CN113600480A

CN113600480A - Processing equipment and method for bean food raw materials

Info

Publication number: CN113600480A
Application number: CN202110935348.XA
Authority: CN
Inventors: 高楠
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-08-16
Filing date: 2021-08-16
Publication date: 2021-11-05

Abstract

The invention relates to a processing device and a processing method for bean food raw materials. The soybean screening machine can solve the following problems in the processing and treatment process of the existing soybean product raw materials, namely, the dust mixed in soybean particles and the soybean particles with small particles which do not meet the specification need to be manually screened, the labor intensity of manually screening soybeans is high, a long-time shaking screening tool is needed, the soybean particles with small particles need to be separated from the dust through manual secondary screening operation, the operation is complex, and secondly, when the soybean particles are discharged through the separation of a traditional screening machine, the soybean particles are easily clamped on the filtering screening holes, the soybean particles need to be taken out, and the time consumption is long.

Description

Processing equipment and method for bean food raw materials

Technical Field

The invention relates to the technical field of food processing, in particular to processing equipment and a processing method for bean food raw materials.

Background

The bean products are mainly divided into two main categories, namely soybean food taking soybeans as raw materials and other bean products taking other mixed beans as raw materials, the nutrition of the bean products is mainly reflected in the rich protein content of the bean products, and the bean products can be used as one of the sources of protein. The bean product is an important component of balanced diet, the raw material of the bean product, namely soybean, needs to be processed in the preparation process of the bean product, the soybean shelling, drying and screening are indispensable procedures, and the bean product processed by selecting the full-grain soybean has higher nutrient content.

At present, the following problems exist in the processing and treatment process of the existing bean product raw materials: firstly, dust mixed in soybean particles and small soybean particles which do not meet the specification need to be screened manually, the labor intensity of manually screening soybeans is high, a long-time shaking screening tool is needed, the small soybean particles are separated from the dust by manual secondary screening operation, and the operation is complex; secondly, when traditional screening machinery accomplishes the split and discharges the soybean granule, the soybean granule blocks easily on filtering and screening hole, need take out the soybean granule, and it is long to consume time.

In order to improve the efficiency of soybean screening processing, the technical personnel in the related field improve the soybean screening machine, for example, the Chinese utility model patent with the patent number of 202020413403, the invention name of X is that a soybean screening machine achieves the purpose of good screening effect by arranging a drying screen plate, a motor, a driving rod and the like, when soybean materials are put into a screening chamber, the motor can control the driving rod to rotate to a small extent, but the screening chamber can only move left and right due to the limitation of two connecting rods, so that the screening chamber can be screened, the structure is relatively stable and has good effect, soybeans can be effectively screened, but the problem of the soybeans mentioned in the above in screening and filtering operation is not mentioned.

Disclosure of Invention

The invention provides a processing device and a processing method of a raw material of a bean food in order to solve the problems mentioned above.

In order to achieve the purpose, the invention adopts the following technical scheme: a bean food raw material processing device comprises a processing frame, wherein a screening and filtering mechanism is arranged in the processing frame, a driving mechanism is arranged in the processing frame, and the driving mechanism is positioned at the lower side of the screening and filtering mechanism;

the screening and filtering mechanism comprises a guide frame arranged on the inner wall of the processing frame, the section of the guide frame is a triangular mechanism, a supporting spring rod is installed at the lower end of the guide frame, a screening support is installed at the lower end of the supporting spring rod and is of an H-shaped structure, a shunting frame is arranged on the screening support, filtering frames are symmetrically arranged on the left side and the right side of the screening support through bearings, a filtering branched chain is arranged at the lower end of the filtering frame, a control branched chain is arranged in the middle of the screening support, strip-shaped support plates are symmetrically arranged on the left side and the right side of the screening support, a reset spring is arranged between the filtering frame and the strip-shaped support plates, discharge ports are symmetrically formed in the left side and the right side of the processing frame, and a discharge pipe is arranged in the middle of the lower end of the processing frame;

actuating mechanism includes and installs the tripod between the both sides inner wall around the processing frame through the bolt, be provided with the abnormal shape piece through the bearing between the inner wall of processing frame, the abnormal shape piece is located inside the processing frame, the front end of abnormal shape piece passes through the shaft coupling and links to each other with control motor, control motor passes through the motor frame to be fixed on the inner wall of processing frame, the sliding tray has been seted up to the front and back both ends symmetry of tripod, it is provided with the vibrating arm to slide in the sliding tray, the lower extreme of vibrating arm supports and leans on the abnormal shape piece, the upper end of vibrating arm is installed on the screening support.

