CN112386493A - Shayue jumping donkey-hide gelatin pearl processing apparatus - Google Patents

Abstract

The invention relates to the field of donkey-hide gelatin, in particular to a jerking type donkey-hide gelatin bead processing device. The invention aims to provide a jerking type donkey-hide gelatin bead processing device. The technical scheme is as follows: a jerking type donkey-hide gelatin pearl processing device comprises a working table plate, supporting foot columns, an operation control screen, a frying system and the like; the upper part of the supporting leg column is welded with the working bedplate; the operation control screen is connected with the workbench plate. The automatic stirring and flattening device realizes automatic stirring and flattening of the upper layer part of the stacked donkey-hide gelatin cubes in the frying process, so that the donkey-hide gelatin cubes are kept heated in a single layer, are uniformly and uniformly expanded, the pressed donkey-hide gelatin cubes are prevented from being expanded into beads normally, meanwhile, the donkey-hide gelatin beads are separated from clam powder by vibration, the effect of separating the powder is enhanced by landing vibration, meanwhile, the phenomenon that the donkey-hide gelatin beads collide with the edge surface of the powder outlet and are damaged is avoided, and the effect of round and complete donkey-hide gelatin beads is obtained.

Description

Shayue jumping donkey-hide gelatin pearl processing apparatus

Technical Field

The invention relates to the field of donkey-hide gelatin, in particular to a jerking type donkey-hide gelatin bead processing device.

Background

The colla Corii Asini beads are prepared by parching colla Corii Asini with pulvis Concha Mactrae to bead shape, and have reduced greasy property, and can be conveniently pulverized or decocted in decoction. Simultaneously, the side effect of stomach obstruction is reduced, the effects of nourishing yin and moistening lung are enhanced, and the bad smell is corrected. The existing donkey-hide gelatin beads are prepared by placing clam powder in an iron pan, heating with strong fire until the clam powder is in a vortex flexible state, adding diced donkey-hide gelatin, continuously stirring until the diced donkey-hide gelatin is expanded to be in a ball shape, taking out the diced donkey-hide gelatin at a high speed without sugar inside, sieving the clam powder, and airing. The above method can effectively obtain donkey-hide gelatin beads.

At present, in the prior art, in the mixed frying process of the donkey-hide gelatin beads and the clam meal, the frying plate pushes the donkey-hide gelatin cubes to move, when the number of the donkey-hide gelatin cubes is large, the donkey-hide gelatin cubes which move can be stacked on the plate surface, the frying number is limited, if the donkey-hide gelatin cubes are too large, the spherical donkey-hide gelatin beads are easily flattened in the frying process, bubbles are influenced, malformation is caused, or heating is not uniform, and finally the donkey-hide gelatin beads are not uniformly expanded to obtain round donkey-hide gelatin beads.

In order to solve the problems, a shaking jump type donkey-hide gelatin bead processing device is provided.

Disclosure of Invention

In order to overcome the defects, the invention aims to provide a jerking type donkey-hide gelatin bead processing device.

The technical scheme is as follows: a shaking jump type donkey-hide gelatin bead processing device comprises a working table plate, supporting foot columns, an operation control screen, a frying system, a dumping control system and a clam powder separation system; a work table; the upper part of the supporting foot column is welded with the working bedplate; the operation control screen is connected with the working table plate; the lower part of the frying system is connected with the dumping control system; the lower part of the dumping control system is connected with the working table plate; the clam powder separating system, the clam powder separating system and the dumping control system are connected with the working table plate.

In addition, particularly preferably, the stir-frying system comprises a fixed sealing cover, a first rotating shaft rod, a first driving wheel, a second driving wheel, a stir-frying barrel, a four-edge slot drum, a first stir-frying layering mechanism, a second stir-frying layering mechanism, a third stir-frying layering mechanism, a fourth stir-frying layering mechanism, a toothed ring and a four-edge jack; the fixed sealing cover is rotationally connected with the first rotating shaft rod and is connected with the dumping control system; the outer surface of the first rotating shaft rod is fixedly connected with the first driving wheel; the outer ring surface of the first driving wheel is in transmission connection with the second driving wheel through a belt; the axle center of the second driving wheel is connected with the dumping control system; the upper part of the frying barrel is in contact with the fixed sealing cover, and the frying barrel is connected with the dumping control system; the lower part of the quadrangular slot cylinder is fixedly connected with the frying barrel; the first shifting layering mechanism is fixedly connected with the first rotating shaft rod; the second shifting layering mechanism is fixedly connected with the first rotating shaft rod; the third shifting layering mechanism is fixedly connected with the first rotating shaft rod; the fourth shifting layering mechanism is fixedly connected with the first rotating shaft rod; the outer ring surface of the gear ring is sequentially meshed with the first stirring layering mechanism, the second stirring layering mechanism, the third stirring layering mechanism and the fourth stirring layering mechanism; the upper part of the quadrangular inserting column is fixedly connected with the gear ring, and the quadrangular inserting column is spliced with the quadrangular inserting groove barrel.

