CN112428610B

CN112428610B - Bamboo shoots squeezes processingequipment

Info

Publication number: CN112428610B
Application number: CN202011191289.1A
Authority: CN
Inventors: 何震; 熊艳辉; 张德兵; 贺湘玲; 胡德合; 邓升彬
Original assignee: Taojiang Yiyanglun Ecological Food Co ltd
Current assignee: Taojiang Yiyanglun Ecological Food Co ltd
Priority date: 2020-10-30
Filing date: 2020-10-30
Publication date: 2021-07-30
Anticipated expiration: 2040-10-30
Also published as: CN112428610A

Abstract

The invention discloses a bamboo shoot squeezing processing device, which belongs to the field of food material processing and comprises a separating component, wherein a first conveying component is arranged below the separating component, a chopping component is arranged above the first conveying component, the separating component, the chopping component and the first conveying component are all independently and fixedly arranged, a second conveying component is arranged below the first conveying component, a rolling component is arranged above the second conveying component, a crystallizing component is arranged below the rolling component, the second conveying component and the crystallizing component are all independently and fixedly arranged, the separating component comprises a separating box, the separating box is fixedly arranged, a wide opening edge is arranged at the top end of the separating box, the opening at the top end of the wide opening edge is larger than the opening at the low end, the bottom end of the wide opening edge is connected with the top end of the separating box, and the end of an inclined channel is positioned right above the first conveying component, the bottom of separator box is provided with accepts the chamber. The mesh plate can separate bamboo shoots, mud blocks and sand and stones when the mesh plate shakes up and down.

Description

Bamboo shoots squeezes processingequipment

Technical Field

The invention relates to the field of food processing, in particular to a bamboo shoot squeezing processing device.

Background

With the development of industrial technology, modern people pay more and more attention to diet problems, bamboo shoots are popular food materials for modern people, young bamboo shoots are fresh and tender, but slightly mature bamboo shoots are hard and withered and are difficult to eat as food materials, so the bamboo shoots can be eaten only after being specially processed, and the existing processing of bamboo shoots needs much manpower participation, which consumes a large amount of manpower and has low working efficiency;

if the mechanical processing bamboo shoots are used, the bamboo shoots contain a lot of granular soil and sand, the sand needs to be cleaned before processing, the labor is wasted, and the bamboo shoots need to be cut into pieces before being fried so as to be sufficiently squeezed;

the squeezed bamboo shoot material is also doped with a lot of fibrous impurities, and the bamboo shoot juice needs solid-liquid separation before being squeezed to be dry, which also needs manual separation.

Disclosure of Invention

The invention aims to provide a bamboo shoot squeezing processing device, which is used for pouring bamboo shoot materials from the top end of a separation box, then a swing motor shakes through a mesh plate at the top ends of a short arm and a long arm, the shaking amplitude of the mesh plate is just the width of a discharge port, soil blocks and sand can fall into a containing cavity from the mesh plate, and bamboo shoots can fall onto a first conveying assembly from an inclined channel, so that the automatic filtering function is realized.

In order to solve the above problems, the present invention provides the following technical solutions: a bamboo shoot squeezing processing device comprises a separating component, wherein a first conveying component is arranged below the separating component, a chopping component is arranged above the first conveying component, the separating component, the chopping component and the first conveying component are all independently and fixedly installed, a second conveying component is arranged below the first conveying component, a rolling component is arranged above the second conveying component, a crystallizing component is arranged below the rolling component, the second conveying component and the crystallizing component are all independently and fixedly installed, the separating component comprises a separating box and is fixedly installed, a wide-mouth edge is installed at the top end of the separating box, the top end opening of the wide-mouth edge is larger than that of the bottom end opening, the bottom end of the wide-mouth edge is connected with the top end of the separating box, a mesh plate is installed on the inner side of the separating box, and one side of the mesh plate is connected with the inner wall of the separating box through a hinge, one side of the separation box, which is far away from the hinge, is provided with a discharge hole, an inclined channel is installed on the separation box outside the discharge hole, the end of the inclined channel is positioned right above the first conveying assembly, and the bottom end of the separation box is provided with an accommodating cavity.

Further, the one end fixed mounting that the hinge was kept away from to the mesh board has the removal articulated piece, and the separator box is close to the one side of removing articulated piece and is provided with the reservation mouth, fixed mounting has the motor of swaing on the outer wall of separator box, and the short arm is installed to the output of swaing the motor, removes the top of articulated piece and installs the long arm, and the bottom of long arm is articulated with the removal articulated piece, and the top of removing articulated piece is articulated with the end of short arm.