The filtering branch chain comprises an inner groove arranged at the lower end of the filtering frame, filtering holes are uniformly formed in the filtering frame, through holes are symmetrically formed in the front side and the rear side of the lower end of the filtering frame, a U-shaped pipe frame is arranged in the through holes in a sliding manner, an adjusting spring rod is arranged at the front end of the filtering frame and is connected with the U-shaped pipe frame, transverse pipe frames communicated with the U-shaped pipe frame are arranged on the U-shaped pipe frame at equal intervals from front to back, communicating pipes are arranged on the transverse pipe frames at equal intervals from left to right, a circular ring block is arranged on the communicating pipes and is provided with a circular groove, the circular groove and the communicating pipes are communicated with the transverse pipe frame, an adjusting piece is arranged in the circular groove, a U-shaped pushing frame is arranged in the U-shaped pipe frame in a sliding manner, a pushing spring rod is arranged at the rear end of the filtering frame and is connected with the U-shaped pushing frame, and connecting transverse plates are arranged on the U-shaped pushing frame at equal intervals from front to back, the connecting transverse plate is positioned in the transverse pipe frame and is connected with the adjusting piece;

preferably, the regulating part is including setting up the lift spring beam on the circular slot inner wall, installs circular push pedal on the lift spring beam, and the upper end of circular push pedal is the circular arc structure, and the lower extreme of circular push pedal is provided with the push rod, slides in communicating pipe and is provided with the sliding plate, and the one end of sliding plate extends to in the horizontal pipe support and links to each other with being connected the diaphragm, and the other end of sliding plate extends to in the circular slot, and the one end that the diaphragm was connected is kept away from to the sliding plate is the stair structure, and the push rod supports and leans on the up end of sliding plate.

Preferably, the left end and the right end of the screening support are symmetrically provided with arc blocks, the thicknesses of the arc blocks are increased in a clockwise direction, and the U-shaped pipe fitting and the U-shaped pushing frame are matched with the arc blocks on the left side and the right side of the screening support respectively in motion.

Preferably, the control branch chain is including seting up the control tank on the screening support, and the control hole that communicates with the control tank is seted up to the left and right sides symmetry of screening support, installs control cylinder on the inner wall of control tank, and the control panel is installed to control cylinder's lower extreme, installs the control lever on the control panel, and the control lever slides and sets up in the control hole, and the upper end of control lever supports and leans on filtering frame.

Preferably, one end of the filtering frame, which is far away from the control branched chain, is provided with a guide frame through a pin shaft, a guide spring is arranged between the guide frame and the strip-shaped support plate, the lower end of the strip-shaped support plate is provided with a circular tube, the outer wall of the guide frame is connected with one end of a control rope, and the other end of the control rope penetrates through the circular tube and is connected to the control plate.

Preferably, the lifting groove has been seted up to the lower extreme of tripod, and it is provided with the lifter to slide in the lifting groove, and the lower extreme of lifter is provided with U type frame, and the upper end of lifter supports and leans on the special-shaped piece, and the cover is equipped with the spring on the lifter that is located between U type frame and the tripod, and both sides are provided with the guide plate through the round pin shaft symmetry around the processing frame inner wall, has evenly seted up the bar groove on the guide plate, is provided with the water conservancy diversion spring between the inner wall of guide plate and processing frame.

