finished oil, the oil in soybeans is extruded in an oil pressing mode, the soybean oil is pressed in a pressing mode, the two modes of hot pressing and cold pressing are included, when the soybeans are pressed in a hot pressing mode, the soybeans subjected to heating and impurity removal are required to be crushed, and the crushing efficiency of the soybeans and the specification of crushed particles directly influence the oil pressing amount of the soybeans.

However, the following problems existing in the crushing process of the conventional soybean grains include that the conventional soybean is crushed in an extrusion mode, the oil in the soybean grains is easily overflowed in the extrusion crushing mode of the conventional soybean grains, the soybean oil is wasted, the soybean grains are not cut sufficiently in the cutting crushing mode by adopting the conventional machine, the cut and crushed soybean grains are not uniform, and the soybean oil pressing efficiency is influenced.

Disclosure of Invention

In order to solve the above problems, the present invention provides a soybean oil raw material crushing apparatus that can solve the above-mentioned problems.

In order to achieve the purpose, the invention adopts the following technical scheme to realize the purpose: the utility model provides a soybean oil raw materials breaker, includes the casing, and the casing setting is provided with the execution on the upper end inner wall of casing and cuts the unit, and the execution is cut the unit and is used for cutting the soybean granule, and the middle part of casing inner wall is provided with supplementary crushing unit, and supplementary crushing unit is further broken the soybean after cutting.

The front side of casing is provided with the feed inlet, and the feed inlet is used for carrying the soybean in the casing, and the discharge gate has been seted up to the downside of casing, and the discharge gate is used for discharging the soybean after the breakage the casing.

The execution slitting unit comprises a cylinder, the cylinder is arranged on the inner wall of the casing, a lifting plate is arranged at the lower end of the cylinder, the cylinder is used for controlling the lifting plate to perform height adjustment, an execution mechanism is arranged at the lower end of the lifting plate, the lifting plate is used for driving the execution mechanism to move downwards, a motor is installed at the middle of the lower end of the lifting plate through a motor base, a connecting pipe is arranged on an output shaft of the motor, the motor is used for controlling the connecting pipe to rotate, and the connecting pipe is connected with the execution mechanism.

The auxiliary crushing unit comprises an annular supporting frame arranged on the machine shell through a buffer part, the buffer part is used for supporting the annular supporting frame and adjusting the height through the buffer part, a cross supporting frame is arranged on the annular supporting frame, the middle part of the cross supporting frame is provided with a rotating rod through a bearing, the rotating rod is connected with a connecting pipe, an adjusting groove is arranged inside the connecting pipe, a lug is arranged on the rotating rod and is slidably connected in the adjusting groove, the lower end of the rotating rod penetrates through the cross supporting frame through a linear bearing to be provided with a driving part, auxiliary slitting frames are uniformly arranged on the cross supporting frame, the auxiliary slitting frames arranged on the cross supporting frame are of concentric circle structures and are used for supporting the auxiliary slitting frames, a gap between every two adjacent auxiliary slitting frames is matched with the annular slitting knife, and soybeans conveyed into the machine shell fall into the gap between every two adjacent annular slitting knives, the auxiliary cutting frame is evenly provided with a crushing mechanism along the circumferential direction of the auxiliary cutting frame, and the crushing mechanism is used for further crushing the cut soybeans.

As a preferable technical scheme, the executing mechanism comprises an executing plate, a round hole is formed in the middle of the executing plate, the round hole is sleeved on a connecting pipe in a sliding mode, the executing plate is adjusted to lift along the connecting pipe through the round hole, executing spring rods are uniformly arranged between the executing plate and the lifting plate and used for resetting the executing plate, abutting operation rods are uniformly arranged on the executing plate along the circumferential direction of the executing plate, the upper ends of the abutting operation rods abut against a rotating disc, the contact position of the rotating disc and the abutting operation rods is of a rugged structure, the rotating disc is fixed on the connecting pipe, the contact position of the rotating disc between the rotating disc and the abutting operation rods is changed in the rotating process to control the executing plate to adjust the height, annular dividing cutters are arranged on the lower end face of the executing plate at equal intervals, and the annular dividing cutters arranged on the executing plate are of a concentric circle structure.