Further, the first conveying assembly comprises two first conveying shaft seats, the two first conveying shaft seats are fixedly installed, a first feeding roller is installed on one side of each first conveying shaft seat, the first feeding roller is connected with the first conveying shaft seats in a rotating mode, the two first feeding rollers are connected through a first conveying belt, and one first feeding roller is installed at the output end of a first feeding motor.

Further, the chopping assembly comprises a plane shaft seat and a vertical guide rail, the plane shaft seat and the vertical guide rail are respectively and fixedly installed, a vertical sliding block is installed on the vertical guide rail and is connected with the vertical guide rail in a sliding mode, the vertical sliding blocks are connected through a chopping knife, and a chopping push rod is arranged on one side of each vertical sliding block.

Further, a torsion bar is installed in the middle of the plane shaft seat and is in rotary connection with the plane shaft seat, a driven gear is fixedly installed in the middle of the torsion bar, a driving gear is installed on one side of the driven gear and is meshed with the driving gear, the driving gear is installed at the output end of the chopping motor, the chopping motor is fixedly installed, eccentric wheels are installed at two ends of the torsion bar, the axis of the eccentric wheels and the axis of the torsion bar are not on the same straight line, a swinging block is sleeved on the eccentric wheels, the top end of the swinging block is provided with a hole matched with the eccentric wheels, and the bottom end of the swinging block is provided with a hole matched with the chopping push rod.

Further, the rolling component comprises a hoisting table, the hoisting table is fixedly installed, two flanging shaft seats are fixedly installed at the top end of the hoisting table, a pressure round rod is installed in the middle of the flanging shaft seats and is rotationally connected with the flanging shaft seats, three cams are installed on the pressure round rod, the three cams deviate from each other by one hundred twenty degrees, an opening matched with the cams is formed in the middle of the hoisting table, a lower pressing plate is installed below the hoisting table, two vertical sliding round rods are arranged at the bottom end of an extending edge, openings matched with the vertical sliding round rods are formed in two ends of the lower pressing plate, the lower pressing plate is in sliding connection with the vertical sliding round rods, a limiting plate is installed at the bottom end of each vertical sliding round rod, a spring is installed on the outer side of each vertical sliding round rod, the bottom end of the spring is connected with the limiting plate, the top end of the spring is connected with the bottom surface of the lower pressing plate, and a connecting block is installed at the bottom end of the lower pressing plate, the bottom of connecting block is installed and is rolled the roller.

Furthermore, one side fixed mounting of hoist and mount platform has motor power, and the transmission wheelset is installed to motor power's output, and first drive wheel is installed to the end of pressure round bar, connects through first belt between first drive wheel and the transmission wheelset.

Further, the second conveying assembly comprises two second conveying shaft seats, the second conveying shaft seats are fixedly installed, a second feeding roller is installed on one side of each second conveying shaft seat, the second feeding roller is connected with the second conveying shaft seats in a rotating mode, the two second feeding rollers are connected through a second conveying belt, edge side flanging edges are arranged on two sides of each second conveying belt, a transmission power wheel is installed at one end of one second feeding roller, and the transmission power wheel is connected with the transmission wheel set through a second belt.

Further, the below of second conveying subassembly is provided with the unloading subassembly, and the unloading subassembly merges tub fixed mounting including merging, merges the top of managing and is provided with two unloading pipes, and two opening parts of unloading pipe set up under second conveyer belt both ends, and the bottom of merging the pipe is provided with the pipe of concentrating, and the opening part of concentrating the tub bottom is provided with the filter screen.

Further, the crystallization component comprises a nonmetal crystallization box, the nonmetal crystallization box is fixedly installed, fins are arranged on the inner side of the nonmetal crystallization box, a metal spiral pipe is arranged on the outer side of the nonmetal crystallization box, two ends of the metal spiral pipe are respectively provided with a connecting end, one end of each connecting end is connected with the bearing plate, a fan is installed on one side of the nonmetal crystallization box, the fan is independently and fixedly installed, two cantilever arms are arranged at the top end of the nonmetal crystallization box, the ends of the cantilever arms are fixedly installed through a fixed block, an arc-shaped opening pipe is arranged at the bottom end of each cantilever arm and is inserted into the inner side of the nonmetal crystallization box, a circular ring is installed on the inner side of each arc-shaped opening pipe, a plurality of blades are arranged on the outer side of the circular ring, a reserved wire groove matched with the blades is arranged on one side of each arc-shaped opening pipe, and a stirring shaft seat is fixedly installed on the top end of the circular ring, stirring motor is installed on the top of stirring axle bed, and the puddler is installed to stirring motor's output, and the bottom of puddler is installed and is hugged closely the wheel, hugs closely the inner wall of wheel laminating ring.