In addition, the invention also provides a method for processing the soybean raw material by the processing equipment for the soybean food raw material, which comprises the following steps;

step one, drying the hulled soybeans in the sun, and pouring the dried soybeans into a processing frame;

starting a control motor to drive a special-shaped block to rotate, controlling a screening support to vibrate up and down by the special-shaped block through extrusion of a vibrating rod, driving a filtering frame to rotate synchronously by the screening support, discharging dust mixed in soybean raw materials and soybeans with small particles from a filtering hole, driving a guide plate to shake synchronously by a lifting rod during rotation of the special-shaped block, separating the dust from the soybeans with small particles, and discharging the soybeans with small particles through a discharge pipe;

and step three, controlling the motor to stop working after soybean particles are filtered, starting the control cylinder to drive the control panel to move upwards to synchronously drive the control rod to extrude the filter frame, rotating the extruded filter frame to adjust to an inclined state, driving the U-shaped pipe fitting and the U-shaped pushing frame to be matched with the arc block in the rotating process of the filter frame so that bean materials cannot be clamped in the filter holes in the filter frame, driving the guide frame to overturn to the discharge port through the control rope by the control panel in motion, and discharging the filtered soybean particles through the discharge port.

Advantageous effects

1. The soybean screening machine solves the following problems in the processing and treatment process of the existing soybean product raw materials, firstly, dust mixed in soybean particles and soybean particles with small particles which do not meet the specification need to be screened manually, the labor intensity of manually screening soybeans is high, a long-time shaking and screening tool is needed, the soybean particles with small particles need to be separated from the dust through manual secondary screening operation, the operation is complex, and secondly, when the soybean particles are discharged through the separation of a traditional screening machine, the soybean particles are easily clamped on filtering and screening holes, the soybean particles need to be taken out, and the time is long.

2. The screening and filtering mechanism designed by the invention can rapidly shake soybeans under the action of the driving mechanism, qualified soybeans can be rapidly separated from dust and soybean materials with small particles, and the soybean particles with small particles can be separated from the dust without manual secondary screening operation;

3. the round push plate extends into the filtering hole in the operation of the designed filtering branched chain, so that bean grains can be prevented from being blocked in the filtering hole and cannot be discharged, and the problem that manual cleaning is needed is effectively solved.

Drawings

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

FIG. 1 is a schematic view showing the construction of a soybean food material processing apparatus according to the present invention;

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

FIG. 3 is a schematic plan view of the filter frame of the present invention in a position between the filter branches;

FIG. 4 is a cross-sectional view taken along line X-X of FIG. 3 in accordance with the present invention;

FIG. 5 is an enlarged view of a portion of FIG. 3 in accordance with the present invention;

FIG. 6 is a schematic plan view of the screening carrier of the present invention in a configuration with the arc blocks;

FIG. 7 is a schematic view of the construction between the screen carrier and the filter frame of the present invention;

fig. 8 is a schematic structural view of the sieving bracket, the filtering frame, the filtering branched chain, the control branched chain and the strip-shaped support plate of 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 to 8, a processing device for bean food raw materials comprises a processing frame 1, a screening and filtering mechanism 2 is arranged in the processing frame 1, a driving mechanism 3 is arranged in the processing frame 1, and the driving mechanism 3 is positioned at the lower side of the screening and filtering mechanism 2;

screening filter mechanism 2 is including setting up guide frame 21 on processing frame 1 inner wall, and guide frame 21's cross-section is triangle-shaped mechanism, and support spring pole 22 is installed to guide frame 21's lower extreme, and screening support 23 is installed to support spring pole 22's lower extreme, and screening support 23 is H type structure, is provided with reposition of redundant personnel frame 29 on the screening support 23, and the left and right sides of screening support 23 is provided with filtration frame 24 through the bearing symmetry, and filtration frame 24's lower extreme is provided with filters branch chain 25, and the middle part of screening support 23 is provided with control branch chain 26, bilateral symmetry is provided with bar backup pad 27 on the lower terminal surface of screening support 23, is provided with reset spring 251 between filtration frame 24 and the bar backup pad 27, and reset spring 251 has played the effect of reseing to filtration frame 24. Soybeans are put into the processing frame 1, and the soybeans are introduced into the filtering frame 24 in a way that the guide frame 21 and the shunt frame 29 are matched with each other in the process of pouring the soybeans.