As a preferred technical scheme of the invention, the crushing mechanism comprises a crushing auxiliary groove arranged on an auxiliary slitting frame, the lower end of the auxiliary slitting frame is provided with a lifting control groove communicated with the crushing auxiliary groove, the end surface of the auxiliary slitting frame, which is far away from the circle center of the cross-shaped supporting frame, is provided with a grid baffle groove and a crushing groove, the crushing groove is positioned at the upper side of the grid baffle groove, a grid baffle is arranged in the grid baffle groove in a sliding manner, the grid baffle has the functions of limiting and sliding the grid baffle groove, the crushing groove is internally provided with a crushing frame, the crushing groove has the functions of limiting and assisting in sliding, crushing knives are arranged at equal intervals on the crushing frame, a lifting control rod is arranged in the lifting control groove in a sliding manner, a first adjusting rod is hinged between the upper end of the lifting control rod and the crushing frame, a second adjusting rod is hinged between the grid baffle and the lifting control rod, and the lifting control rod is used for dragging the first adjusting rod and the second adjusting rod to carry out staggered adjustment in the lifting motion process, the first adjusting rod and the second adjusting rod are respectively used for controlling the crushing frame and the grid baffle to be adjusted in a staggered mode.

As a preferred technical scheme of the invention, the shell consists of an upper shell and a lower shell, the upper shell and the lower shell are connected through bolts, the feed inlet is formed on the upper shell, the discharge outlet is formed on the lower shell, and the upper shell and the lower shell can be detached, so that the machine is convenient to maintain.

As the preferable technical scheme of the invention, the lifting control rod is provided with the balancing weight, and the balancing weight can enable the lifting control rod to be always in an initial state under the condition of no external force in operation.

According to the preferable technical scheme, the buffer piece comprises buffer spring rods, the buffer spring rods are uniformly arranged along the circumferential direction of the lower shell, buffer blocks are mounted on the buffer spring rods and connected to the annular support frame, the buffer spring rods are used for supporting the buffer blocks, and the buffer blocks are used for supporting the annular support frame.

According to the preferable technical scheme, the driving part comprises driving rods, the driving rods are uniformly arranged on the rotating rods, the rotating rods are used for driving the driving rods to rotate, the cross sections of the driving rods are of triangular structures, the driving rods are used for extruding the lifting control rods in the rotating process, annular sliding grooves are formed in the lower end faces of the annular supporting frames in the rotating operation of the driving rods, the driving rods extend into the annular sliding grooves and abut against the upper end faces of the annular sliding grooves, the end faces, in contact with the driving rods, of the annular sliding grooves are of uneven structures, and the driving rods are matched with the annular sliding grooves in the rotating process to drive the annular supporting frames to perform reciprocating height adjustment.

As the preferred technical scheme of the invention, the sections of the annular slitting knife and the auxiliary slitting frame are both triangular structures.

As the preferred technical scheme of the invention, the shell is uniformly provided with sliding grooves, the execution plate is provided with sliding blocks, the sliding blocks are arranged in the sliding grooves in a sliding manner, and the execution plate is limited and slides in an auxiliary manner by matching of the sliding blocks and the sliding grooves.

Compared with the prior art, the invention has the following beneficial effects;

the soybean crushing machine solves the following problems in the crushing process of the conventional soybean particles, namely firstly, the conventional soybean is crushed in an extrusion mode, and the mode of crushing the soybean particles by extrusion easily causes the oil in the soybean particles to overflow, so that the soybean oil is wasted, and secondly, the soybean particles are not cut sufficiently by adopting the conventional machine for cutting and crushing the soybean particles, so that the oil pressing efficiency of the soybean is influenced.

The execution cutting unit designed in the invention can cut soybean particles paved in the gap between the two auxiliary cutting frames in operation, and when the soybean particles fall into the gap between the two auxiliary cutting frames after the cut specification meets the requirement, the soybean particles can be sufficiently and accurately cut and crushed, the cutting effect of the soybean particles is ensured, and the soybean particles can not be extruded, so that the grease in the soybean particles overflows.

The auxiliary crushing unit designed in the invention can further crush the cut soybean particles in operation, the soybean particles subjected to multi-stage crushing can improve the oil yield of the soybean particles in the oil pressing process, the crushed soybean particles are accumulated in the gap between the two auxiliary cutting frames, and the crushed soybean particles are discharged from the gap between the two auxiliary cutting frames after meeting the specification, so that the crushing quality of the soybean particles can be ensured.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic diagram of the present invention;

FIG. 2 is a cross-sectional view of FIG. 1 of the present invention;

FIG. 3 is a schematic structural diagram of the present invention between the machine shell and the slitting unit;

fig. 4 is a schematic view of a first arrangement between the enclosure and the additional crusher unit of the present invention;

FIG. 5 is a schematic view of a second arrangement between the enclosure and the additional crusher unit of the present invention;

FIG. 6 is an enlarged view of portion A of FIG. 2 in accordance with the present invention;

Detailed Description

The embodiments of the invention will be described in detail below with reference to the drawings, but the invention can be implemented in many different ways as defined and covered by the claims.