The invention has the beneficial effects that:

one of them, the device is when using, pours into the bamboo shoots material from the top of separator box, then sways the motor and passes through the shake of short arm and long arm top mesh board, and the range of mesh board shake is exactly the width of discharge gate, and in soil block and gravel and sand can fall into from the mesh board and accomodate the chamber, bamboo shoots can fall first conveying assembly from the slope passageway on, have realized automatic filtration's function.

When bamboo shoots run on the first conveying assembly, the chopping motor drives the torsion bar to rotate through the gear set, the torsion bar drives the vertical sliding block to move up and down through the swing block, the chopping knife can move synchronously with the swing block, the function of chopping the bamboo shoots is realized, when the chopped bamboo shoots reach the second conveying assembly, the power motor drives the three cams to synchronously rotate in a cloud mode, the cams drive the lower pressing plate to move up and down in the operation process, the grinding roller at the bottom end of the lower pressing plate moves synchronously with the lower pressing plate, and the function of automatically grinding the bamboo shoot blocks is realized.

Third, in the material after the bamboo shoots piece rolls can fall into nonmetal crystallization case through the unloading pipe, the solid organic matter in the material can be detained in the filter screen of concentrating the pipe bottom, gives metal spiral pipe and last alternating current, and the fin this moment can be heated, and the in-process that the juice boiled can be crystallized, and ring and blade can rotate the stirring in the time of preparing, have realized the function of automatic crystallization.

Its four, bamboo shoots processingequipment's separator box is used for separating bamboo shoots material and impurity, the bamboo shoots material after the separation can fall on first conveying subassembly, the subassembly of first conveying subassembly top begins to cut, the fragment after cutting changes bamboo shoots and can fall second conveying subassembly, the subassembly that rolls on the second conveying subassembly this moment can push down juice to fragment bamboo shoots, juice and solid material can fall and crystallize in the crystallization subassembly, whole process does not need artifical manual participation, the function of using manpower sparingly cost has been realized.

Drawings

FIG. 1 is a schematic front view of a bamboo shoot squeezing apparatus.

Fig. 2 is a schematic side view of the bamboo shoot squeezing processing device.

FIG. 3 is a schematic sectional view of a bamboo shoot squeezing apparatus.

Fig. 4 is a schematic sectional view of the bamboo shoot squeezing processing device from a second perspective.

FIG. 5 is a schematic view of a separating unit of the bamboo shoot squeezing processing apparatus.

FIG. 6 is a schematic view of a cutting assembly of the bamboo shoot squeezing processing device.

Fig. 7 is a schematic view of a blanking assembly of the bamboo shoot squeezing processing device.

FIG. 8 is a schematic view of a crystallization unit of the bamboo shoot squeeze processing apparatus.

Description of reference numerals:

1-separation assembly, 101-separation box, 102-wide opening edge, 103-mesh plate, 104-hinge, 105-containing cavity, 106-movable hinge block, 107-discharge opening, 108-inclined channel, 109-long arm, 110-reserved opening, 111-swing motor, 112-short arm, 2-cutting assembly, 201-plane shaft seat, 202-vertical guide rail, 203-torsion bar, 204-driven gear, 205-cutting motor, 206-driving gear, 207-vertical slider, 208-cutting knife, 209-eccentric wheel, 210-swing block, 211-cutting push rod, 3-first conveying assembly, 301-first conveying shaft seat, 302-first feeding roller, 303-first feeding motor, 304-first conveying belt, 4-rolling component, 401-lifting table, 402-flanging shaft seat, 403-pressure round bar, 404-cam, 405-first driving wheel, 406-power motor, 407-driving wheel group, 408-first belt, 409-second belt, 410-extending edge, 411-lower pressing plate, 412-vertical sliding round bar, 413-spring, 414-limiting plate, 415-connecting block, 416-rolling roller, 5-second conveying component, 501-second conveying shaft seat, 502-second feeding roller, 503-second conveying belt, 504-side flanging, 505-transmission power wheel, 6-blanking component, 601-blanking pipe, 602-merging pipe, 603-concentrating pipe, 7-crystallizing component, 701-nonmetal crystallizing box, 702-metal spiral pipe, 703-connecting end, 704-bearing plate, 705-fin, 706-cantilever arm, 707-fixed square, 708-arc opening pipe, 709-reserved wire groove, 710-ring, 711-blade, 712-stirring shaft seat, 713-stirring motor, 714-stirring rod, 715-clinging wheel and 716-fan.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

In the description of the present invention, it is to be understood that the terms "longitudinal", "lateral", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on those shown in the drawings, are merely for convenience of description of the present invention, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention.