Furthermore, it is particularly preferred that the dumping control system comprises a power motor, a second rotating shaft rod, a first bevel gear, a third transmission wheel, a second bevel gear, a first bearing seat, a fourth transmission wheel, a third bevel gear, a second bearing seat, a fourth bevel gear, a third rotating shaft rod, a fifth transmission wheel, a sixth transmission wheel, a fifth bevel gear, a first telescopic rotating shaft, a first bearing sleeve plate, a first electric push rod, a third bearing seat, a seventh transmission wheel, an eighth transmission wheel, a first aggregation plate, a fourth rotating shaft rod, a ninth transmission wheel, a sixth bevel gear, a fifth rotating shaft rod, a tenth transmission wheel, an eleventh transmission wheel, a sixth rotating shaft rod, a fourth rotating shaft rod and a lifting control mechanism; the output shaft of the power motor is fixedly connected with the second rotating shaft rod, and the lower part of the power motor is connected with the working table plate; the outer surface of the second rotating shaft rod is fixedly connected with the first bevel gear, the third transmission wheel, the second bevel gear, the fourth transmission wheel and the third bevel gear in sequence; the first bevel gear is meshed with the fifth bevel gear; the third driving wheel is connected with the lifting control mechanism; the second bevel gear is meshed with the sixth bevel gear; the inner side of the first bearing seat is rotationally connected with the second rotating shaft rod, and the lower part of the first bearing seat is connected with the working table plate; the fourth driving wheel is connected with the lifting control mechanism; the third bevel gear is meshed with the fourth bevel gear; the second bearing seat is rotatably connected with the second rotating shaft rod, and the lower part of the second bearing seat is connected with the workbench plate; the axle center of the fourth bevel gear is fixedly connected with the third rotating shaft rod; the third rotating shaft rod is rotationally connected with the second bearing seat; the axis of the fifth driving wheel is fixedly connected with the third rotating shaft rod; the outer ring surface of the sixth driving wheel is in transmission connection with the fifth driving wheel through a belt, and the axis of the sixth driving wheel is connected with the clam powder separating system; the axis of the fifth bevel gear is fixedly connected with the first telescopic rotating shaft; the outer surface of the first telescopic rotating shaft is rotatably connected with the first bearing sleeve plate; the first bearing sleeve plate is connected with the first electric push rod; the upper part of the first electric push rod is fixedly connected with the third bearing seat; the third bearing seat is rotatably connected with the first telescopic rotating shaft; the axis of the seventh driving wheel is fixedly connected with the first telescopic rotating shaft; the outer ring surface of the eighth driving wheel is in transmission connection with the seventh driving wheel through a belt; the first gathering plate is rotatably connected with the fourth rotating shaft rod, and the lower part of the first gathering plate is connected with the working table plate; the outer surface of the fourth rotating shaft rod is fixedly connected with the eighth driving wheel; the axis of the ninth driving wheel is fixedly connected with the fourth rotating shaft rod; the axis of the sixth bevel gear is fixedly connected with the fifth rotating shaft rod; the outer surface of the fifth rotating shaft rod is rotationally connected with the first bearing seat; the axle center of the tenth driving wheel is fixedly connected with the fifth rotating shaft rod; the outer ring surface of the eleventh driving wheel is in transmission connection with the tenth driving wheel through a belt; the outer surface of the sixth rotating shaft rod is fixedly connected with an eleventh driving wheel, the lower part of the sixth rotating shaft rod is rotatably connected with the first bearing seat, and the sixth rotating shaft rod is fixedly connected with the second driving wheel; the inner side of the fourth bearing seat is rotationally connected with the sixth rotating shaft rod; and the lifting control mechanism is welded with the fourth bearing seat, is connected with the ninth driving wheel, is connected with the first gathering plate, is connected with the fixed sealing cover and is connected with the stir-frying barrel.