Actuating mechanism 3 includes tripod 31 between the inner wall of both sides around processing frame 1 through the bolt mounting, be provided with special-shaped piece 32 through the bearing between the inner wall of processing frame 1, special-shaped piece 32 is located processing frame 1 inside, the front end of special-shaped piece 32 passes through the shaft coupling and links to each other with control motor 33, control motor 33 passes through the motor frame to be fixed on the inner wall of processing frame 1, the sliding tray has been seted up to both ends symmetry around tripod 31, it is provided with vibrating arm 34 to slide in the sliding tray, the lower extreme of vibrating arm 34 supports and leans on special-shaped piece 32, the upper end of vibrating arm 34 is installed on screening support 23.

The control motor 33 is started to drive the special-shaped block 32 to rotate, the special-shaped block 32 changes the contact position with the vibrating rod 34 in the rotating process, the screening bracket 23 is driven to vibrate up and down through the rotation of the special-shaped block 32, and the screening bracket 23 enables dust impurities doped in soybeans and bean particles which do not meet the specification to be discharged from the filtering holes in the up-and-down vibrating process.

The lower extreme of tripod 31 has seted up the lift groove, it is provided with lifter 311 to slide in the lift groove, the lower extreme of lifter 311 is provided with U shaped frame 312, the upper end of lifter 311 leans on special-shaped piece 32, the cover is equipped with the spring on the lifter 311 that is located between U shaped frame 312 and tripod 31, both sides are provided with guide plate 313 through the round pin shaft symmetry around the processing frame 1 inner wall, the bar groove has evenly been seted up on the guide plate 313, be provided with water conservancy diversion spring 314 between guide plate 313 and the processing frame 1's the inner wall, the lower extreme middle part of processing frame 1 is provided with discharging pipe 28.

On dust impurity that leaks in the filtration pore fell into guide plate 313 with the little beans of granule, the dust fell from the bar inslot, the little impurity of granule rolled down along guide plate 313, received lifter 311 in this process and received special-shaped block 32 pivoted drive U type frame 312 to vibrate guide plate 313 for in the quick landing of the little beans of granule was to discharging pipe 28, placed the household utensils of collecting beans usefulness at the lower extreme of discharging pipe and collected.

Control branch 26 is including seting up the control groove on screening support 23, and the control hole that communicates with the control groove is seted up to the left and right sides symmetry of screening support 23, installs control cylinder 261 on the inner wall of control groove, and control panel 262 is installed to the lower extreme of control cylinder 261, installs control lever 263 on the control panel 262, and control lever 263 slides and sets up in the control hole, and the upper end of control lever 263 supports and leans on filter frame 24.

After the soybeans are screened and filtered, the motor 33 is controlled to stop working, the control cylinder 261 starts to work at the moment, the control cylinder 261 drives the control plate 262 to move upwards in the working process, the control plate 262 drives the control rod 263 to extrude the filtering frame 24 upwards in the upwards moving process, and the filtering frame 24 rotates by taking the pin shaft as the center in the upwards moving process, so that the filtering frame 24 is adjusted to be in an inclined state.

The filtering branched chain 25 comprises an inner groove arranged at the lower end of the filtering frame 24, filtering holes are uniformly arranged on the filtering frame 24, through holes are symmetrically arranged at the front side and the rear side of the lower end of the filtering frame 24, a U-shaped pipe frame 252 is arranged in the through holes in a sliding manner, an adjusting spring rod 253 is arranged at the front end of the filtering frame 24, the adjusting spring rod 253 is connected with the U-shaped pipe frame 252, transverse pipe frames 254 communicated with the U-shaped pipe frame 252 are arranged on the U-shaped pipe frame 252 at equal intervals from front to back, communicating pipes 255 are arranged on the transverse pipe frames 254 at equal intervals from left to right, a circular ring block 256 is arranged on the communicating pipes 255, a circular groove is arranged on the circular ring block 256, the circular groove, the communicating pipes 255 are communicated with the transverse pipe frame 254, an adjusting piece 257 is arranged in the circular groove, a U-shaped pushing frame 258 is arranged in the U-shaped pipe frame 252 in a sliding manner, a pushing spring rod 259 is arranged at the rear end of the filtering frame 24, and the pushing spring rod 259 is connected with the U-shaped pushing frame 258, connecting transverse plates 2510 are arranged on the U-shaped pushing frame 258 at equal intervals from front to back, the connecting transverse plates 2510 are positioned in the transverse pipe frame 254, and the connecting transverse plates 2510 are connected with the adjusting piece 257;