Referring to fig. 1, 2, 3, 4, 5, 6, 7, 8, the bamboo shoot squeezing processing device comprises a separating assembly 1, a first conveying assembly 3 is arranged below the separating assembly 1, a chopping assembly 2 is arranged above the first conveying assembly 3, the separating assembly 1, the chopping assembly 2 and the first conveying assembly 3 are independently and fixedly mounted, a second conveying assembly 5 is arranged below the first conveying assembly 3, a rolling assembly 4 is arranged above the second conveying assembly 5, a crystallizing assembly 7 is arranged below the rolling assembly 4, the second conveying assembly 5 and the crystallizing assembly 7 are independently and fixedly mounted, the separating assembly 1 comprises a separating box 101, the separating box 101 is fixedly mounted, a wide-mouth edge 102 is arranged at the top end of the separating box 101, the opening of the wide-mouth edge 102 is larger than the opening of the bottom end, the bottom end of the wide-mouth edge 102 is connected with the top end of the separating box 101, mesh plate 103 is installed to separator box 101's inboard, and the inner wall connection of hinge 104 and separator box 101 is passed through to one side of mesh plate 103, one side that separator box 101 kept away from hinge 104 is provided with discharge gate 107, installs slope passageway 108 on the separator box 101 in the discharge gate 107 outside, the end of slope passageway 108 is located directly over first conveying component 3, and the bottom of separator box 101 is provided with accepts chamber 105, pours into the bamboo shoots material of treating into from separator box 101 top, then mesh plate 103 can separate bamboo shoots and bold gravel piece when rocking from top to bottom through hinge 104, and gravel piece can't go out from discharge gate 107, and bamboo shoots fall on first conveying component 3 from slope passageway 108 next to.

One end fixed mounting that hinge 104 was kept away from to mesh board 103 has removal articulated piece 106, and separation box 101 is provided with reserved mouth 110 near the one side of removing articulated piece 106, fixed mounting has swing motor 111 on the outer wall of separation box 101, and short arm 112 is installed to swing motor 111's output, and long arm 109 is installed on the top of removing articulated piece 106, and the bottom of long arm 109 is articulated with removal articulated piece 106, and the top of removing articulated piece 106 is articulated with the end of short arm 112, and swing motor 111 drives mesh board 103 through short arm 112 and long arm 109 and sways rotary motion, and swing motor 111 provides the power of motion for mesh board 103, and the range of mesh board 103 motion equals the width of discharge gate 107.

The first conveying assembly 3 comprises two first conveying shaft seats 301, the two first conveying shaft seats 301 are fixedly installed, a first feeding roller 302 is installed on one side of each first conveying shaft seat 301, the first feeding roller 302 is connected with the first conveying shaft seats 301 in a rotating mode, the two first feeding rollers 302 are connected through a first conveying belt 304, one first feeding roller 302 is installed at the output end of a first feeding motor 303, and the first feeding motor 303 provides operating power for the first conveying belt 304 through the first feeding roller 302.

The cutting assembly 2 comprises a plane shaft seat 201 and a vertical guide rail 202, the plane shaft seat 201 and the vertical guide rail 202 are respectively and fixedly installed, a vertical sliding block 207 is installed on the vertical guide rail 202, the vertical sliding block 207 is in sliding connection with the vertical guide rail 202, the vertical sliding blocks 207 are connected through a cutting knife 208, a cutting push rod 211 is arranged on one side of each vertical sliding block 207, the cutting knife 208 slides up and down along the vertical guide rail 202 through the vertical sliding block 207, and cutting is performed when the cutting knife 208 moves up and down.