In addition, particularly preferably, the clam powder separating system comprises a first bearing frame plate, a seventh rotating shaft rod, a twelfth driving wheel, a first cam, a first linkage frame, a first connecting column, a first limiting sliding frame, a screening frame, a collecting box, a second connecting column, a second limiting sliding frame, a second bearing frame plate, a second linkage frame, a second cam, an eighth rotating shaft rod, a thirteenth driving wheel, a poking comb strip and a round hole plate; the first bearing frame plate is rotatably connected with the seventh rotating shaft rod, and the lower part of the first bearing frame plate is connected with the working bedplate; the outer surface of the seventh rotating shaft rod is fixedly connected with the twelfth driving wheel; the outer ring surface of the twelfth driving wheel is in transmission connection with the thirteenth driving wheel through a belt; the first cam is fixedly connected with the seventh rotating shaft rod; the inner side of the first linkage frame is in transmission connection with the first cam; the first connecting column is welded with the first linkage frame; the inner side of the first limiting sliding frame is connected with the first connecting column in a sliding mode, and the first limiting sliding frame is welded with the first bearing frame plate; the screening frame is welded with the first connecting column, and a collecting box is arranged below the screening frame; the lower part of the collecting box is connected with the working table plate; the second connecting column is welded with the screening frame; the inner side of the second limiting sliding frame is in sliding connection with the second connecting column; the second bearing frame plate is welded with the second limiting sliding frame, and the lower part of the second bearing frame plate is connected with the working table plate; the second linkage frame is welded with the second connecting column; the outer side of the second cam is in transmission connection with the second linkage frame; the eighth rotating shaft rod is fixedly connected with the second cam, the outer surface of the eighth rotating shaft rod is rotatably connected with the second bearing frame plate, and the eighth rotating shaft rod is fixedly connected with the sixth driving wheel; the shaft center of the thirteenth driving wheel is fixedly connected with the eighth rotating shaft rod; poking the sliver, wherein the poking sliver is in sliding connection with the screening frame; and the round hole plate is welded with the screening frame.

In addition, it is particularly preferable that the first toggle layering mechanism comprises a toggle fan plate, a fifth bearing seat, a fourteenth driving wheel, a seventh bevel gear, a sixth bearing seat, an eighth bevel gear, a first flat gear, a sliding toggle bar, an impact strip plate, a fifteenth driving wheel, a ninth rotating shaft rod, a seventh bearing seat, a third cam, a fourth cam, a spring limiting sliding sleeve frame and an eighth bearing seat; the toggle fan plate is connected with the fifth bearing seat through a bolt and is fixedly connected with the first rotating shaft rod; the fifth bearing seat is rotationally connected with the fourteenth driving wheel; the shaft center of the fourteenth driving wheel is fixedly connected with the seventh bevel gear; the axis of the seventh bevel gear is rotationally connected with the sixth bearing seat; the sixth bearing seat is in bolted connection with the toggle fan plate; the axis of the eighth bevel gear is rotationally connected with the sixth bearing seat, and the eighth bevel gear is meshed with the seventh bevel gear; the axis of the first flat gear is fixedly connected with the eighth bevel gear, the axis of the first flat gear is rotatably connected with the fifth bearing seat, and the first flat gear is meshed with the gear ring; the sliding toggle bar is connected with the spring limiting sliding sleeve frame; the impact batten is welded with the sliding toggle strip; the outer ring surface of the fifteenth driving wheel is in transmission connection with the fourteenth driving wheel through a belt; the outer surface of the ninth rotating shaft rod is fixedly connected with the fifteenth driving wheel; the seventh bearing seat is rotatably connected with the ninth rotating shaft rod and is fixedly connected with the toggle fan plate; the third cam is fixedly connected with the ninth rotating shaft rod; the fourth cam is fixedly connected with the ninth rotating shaft rod; the spring limiting sliding sleeve frame is fixedly connected with the toggle fan plate; and the eighth bearing seat is rotatably connected with the ninth rotating shaft rod and is fixedly connected with the toggle fan plate.