the adjusting part 257 comprises a lifting spring rod 2571 arranged on the inner wall of the circular groove, a circular push plate 2572 is arranged on the lifting spring rod 2571, the upper end of the circular push plate 2572 is of a circular arc structure, a push rod 2573 is arranged at the lower end of the circular push plate 2572, a sliding plate 2574 is arranged in the communicating pipe 255 in a sliding mode, one end of the sliding plate 2574 extends into the transverse pipe frame 254 and is connected with the connecting transverse plate 2510, the other end of the sliding plate 2574 extends into the circular groove, one end, far away from the connecting transverse plate 2510, of the sliding plate 2574 is of a step structure, and the push rod 2573 abuts against the upper end face of the sliding plate 2574.

The left end and the right end of the screening support 23 are symmetrically provided with arc blocks 231, the thickness of each arc block 231 increases progressively along the clockwise direction, and the U-shaped pipe rack 252 and the U-shaped pushing rack 258 are respectively matched with the arc blocks 231 on the left side and the right side of the screening support 23 in movement.

Along with the change of the contact position between the U-shaped pipe frame 252 and the arc block 231 in the moving process of the filtering frame 24, the U-shaped pipe frame 252 integrally drives the transverse pipe frame 254 to move from left to right, thereby driving the circular ring block 256 connected on the transverse pipe frame 254 to move to the position right below the filtering hole, in the process, the contact position between the U-shaped pushing frame 258 and the arc block 231 is changed, at this time, the U-shaped pushing frame 258 drives the connecting cross plate 2510 to move from right to left, the connecting cross plate 2510 drives the sliding plate 2574 to move synchronously in the moving process, the sliding plate 2574 changes the contact position with the push rod 2573 in the moving process, the push rod 2573 drives the circular push plate 2572 to move upwards under the action of the sliding plate 2574, make circular push pedal 2572 stretch into in the filtration pore, can prevent that the beans card from can't discharging in the filtration pore, the effectual problem that needs the manual work to clear up of having overcome.

A guide frame 241 is arranged at one end of the filtering frame 24, which is far away from the control branched chain 26, through a pin shaft, a guide spring 242 is arranged between the guide frame 241 and the strip-shaped support plate 27, a circular tube is arranged at the lower end of the strip-shaped support plate 27, the outer wall of the guide frame 241 is connected with one end of a control rope 243, the other end of the control rope 243 penetrates through the circular tube to be connected to the control plate 262, and discharge ports are symmetrically formed at the left side and the right side of the processing frame 1;

the control cylinder 261 drives the control rope 243 to move synchronously in the process of driving the control plate 262 to move upwards, the control rope 243 pulls the guide frame 241 to turn over in the moving process, the turned guide frame 241 rotates into the discharging port, the filtering frame 24 and the guide frame 241 are both in an inclined state at the moment, bean particles in the filtering frame 24 are discharged from the discharging port under the action of the guide frame 241, and a vessel for collecting the bean particles is placed at the position of the discharging port to collect the bean particles.

step one, drying the hulled soybeans in the sun, and pouring the dried soybeans into a processing frame 1;

step two, starting the control motor 33 to drive the special-shaped block 32 to rotate, controlling the screening bracket 23 to vibrate up and down by the special-shaped block 32 through extrusion of the vibrating rod 34, driving the filtering frame 24 to rotate synchronously by the screening bracket 23, discharging dust mixed in the soybean raw material and soybeans with small particles from the filtering hole, driving the guide plate 313 to vibrate by the lifting rod 311 synchronously during rotation of the special-shaped block 32, separating the dust from the soybeans with small particles, and discharging the soybeans with small particles through the discharge pipe 28;

step three, the motor 33 is controlled to stop working after soybean particles are filtered, the control cylinder 261 is started to drive the control plate 262 to move upwards to synchronously drive the control rod 263 to extrude the filter frame 24, the filter frame 24 after extrusion rotates and is adjusted to be in an inclined state, the filter frame 24 drives the U-shaped pipe fitting and the U-shaped pushing frame 258 to be matched with the arc block 231 in the rotating process, so that the bean materials cannot be clamped by the filter holes in the filter frame 24, the control plate 262 drives the guide frame 241 to overturn to the discharge port through the control rope 243 in the moving process, and the filtered soybean particles are discharged through the discharge port.