As shown in fig. 1-6, a soybean oil raw material crushing device comprises a machine shell 1, wherein the machine shell 1 is arranged on a bottom plate, an execution slitting unit 2 is arranged on the inner wall of the upper end of the machine shell 1, and an auxiliary crushing unit 3 is arranged in the middle of the inner wall of the machine shell 1;

the front side of casing 1 is provided with the feed inlet, and the discharge gate has been seted up to the downside of casing 1, and casing 1 comprises last casing 11 and casing 12 down, goes up and passes through bolted connection between casing 11 and the casing 12 down, and the feed inlet is seted up on last casing 11, and the discharge gate is seted up on casing 12 down.

Prepare and need carry out broken soybean, clear away the impurity in the soybean, pass through the feed inlet with the soybean prepared and input in casing 1, cut unit 2 and supplementary crushing unit 3 through the execution and carry out the breakage to the soybean, discharge in the discharge gate is followed to the soybean after the breakage.

The execution slitting unit 2 comprises an air cylinder 21, the air cylinder 21 is arranged on the inner wall of the machine shell 1, the lower end of the air cylinder 21 is provided with a lifting plate 22, the lower end of the lifting plate 22 is provided with an execution mechanism 23, the middle part of the lower end of the lifting plate 22 is provided with a motor 24 through a motor base, an output shaft of the motor 24 is provided with a connecting pipe 25, and the connecting pipe 25 is connected with the execution mechanism 23;

the actuating mechanism 23 comprises an actuating plate 231, a round hole is formed in the middle of the actuating plate 231, the round hole is slidably sleeved on the connecting pipe 25, actuating spring rods 232 are uniformly arranged between the actuating plate 231 and the lifting plate 22, the actuating plate 231 is uniformly provided with abutting working rods 233 along the circumferential direction of the actuating plate, the upper ends of the abutting working rods 233 abut against the rotating disk 234, the contact position of the rotating disk 234 and the abutting working rods 233 is of a rugged structure, the rotating disk 234 is fixed on the connecting pipe 25, annular dividing cutters 235 are arranged on the lower end face of the actuating plate 231 at equal intervals, and the annular dividing cutters 235 arranged on the actuating plate 231 are of a concentric circle structure. The cross sections of the annular slitting knife 235 and the auxiliary slitting frame 36 are both triangular structures. The sliding groove has evenly been seted up on casing 1, is provided with the sliding block on the execution board 231, and the sliding block slides and sets up in the sliding groove.

The clearance of the clearance upside between two supplementary slitting framves 36 is used for injecing that the soybean granule that does not cut can't fall downwards, and the clearance middle side between two supplementary slitting framves 36 is used for depositing the soybean granule after cutting, and the clearance downside between two supplementary slitting framves 36 is used for restricting the soybean granule after the breakage, ensures that the soybean granule after the breakage is qualified can discharge downwards.

In the casing 1 was carried to the soybean, starting motor 24 drove driving piece 35 through the cooperation of connecting pipe 25 with dwang 34 this moment and rotates, and driving piece 35 is rotating and is driving toroidal support frame 32 through bolster 31 and vibrate, and the soybean of this moment paves between two adjacent supplementary slitting framves 36, and the vibration through toroidal support frame 32 drives even the paving of soybean between the clearance of two supplementary slitting framves 36, and motor 24 stop work this moment.

Starting the air cylinder 21, driving the lifting plate 22 to be adjusted to a proper position through the air cylinder 21, enabling the annular slitting knife 235 to move downwards to cut the soybean particles in the gap between the two auxiliary slitting frames 36 into two halves, starting the motor 24 again to control the connecting pipe 25 to rotate, controlling the rotating disc 234 to rotate synchronously when the connecting pipe 25 rotates, constantly changing the contact position between the rotating disc 234 and the abutting operation rod 233 in the rotating process, resetting the execution plate 231 by the execution spring rod 232 in the process, the actuating plate 231 is controlled to move up and down and reciprocate under the mutual matching action of the actuating spring rod 232 and the rotating disc 234, the actuating plate 231 synchronously drives the annular slitting knife 235 to move up and down, the annular slitting knife 235 slits soybean particles in the gap between the two adjacent auxiliary slitting frames 36 in the lifting process, and the slit soybean particles downwards slide down through the gap between the two auxiliary slitting frames 36.