In addition, it is particularly preferable that the lifting control mechanism includes a first collecting frame, a first lead screw, a first internal thread sliding block, a second flat gear, a first arc-shaped fixing plate, a tenth rotating shaft rod, a sixteenth driving wheel, a seventeenth driving wheel, an eighteenth driving wheel, a tenth rotating shaft rod, a second lead screw, a second internal thread sliding block, a third flat gear, a second arc-shaped fixing plate, a fourth flat gear, a second collecting frame, a nineteenth driving wheel, a fifth flat gear, a twentieth driving wheel and a third collecting frame; the first collecting frame is rotatably connected with the first screw rod, the first collecting frame is connected with the fixed sealing cover, and the lower part of the first collecting frame is welded with the first collecting plate; the outer surface of the first screw rod is in sliding connection with the first internal thread sliding block; the first internal thread sliding block is rotationally connected with the second flat gear; the axle center of the second flat gear is fixedly connected with the first arc-shaped fixing plate; the first arc-shaped fixing plate is connected with the frying barrel; the upper part of the tenth rotating shaft rod is fixedly connected with the first screw rod, and the lower part of the tenth rotating shaft rod is rotatably connected with the first collecting plate; the shaft center of the sixteenth driving wheel is fixedly connected with the tenth rotating shaft rod; the shaft center of the seventeenth driving wheel is fixedly connected with the tenth rotating shaft rod, and the outer ring surface of the seventeenth driving wheel is in transmission connection with the ninth driving wheel through a belt; the outer ring surface of the eighteenth driving wheel is in transmission connection with the sixteenth driving wheel through a belt; the outer surface of the eleventh rotating shaft rod is fixedly connected with the eighteenth driving wheel; the lower part of the eleventh rotating shaft rod is rotationally connected with the first gathering plate; the lower part of the second screw rod is fixedly connected with the eleventh rotating shaft rod; the inner side of the second internal thread sliding block is in sliding connection with the second screw rod; the axis of the third flat gear is rotationally connected with the second internal thread sliding block; the second arc-shaped fixing plate is fixedly connected with the third flat gear, a fourth flat gear is arranged below the second arc-shaped fixing plate, and the second arc-shaped fixing plate is connected with the frying barrel; the fourth flat gear is rotationally connected with the second collecting frame; the lower part of the second collecting frame is welded with the first collecting plate; the shaft center of the nineteenth driving wheel is fixedly connected with the fourth flat gear, and the outer ring surface of the nineteenth driving wheel is in transmission connection with the fourth driving wheel through a belt; the fifth flat gear is rotationally connected with the second collecting frame; the shaft center of the twentieth driving wheel is fixedly connected with the fifth flat gear, and the outer ring surface of the twentieth driving wheel is in transmission connection with the third driving wheel through a belt; and the third collecting frame is rotatably connected with the second screw rod, the lower part of the third collecting frame is welded with the first collecting plate, and the third collecting frame is connected with the fixed sealing cover.

Furthermore, it is particularly preferred that a string is arranged above the circular orifice plate.

Furthermore, it is particularly preferred that the edge of the sieving frame in sliding connection with the poking comb strip is provided with a rubber strip.

Has the advantages that: (1) in order to solve the problems that in the prior art, in the mixed frying process of the donkey-hide gelatin beads and the clam meal, the donkey-hide gelatin cubes are pushed to move due to the fact that the frying plate is turned over, when the number of the donkey-hide gelatin cubes is large, the donkey-hide gelatin cubes which can move are stacked on the plate surface, the frying number is limited, if the donkey-hide gelatin cubes are too large, the spherical donkey-hide gelatin beads are prone to being flattened in the turning and frying process, bubbling is influenced, malformation or heating is uneven, and finally the donkey-hide gelatin beads are uneven in expansion and cannot obtain round donkey-hide gelatin beads.

(2) Design the system of frying, empty control system and clam meal piece-rate system, add the clam meal to stir-fry system inside at first when using, add the donkey-hide gelatin butyl after heating, fry the system to the donkey-hide gelatin butyl, expand into the donkey-hide gelatin pearl until the donkey-hide gelatin butyl, then drive through empting control system and fry the system and move down this moment, and drive and fry the system and overturn, and then fry the system and empty its inside donkey-hide gelatin pearl and clam meal to clam meal piece-rate system inside, then clam meal piece-rate system separates the some clam meal of donkey-hide gelatin pearl surface adhesion.