The middle of the plane shaft seat 201 is provided with a torsion bar 203, the torsion bar 203 is rotationally connected with the plane shaft seat 201, the middle of the torsion bar 203 is fixedly provided with a driven gear 204, one side of the driven gear 204 is provided with a driving gear 206, the driving gear 206 is mutually meshed with the driven gear 204, the driving gear 206 is arranged at the output end of a chopping motor 205, the chopping motor 205 is fixedly arranged, two ends of the torsion bar 203 are provided with eccentric wheels 209, the axial line of the eccentric wheels 209 and the axial line of the torsion bar 203 are not on the same straight line, the eccentric wheels 209 are sleeved with swing blocks 210, the top ends of the swing blocks 210 are provided with openings matched with the eccentric wheels 209, the bottom ends of the swing blocks 210 are provided with openings matched with chopping push rods 211, the chopping motor 205 drives the torsion bar 203 to rotate through the driving gear 206 and the driven gear 204, the torsion bar 203 drives the swing blocks 210 to swing through the eccentric wheels 209, and the swing blocks 210 drive vertical sliding blocks 207 at the bottom ends, the chopping motor 205 indirectly powers the operation of the chopping knife 208.

The rolling component 4 comprises a hoisting table 401, the hoisting table 401 is fixedly installed, two flanging shaft seats 402 are fixedly installed at the top end of the hoisting table 401, a pressure round rod 403 is installed in the middle of the flanging shaft seats 402, the pressure round rod 403 is rotatably connected with the flanging shaft seats 402, three cams 404 are installed on the pressure round rod 403, the three cams 404 are deviated by one hundred twenty degrees from each other, an opening matched with the cam 404 is formed in the middle of the hoisting table 401, a lower pressing plate 411 is installed below the hoisting table 401, two vertical sliding round rods 412 are arranged at the bottom end of an extending edge 410, holes matched with the vertical sliding round rods 412 are formed in two ends of the lower pressing plate 411, the lower pressing plate 411 is slidably connected with the vertical sliding round rods 412, a limiting plate 414 is installed at the bottom end of the vertical sliding round rods 412, a spring 413 is installed outside the vertical sliding round rods 412, and the bottom end of the spring 413 is connected with the limiting plate 414, spring 413's top and holding down plate 411's bottom surface are connected, connecting block 415 is installed to holding down plate 411's bottom, and the roller 416 that rolls is installed to connecting block 415's bottom, and pressure round bar 403 and three cam 404 are in the moving time, and three cam 404 can extrude holding down plate 411 respectively, and holding down plate 411 resets through spring 413, and the roller 416 that rolls of holding down plate 411 bottom can grind the bamboo shoot piece, has realized the automatic function that rolls.

A power motor 406 is fixedly installed on one side of the hoisting table 401, a transmission wheel set 407 is installed at the output end of the power motor 406, a first transmission wheel 405 is installed at the end of the pressure round rod 403, the first transmission wheel 405 is connected with the transmission wheel set 407 through a first belt 408, and the power motor 406 provides power for the pressure round rod 403 through the first belt 408.

The second conveying assembly 5 comprises two second conveying shaft seats 501, the second conveying shaft seats 501 are fixedly installed, a second feeding roller 502 is installed on one side of each second conveying shaft seat 501, the second feeding roller 502 is connected with the second conveying shaft seats 501 in a rotating mode, the two second feeding rollers 502 are connected through a second conveying belt 503, side flanges 504 are arranged on two sides of the second conveying belt 503, a transmission power wheel 505 is installed at one end of one second feeding roller 502, the transmission power wheel 505 is connected with the transmission wheel set 407 through a second belt 409, the power motor 406 supplies power to the pressure round rod 403 through a first belt 408, the power motor 406 also drives the second conveying assembly 5 to operate through the transmission power wheel 505, only one power source is needed to be used for the second conveying assembly 5 and the rolling assembly 4, and power source equipment is saved.

The below of second conveying assembly 5 is provided with unloading subassembly 6, unloading subassembly 6 is including merging pipe 602, merge pipe 602 fixed mounting, the top of merging pipe 602 is provided with two unloading pipes 601, two openings of unloading pipe 601 set up under second conveyer belt 503 both ends, the bottom of merging pipe 602 is provided with concentration pipe 603, the opening part of concentration pipe 603 bottom is provided with the filter screen, bamboo shoots juice and residue after rolling can fall down from two unloading pipes 601, but juice can only fall down from one of them unloading pipe 601, solid material can be detained in the filter screen of concentration pipe 603 bottom, but the material of liquid can only fall down from one can concentrate pipe 603.