The auxiliary crushing unit 3 comprises an annular support frame 32 arranged on the machine shell 1 through a buffer part 31, a cross support frame 33 is arranged on the annular support frame 32, a rotating rod 34 is arranged in the middle of the cross support frame 33 through a bearing, the rotating rod 34 is connected with a connecting pipe 25, a driving part 35 is arranged at the lower end of the rotating rod 34 and penetrates through the cross support frame 33, auxiliary cutting frames 36 are uniformly arranged on the cross support frame 33, the auxiliary cutting frames 36 arranged on the cross support frame 33 are of concentric circle structures, a gap between every two adjacent auxiliary cutting frames 36 is matched with an annular cutting knife 235, and crushing mechanisms 37 are uniformly arranged on the auxiliary cutting frames 36 along the circumferential direction of the auxiliary cutting frames; the inside of the connecting pipe 25 is provided with an adjusting groove, the rotating rod 34 is provided with a lug which is connected in the adjusting groove in a sliding way,

the buffer member 31 includes a buffer spring rod 311, the buffer spring rod 311 is uniformly arranged along the circumferential direction of the lower housing 12, a buffer block 312 is mounted on the buffer spring rod 311, and the buffer block 312 is connected to the ring support frame 32.

The buffer spring rod 311 and the buffer block 312 are matched with each other to support the annular support frame 32, the cross support frame 33 supports the auxiliary cutting frame 36, the annular support frame 32 can synchronously drive the auxiliary cutting frame 36 to move in the slight vibration process, and the auxiliary cutting frame 36 enables the cut soybean particles to rapidly slide downwards in the slight vibration process.

Driving piece 35 includes actuating lever 351, actuating lever 351 evenly arranges on dwang 34, and actuating lever 351's cross-section is the triangle-shaped structure, because actuating lever 351 is triangle-shaped mechanism, can reduce and lift control lever 374 between the striking rotating process, lift control lever 374 can be controlled simultaneously and carry out altitude mixture control, annular spout has been seted up to the lower terminal surface of annular support frame 32, actuating lever 351 extends to in the annular spout, and actuating lever 351 supports and leans on the up end of annular spout, the terminal surface that annular spout and actuating lever 351 contacted is uneven structure.

Connecting pipe 25 drives dwang 34 in step at the pivoted in-process and rotates the regulation, and dwang 34 drives actuating lever 351 in step at rotatory in-process and carries out the circumference rotation, and actuating lever 351 can control crushing mechanism 37 and further cut the operation to the soybean granule after cutting rotating the in-process.

Broken mechanism 37 is including seting up the supplementary broken auxiliary groove on cutting frame 36 in the supplementary branch, the supplementary lift control groove that feeds through with broken auxiliary groove is seted up to the lower extreme that cuts frame 36, supplementary cut frame 36 has been kept away from and has been seted up check fender groove and broken groove on the terminal surface in the cross bracing frame 33 centre of a circle, broken trench is located the upside in check fender groove, it is provided with check baffle 371 to slide in the check fender groove, it is provided with broken frame 372 to slide in the broken trench, equidistant broken sword 373 that is provided with on broken frame 372, it is provided with lift control rod 374 to slide in the lift control groove, it has regulation pole 375 No. one to articulate between lift control rod 374's upper end and the broken frame 372, it has regulation pole 376 No. two to articulate between check baffle 371 and the lift control rod 374.

The lifting control rod 374 is provided with a balancing weight, and the balancing weight can enable the lifting control rod 374 to be located at the lowest end position all the time under the effect of no external force.

The actuating lever 351 extrudes the lifting control rod 374 in the rotating process, the lifting control rod 374 after extrusion carries out lifting adjustment, the lifting control rod 374 pulls the grid baffle 371 through the adjusting rod 375 to shrink in the grid baffle groove in the lifting adjustment process, and meanwhile, the crushing frame 372 extends outwards under the action of the adjusting rod 376 for two times, so that the cut soybean particles are further crushed by the crushing knife 373 on the crushing frame 372.

During operation

Prepared soybeans are input into the machine shell 1 through the feed inlet, soybean particles are cut and crushed through the mutual matching between the execution cutting unit 2 and the auxiliary crushing unit 3, and the crushed soybean particles are discharged from the discharge port.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are given by way of illustration of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. A soybean oil raw material crushing device comprises a machine shell (1), and is characterized in that the machine shell (1) is arranged on a bottom plate, an execution slitting unit (2) is arranged on the inner wall of the upper end of the machine shell (1), and an auxiliary crushing unit (3) is arranged in the middle of the inner wall of the machine shell (1);

a feed inlet is formed in the front side of the casing (1), and a discharge outlet is formed in the lower side of the casing (1);