The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes will occur to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. A bean food raw material processing device comprises a processing frame (1), wherein a screening and filtering mechanism (2) for filtering and screening soybeans is arranged in the processing frame (1), a driving mechanism (3) for driving the screening and filtering mechanism (2) to vibrate up and down is arranged in the processing frame (1), and the driving mechanism (3) is positioned on the lower side of the screening and filtering mechanism (2);

the screening and filtering mechanism (2) comprises a guide frame (21) arranged on the inner wall of a processing frame (1), the section of the guide frame (21) is a triangular mechanism, a supporting spring rod (22) is installed at the lower end of the guide frame (21), a screening support (23) is installed at the lower end of the supporting spring rod (22), the screening support (23) is of an H-shaped structure, a shunting frame (29) is arranged on the screening support (23), filtering frames (24) are symmetrically arranged at the left side and the right side of the screening support (23) through bearings, a filtering branched chain (25) is arranged at the lower end of the filtering frame (24), a control branched chain (26) is arranged in the middle of the screening support (23), strip-shaped support plates (27) are symmetrically arranged on the left side and the right side of the lower end face of the screening support (23), a reset spring (251) is arranged between the filtering frames (24) and the strip-shaped support plates (27), and discharge ports are symmetrically arranged at the left side and the right side of the processing frame (1), a discharge pipe (28) is arranged in the middle of the lower end of the processing frame (1);

actuating mechanism (3) include tripod (31) of installing between processing frame (1) front and back both sides inner wall through the bolt, be provided with special-shaped piece (32) through the bearing between the inner wall of processing frame (1), special-shaped piece (32) are located processing frame (1) inside, the front end of special-shaped piece (32) passes through the shaft coupling and links to each other with control motor (33), control motor (33) are fixed on the inner wall of processing frame (1) through the motor frame, the sliding tray has been seted up to tripod (31) front and back both ends symmetry, it is provided with vibrating arm (34) to slide in the sliding tray, the lower extreme of vibrating arm (34) supports and leans on special-shaped piece (32), the upper end of vibrating arm (34) is installed on screening support (23).

2. The raw material processing and processing equipment for the bean-made food according to claim 1, wherein the filtering branched chain (25) comprises an inner groove arranged at the lower end of the filtering frame (24), the filtering frame (24) is uniformly provided with filtering holes, the front side and the rear side of the lower end of the filtering frame (24) are symmetrically provided with through holes, a U-shaped pipe frame (252) is arranged in the through holes in a sliding manner, the front end of the filtering frame (24) is provided with an adjusting spring rod (253), the adjusting spring rod (253) is connected with the U-shaped pipe frame (252), the U-shaped pipe frame (252) is provided with transverse pipe frames (254) communicated with the U-shaped pipe frame (252) at equal intervals from front to back, the transverse pipe frames (254) are provided with communicating pipes (255) at equal intervals from left to right, the communicating pipes (255) are provided with ring blocks (256), the ring blocks (256) are provided with circular grooves, the circular grooves and the communicating pipes (255) are communicated with the transverse pipe frames (254), an adjusting piece (257) is arranged in the circular groove, a U-shaped pushing frame (258) is arranged in the U-shaped pipe frame (252) in a sliding mode, a pushing spring rod (259) is arranged at the rear end of the filtering frame (24), the pushing spring rod (259) is connected with the U-shaped pushing frame (258), connecting transverse plates (2510) are arranged on the U-shaped pushing frame (258) at equal intervals from front to back, the connecting transverse plates (2510) are located in the transverse pipe frame (254), and the connecting transverse plates (2510) are connected with the adjusting piece (257);

regulating part (257) is including setting up lift spring lever (2571) on circular groove inner wall, install circular push pedal (2572) on lift spring lever (2571), the upper end of circular push pedal (2572) is the circular arc structure, the lower extreme of circular push pedal (2572) is provided with push rod (2573), it is provided with sliding plate (2574) to slide in communicating pipe (255), the one end of sliding plate (2574) extends to in horizontal pipe support (254) and links to each other with being connected diaphragm (2510), the other end of sliding plate (2574) extends to in the circular groove, and the one end that connecting diaphragm (2510) was kept away from in sliding plate (2574) is stair structure, push rod (2573) supports and leans on the up end of sliding plate (2574).