Crystallization subassembly 7 includes nonmetal crystallization case 701, nonmetal crystallization case 701 fixed mounting, nonmetal crystallization case 701's inboard is provided with fin 705, and nonmetal crystallization case 701's the outside is provided with metal spiral pipe 702, and two ends of metal spiral pipe 702 all are provided with connection end 703, and connection end 703 one end all is connected with loading board 704, fan 716 is installed to nonmetal crystallization case 701's one side, and fan 716 is independent fixed mounting, and after the material of liquid fell into nonmetal crystallization case 701 inner wall, give metal spiral pipe 702 again with last alternating current, metal spiral pipe 702 can heat fin 705 and boil liquid, and fan 716 can accelerate the air flow for the moisture evaporation.

The top end of the nonmetal crystallization box 701 is provided with two cantilever arms 706, the tips of the cantilever arms 706 are fixedly installed through a fixing block 707, the bottom end of the cantilever arms 706 is provided with an arc-shaped open pipe 708, the arc-shaped open pipe 708 is inserted into the nonmetal crystallization box 701, a circular ring 710 is installed on the inner side of the arc-shaped open pipe 708, the outer side of the circular ring 710 is provided with a plurality of blades 711, one side of the arc-shaped open pipe 708 is provided with a reserved wire groove 709 matched with the blades 711, the circular ring 710 is hoisted through the arc-shaped open pipe 708, the joint of the blades 711 and the circular ring 710 can penetrate through the reserved wire groove 709, the blades 711 and the circular ring 710 can stir materials when rotating, the liquid materials can be stirred while being boiled, the crystallization efficiency is increased, and the time is saved.

The top end of the circular ring 710 is fixedly provided with a stirring shaft seat 712, the top end of the stirring shaft seat 712 is provided with a stirring motor 713, the output end of the stirring motor 713 is provided with a stirring rod 714, the bottom end of the stirring rod 714 is provided with a clinging wheel 715, the clinging wheel 715 is clinging to the inner wall of the circular ring 710, when the top end of the stirring motor 713 is clinging to the wheel 715 to rotate, the clinging wheel 715 rotates through the top end of the circular ring 710 with the friction force of the inner wall of the circular ring 710, and the stirring motor 713 indirectly provides rotating power for the.

Finally, bamboo shoot material to be processed is poured into the separating box 101 from the top end, then the mesh plate 103 can separate bamboo shoots and large blocks of sand stone blocks when swinging up and down through the hinge 104, the sand stone blocks cannot go out from the discharge port 107, the bamboo shoots fall onto the first conveying assembly 3 from the inclined channel 108, the swinging motor 111 drives the mesh plate 103 to swing and rotate through the short arm 112 and the long arm 109, the swinging motor 111 provides motive power for the mesh plate 103, the moving amplitude of the mesh plate 103 is equal to the width of the discharge port 107, the first feeding motor 303 provides motive power for the first conveying belt 304 through the first feeding roller 302, the cutting knife 208 slides up and down along the vertical guide rail 202 through the vertical sliding block 207, the cutting knife 208 performs cutting when moving up and down, the cutting motor 205 drives the torsion bar 203 to rotate through the driving gear 206 and the driven gear 204, the torsion bar 203 drives the swinging block 210 to swing through the eccentric wheel 209, the swinging block 210 can drive the vertical sliding block 207 at the bottom end to slide, the chopping motor 205 indirectly provides operating power for the chopping knife 208, when the pressure round bar 403 and the three cams 404 operate, the three cams 404 can respectively press the lower pressing plate 411, the lower pressing plate 411 is reset through the springs 413, the grinding roller 416 at the bottom end of the lower pressing plate 411 can grind bamboo shoots, the automatic grinding function is realized, the power motor 406 can drive the pressure round bar 403 through the first belt 408, meanwhile, the power motor 406 can drive the second conveying assembly 5 to operate through the transmission power wheel 505, only one power source is needed by the second conveying assembly 5 and the grinding assembly 4, the power source equipment is saved, bamboo shoot juice and residues after grinding can fall from the two blanking pipes 601, but juice can only fall from one of the blanking pipes 601, solid materials can be retained in a filter screen at the bottom end of the concentration pipe 603, but liquid materials can only fall from one concentration pipe 603, after the liquid materials fall into the inner wall of the nonmetal crystallization box 701, alternating current is supplied to the metal spiral pipe 702, the metal spiral pipe 702 can heat the fins 705 and boil the liquid, the fan 716 can accelerate air flow and accelerate water evaporation, the joint of the blades 711 and the ring 710 can penetrate through the reserved wire groove 709, the blades 711 and the ring 710 can stir the materials when rotating, the liquid materials can be stirred when being boiled, the crystallization efficiency is increased, the time is saved, when the top end of the stirring motor 713 is tightly attached to the wheel 715 to rotate, the top end ring 710 rotates through the friction force between the top end of the wheel 715 and the inner wall of the ring 710, and the stirring motor 713 indirectly provides rotating power for the ring 710.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the technical scope of the present invention, so that any minor modifications, equivalent changes and modifications made to the above embodiment according to the technical spirit of the present invention are within the technical scope of the present invention.