the executing and slitting unit (2) comprises an air cylinder (21), the air cylinder (21) is arranged on the inner wall of the machine shell (1), a lifting plate (22) is arranged at the lower end of the air cylinder (21), an executing mechanism (23) is arranged at the lower end of the lifting plate (22), a motor (24) is installed in the middle of the lower end of the lifting plate (22) through a motor base, a connecting pipe (25) is arranged on an output shaft of the motor (24), and the connecting pipe (25) is connected with the executing mechanism (23);

the auxiliary crushing unit (3) comprises an annular supporting frame (32) arranged on the machine shell (1) through a buffer piece (31), a cross support frame (33) is arranged on the annular support frame (32), a rotating rod (34) is arranged in the middle of the cross support frame (33) through a bearing, the rotating rod (34) is connected with the connecting pipe (25), the lower end of the rotating rod (34) penetrates through the cross-shaped support frame (33) through a linear bearing to be provided with a driving part (35), the cross support frame (33) is uniformly provided with auxiliary cutting frames (36), the auxiliary cutting frames (36) arranged on the cross support frame (33) are of concentric circle structures, and the gap between two adjacent auxiliary cutting frames (36) is matched with the annular cutting knife (235), the auxiliary cutting frame (36) is uniformly provided with crushing mechanisms (37) along the circumferential direction;

the actuating mechanism (23) comprises an actuating plate (231), a round hole is formed in the middle of the actuating plate (231), the round hole is sleeved on the connecting pipe (25) in a sliding mode, an actuating spring rod (232) is uniformly arranged between the actuating plate (231) and the lifting plate (22), an abutting operating rod (233) is uniformly arranged on the actuating plate (231) along the circumferential direction of the actuating plate, the upper end of the abutting operating rod (233) abuts against a rotating disk (234), the contact position of the rotating disk (234) and the abutting operating rod (233) is of a rugged structure, the rotating disk (234) is fixed on the connecting pipe (25), annular dividing cutters (235) are arranged on the lower end face of the actuating plate (231) at equal intervals, and the annular dividing cutters (235) arranged on the actuating plate (231) are of a concentric circle structure;

the crushing mechanism (37) comprises a crushing auxiliary groove arranged on the auxiliary cutting frame (36), the lower end of the auxiliary cutting frame (36) is provided with a lifting control groove communicated with the crushing auxiliary groove, the end surface of the auxiliary cutting frame (36) far away from the circle center of the cross supporting frame (33) is provided with a grid groove and a crushing groove, the crushing groove is positioned at the upper side of the grid baffle groove, a grid baffle (371) is arranged in the grid baffle groove in a sliding way, a crushing frame (372) is arranged in the crushing groove in a sliding manner, crushing knives (373) are arranged on the crushing frame (372) at equal intervals, a lifting control rod (374) is arranged in the lifting control groove in a sliding manner, a first adjusting rod (375) is hinged between the upper end of the lifting control rod (374) and the crushing frame (372), a second adjusting rod (376) is hinged between the grid baffle (371) and the lifting control rod (374);

the driving part (35) comprises a driving rod (351), the driving rod (351) is uniformly arranged on the rotating rod (34), the cross section of the driving rod (351) is of a triangular structure, an annular sliding groove is formed in the lower end face of the annular supporting frame (32), the driving rod (351) extends into the annular sliding groove, the driving rod (351) abuts against the upper end face of the annular sliding groove, and the end face of the annular sliding groove, which is in contact with the driving rod (351), is of a rugged structure.

2. The soybean oil raw material crushing device according to claim 1, wherein the casing (1) is composed of an upper casing (11) and a lower casing (12), the upper casing (11) and the lower casing (12) are connected through bolts, a feeding port is formed in the upper casing (11), and a discharging port is formed in the lower casing (12).

3. The soybean oil material crushing device as claimed in claim 1, wherein a weight is provided on the lifting control rod (374).

4. The soybean oil raw material crushing device of claim 3, wherein the buffer member (31) comprises buffer spring rods (311), the buffer spring rods (311) are uniformly arranged along the circumferential direction of the lower shell (12), buffer blocks (312) are mounted on the buffer spring rods (311), and the buffer blocks (312) are connected to the annular support frame (32).

5. The soybean oil material crushing device as claimed in claim 1, wherein the cross sections of the annular slitting knife (235) and the auxiliary slitting frame (36) are both triangular structures.

6. The soybean oil raw material crushing device of claim 5, wherein sliding grooves are uniformly formed in the casing (1), and sliding blocks are arranged on the execution plate (231) and are slidably arranged in the sliding grooves.