3. The raw bean food processing equipment according to claim 2, wherein the left end and the right end of the screening bracket (23) are symmetrically provided with arc blocks (231), the thicknesses of the arc blocks (231) increase progressively along the clockwise direction, and the U-shaped pipe frame (252) and the U-shaped pushing frame (258) are respectively matched with the arc blocks (231) on the left side and the right side of the screening bracket (23) in movement.

4. The processing equipment of the raw materials for the bean-made food according to claim 3, characterized in that the control branch chain (26) comprises a control groove formed on the screening bracket (23), control holes communicated with the control groove are symmetrically formed in the left side and the right side of the screening bracket (23), a control cylinder (261) is installed on the inner wall of the control groove, a control plate (262) is installed at the lower end of the control cylinder (261), a control rod (263) is installed on the control plate (262), the control rod (263) is slidably arranged in the control holes, and the upper end of the control rod (263) abuts against the filtering frame (24).

5. The raw bean food processing equipment according to claim 4, wherein one end of the filtering frame (24) far away from the control branched chain (26) is provided with a guide frame (241) through a pin shaft, a guide spring (242) is arranged between the guide frame (241) and the strip-shaped support plate (27), the lower end of the strip-shaped support plate (27) is provided with a circular tube, the outer wall of the guide frame (241) is connected with one end of a control rope (243), and the other end of the control rope (243) penetrates through the circular tube and is connected to the control plate (262).

6. The processing equipment of the raw materials for the bean food according to claim 5, characterized in that the lower end of the tripod (31) is provided with a lifting groove, a lifting rod (311) is arranged in the lifting groove in a sliding manner, the lower end of the lifting rod (311) is provided with a U-shaped frame (312), the upper end of the lifting rod (311) is abutted against the special-shaped block (32), the lifting rod (311) between the U-shaped frame (312) and the tripod (31) is sleeved with a spring, the front side and the rear side of the inner wall of the processing frame (1) are symmetrically provided with guide plates (313) through pin shafts, the guide plates (313) are uniformly provided with strip-shaped grooves, and a guide spring (314) is arranged between the guide plates (313) and the inner wall of the processing frame (1).

7. The raw soybean food material processing apparatus according to claim 6, wherein the method for processing the raw soybean material using the raw soybean food material processing apparatus comprises the steps of;

step one, drying the hulled soybeans in the sun, and pouring the dried soybeans into a processing frame (1);

step two, a control motor (33) is started to drive a special-shaped block (32) to rotate, the special-shaped block (32) controls a screening bracket (23) to vibrate up and down through extrusion of a vibrating rod (34), the screening bracket (23) drives a filtering frame (24) to rotate synchronously, dust mixed in soybean raw materials and soybeans with small particles are discharged from a filtering hole, the special-shaped block (32) synchronously drives a guide plate (313) to shake through a lifting rod (311) in the rotation process, so that the dust is separated from the soybeans with small particles, and the soybeans with small particles are discharged through a discharge pipe (28);

step three, the soybean particles are filtered and then the motor (33) is controlled to stop working, the control cylinder (261) is started to drive the control panel (262) to move upwards to synchronously drive the control rod (263) to extrude the filtering frame (24), the filtering frame (24) after being extruded rotates and is adjusted to be in an inclined state, the filtering frame (24) drives the U-shaped pipe fitting and the U-shaped pushing frame (258) to be matched with the arc block (231) in the rotating process so that the bean materials cannot be clamped in the filtering holes in the filtering frame (24), the control panel (262) drives the guiding frame (241) to turn over to the discharging port through the control rope (243) in the motion, and the filtered soybean particles are discharged through the discharging port.