Claims

1. The utility model provides a bamboo shoots squeezes processingequipment which characterized in that: the device comprises a separation assembly (1), a first conveying assembly (3) is installed below the separation assembly (1), a chopping assembly (2) is installed above the first conveying assembly (3), the separation assembly (1), the chopping assembly (2) and the first conveying assembly (3) are all independently and fixedly installed, a second conveying assembly (5) is installed below the first conveying assembly (3), a rolling assembly (4) is installed above the second conveying assembly (5), a crystallization assembly (7) is installed below the rolling assembly (4), the second conveying assembly (5) and the crystallization assembly (7) are all independently and fixedly installed, the separation assembly (1) comprises a separation box (101) and is fixedly installed on the separation box (101), a wide-mouth edge (102) is installed at the top end of the separation box (101), and the top end opening of the wide-mouth edge (102) is larger than the bottom end opening, the bottom end of the wide-mouth edge (102) is connected with the top end of the separation box (101), a mesh plate (103) is installed on the inner side of the separation box (101), one side of the mesh plate (103) is connected with the inner wall of the separation box (101) through a hinge (104), a discharge hole (107) is formed in one side, away from the hinge (104), of the separation box (101), an inclined channel (108) is installed on the separation box (101) on the outer side of the discharge hole (107), the end of the inclined channel (108) is located right above the first conveying assembly (3), and an accommodating cavity (105) is formed in the bottom end of the separation box (101); the rolling component (4) comprises a hoisting table (401), the hoisting table (401) is fixedly installed, two flanging shaft seats (402) are fixedly installed at the top end of the hoisting table (401), a pressure round rod (403) is installed in the middle of the flanging shaft seats (402), the pressure round rod (403) is rotatably connected with the flanging shaft seats (402), three cams (404) are installed on the pressure round rod (403), the three cams (404) deviate one hundred twenty degrees from each other, an opening matched with the cams (404) is formed in the middle of the hoisting table (401), a lower pressing plate (411) is installed below the hoisting table (401), two vertical sliding round rods (412) are arranged at the bottom end of an extending edge (410), openings matched with the vertical sliding round rods (412) are formed in the two ends of the lower pressing plate (411), the lower pressing plate (411) is slidably connected with the vertical sliding round rods (412), and a limiting plate (414) is installed at the bottom end of the vertical sliding round rods (412), spring (413) are installed in the outside of vertical round bar (412) that slides, and the bottom and limiting plate (414) of spring (413) are connected, and the top of spring (413) and the bottom surface of holding down plate (411) are connected, connecting block (415) are installed to the bottom of holding down plate (411), and roll roller (416) are installed to the bottom of connecting block (415).

2. The bamboo shoot squeezing processing device according to claim 1, characterized in that: one end fixed mounting that hinge (104) was kept away from in mesh board (103) has removal articulated piece (106), and separator box (101) are close to the one side of removing articulated piece (106) and are provided with and reserve mouthful (110), fixed mounting has on the outer wall of separator box (101) and sways motor (111), and short arm (112) are installed to the output of swaying motor (111), and long arm (109) are installed on the top of removing articulated piece (106), and the bottom of long arm (109) is articulated with removal articulated piece (106), and the top of removing articulated piece (106) is articulated with the end of short arm (112).

3. The bamboo shoot squeezing processing device according to claim 1, characterized in that: the first conveying assembly (3) comprises two first conveying shaft seats (301), the two first conveying shaft seats (301) are fixedly installed, a first feeding roller (302) is installed on one side of each first conveying shaft seat (301), the first feeding roller (302) is rotatably connected with the first conveying shaft seats (301), the two first feeding rollers (302) are connected through a first conveying belt (304), and one first feeding roller (302) is installed at the output end of a first feeding motor (303).

4. The bamboo shoot squeezing processing device according to claim 1, characterized in that: the chopping assembly (2) comprises a plane shaft seat (201) and a vertical guide rail (202), wherein the plane shaft seat (201) and the vertical guide rail (202) are respectively and fixedly installed, a vertical sliding block (207) is installed on the vertical guide rail (202), the vertical sliding block (207) is in sliding connection with the vertical guide rail (202), the vertical sliding blocks (207) are connected through a chopping knife (208), and a chopping push rod (211) is arranged on one side of the vertical sliding block (207).

5. The bamboo shoot squeezing processing device according to claim 4, characterized in that: a torsion bar (203) is arranged in the middle of the plane shaft seat (201), the torsion bar (203) is rotationally connected with the plane shaft seat (201), the middle of the torsion bar (203) is fixedly provided with a driven gear (204), one side of the driven gear (204) is provided with a driving gear (206), the driving gear (206) and the driven gear (204) are mutually meshed, the driving gear (206) is arranged at the output end of the chopping motor (205), the chopping motor (205) is fixedly arranged, two ends of the torsion bar (203) are provided with eccentric wheels (209), the axis of the eccentric wheels (209) and the axis of the torsion bar (203) are not on the same straight line, the eccentric wheels (209) are sleeved with swing blocks (210), the top ends of the swing blocks (210) are provided with holes matched with the eccentric wheels (209), and the bottom ends of the swing blocks (210) are provided with holes matched with the chopping push rods (211).

6. The bamboo shoot squeezing processing device according to claim 1, characterized in that: one side fixed mounting of hoist and mount platform (401) has power motor (406), and transmission wheelset (407) are installed to the output of power motor (406), and first drive wheel (405) are installed to the end of pressure round bar (403), connect through first belt (408) between first drive wheel (405) and the transmission wheelset (407).

7. The bamboo shoot squeezing processing device according to claim 1, characterized in that: the second conveying assembly (5) comprises two second conveying shaft seats (501), the second conveying shaft seats (501) are fixedly installed, a second feeding roller (502) is installed on one side of each second conveying shaft seat (501), the second feeding roller (502) is rotatably connected with the second conveying shaft seats (501), the two second feeding rollers (502) are connected through a second conveying belt (503), side flanging (504) are arranged on two sides of the second conveying belt (503), a transmission power wheel (505) is installed at one end of one second feeding roller (502), and the transmission power wheel (505) is connected with the transmission wheel set (407) through a second belt (409).

8. The bamboo shoot squeezing processing device according to claim 1, characterized in that: the below of second conveying subassembly (5) is provided with unloading subassembly (6), and unloading subassembly (6) are including merging pipe (602), merge pipe (602) fixed mounting, and the top of merging pipe (602) is provided with two unloading pipe (601), and two openings part settings of unloading pipe (601) are under second conveyer belt (503) both ends, and the bottom of merging pipe (602) is provided with and concentrates pipe (603), and the opening part of concentrating pipe (603) bottom is provided with the filter screen.

9. The bamboo shoot squeezing processing device according to claim 1, characterized in that: the crystallization assembly (7) comprises a nonmetal crystallization box (701), the nonmetal crystallization box (701) is fixedly installed, fins (705) are arranged on the inner side of the nonmetal crystallization box (701), a metal spiral pipe (702) is arranged on the outer side of the nonmetal crystallization box (701), two ends of the metal spiral pipe (702) are respectively provided with a connecting end (703), one end of each connecting end (703) is connected with a bearing plate (704), a fan (716) is installed on one side of the nonmetal crystallization box (701), the fan (716) is independently and fixedly installed, two cantilever arms (706) are arranged at the top end of the nonmetal crystallization box (701), the ends of the cantilever arms (706) are fixedly installed through a fixing block (707), an arc-shaped open pipe (708) is arranged at the bottom end of each cantilever arm (706), the arc-shaped open pipe (708) penetrates through the inner side of the nonmetal crystallization box (701), and a circular ring (710) is installed on the inner side of the arc-shaped open pipe (708), the outside of ring (710) is provided with a plurality of blade (711), and one side of arc opening pipe (708) is provided with and leaves (711) assorted reservation wire casing (709), the top fixed mounting of ring (710) has agitator shaft seat (712), and agitator motor (713) are installed to the top of agitator shaft seat (712), and puddler (714) are installed to agitator motor (713)'s output, and wheel (715) are hugged closely to the bottom of puddler (714), hug closely the inner wall of wheel (715) laminating ring (710).