(3) The utility model discloses a donkey-hide gelatin piece, including donkey-hide gelatin piece, donkey-hide gelatin piece upper portion, the donkey-hide gelatin piece is equipped with the mouth piece, realized piling up the automation of donkey-hide gelatin piece upper portion and stir the shop flat to stir-fry system in-process, make the donkey-hide gelatin piece keep the individual layer to be heated, make it be heated even inflation, prevent to be pressed the unable normal inflation pearl of donkey-hide gelatin piece, utilize vibration to separate donkey-hide gelatin pearl and clam shell powder simultaneously, utilize the vibrations that fall to the ground to strengthen the effect of separation powder, avoid simultaneously that the donkey-hide gelatin pearl knocks down the.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic perspective view of the frying system of the present invention;

FIG. 3 is a schematic perspective view of a first portion of the cooking system of the present invention;

FIG. 4 is a perspective view of a second portion of the cooking system of the present invention;

FIG. 5 is a perspective view of a third portion of the cooking system of the present invention;

FIG. 6 is a schematic perspective view of a dump control system according to the present invention;

FIG. 7 is a schematic perspective view of a clam powder separation system of the present invention;

FIG. 8 is a schematic perspective view of a portion of the clam-shell separation system of the present invention;

FIG. 9 is a schematic view of a first three-dimensional structure of a first toggle layering mechanism of the present invention;

FIG. 10 is a schematic view of a second perspective structure of the first toggle layering mechanism of the present invention;

fig. 11 is a schematic perspective view of the lift control mechanism of the present invention.

In the figure: 1. a working table plate, 2, a supporting foot column, 3, an operation control screen, 4, a frying system, 5, a pouring control system, 6, a clam powder separating system, 401, a fixed sealing cover, 402, a first rotating shaft rod, 403, a first driving wheel, 404, a second driving wheel, 405, a frying barrel, 406, a four-edge slot barrel, 407, a first toggle layering mechanism, 408, a second toggle layering mechanism, 409, a third toggle layering mechanism, 4010, a fourth toggle layering mechanism, 4011, a gear ring, 4012, a four-edge slot barrel, 501, a power motor, 502, a second rotating shaft rod, 503, a first bevel gear, 504, a third driving wheel, 505, a second bevel gear, 506, a first bearing seat, 507, a fourth driving wheel, 508, a third bevel gear, 509, a second bearing seat, 5010, a fourth bevel gear, 5011, a third rotating shaft rod, 5012, a fifth driving wheel, 5013, a sixth driving wheel, 5014 and a fifth bevel gear, 5015. a first telescopic rotating shaft, 5016, a first bearing sleeve plate, 5017, a first electric push rod, 5018, a third bearing seat, 5019, a seventh driving wheel, 5020, an eighth driving wheel, 5021, a first collecting plate, 5022, a fourth rotating shaft rod, 5023, a ninth driving wheel, 5024, a sixth bevel gear, 5025, a fifth rotating shaft rod, 5026, a tenth driving wheel, 5027, an eleventh driving wheel, 5028, a sixth rotating shaft rod, 5029, a fourth bearing seat, 5030, a lifting control mechanism, 601, a first bearing frame plate, 602, a seventh rotating shaft rod, 603, a twelfth driving wheel, 604, a first cam, 605, a first linkage frame, 606, a first connecting column, 607, a first limiting sliding frame, 608, a sieving frame, a 609, a collecting box, 6010, a second connecting column, 6011, a second limiting sliding frame, 6012, a second bearing frame, 6013, a second linkage frame, 6014, a thirteenth driving wheel, 6015, an eighth rotating shaft rod, 6016, 6017. a poking comb strip, 6018, a circular hole plate, 40701, a poking fan plate, 40702, a fifth bearing seat, 40703, a fourteenth driving wheel, 40704, a seventh bevel gear, 40705, a sixth bearing seat, 40706, an eighth bevel gear, 40707, a first flat gear, 40708, a sliding poking strip, 40709, an impact strip, 40710, a fifteenth driving wheel, 40711, a ninth rotating shaft rod, 40712, a seventh bearing seat, 40713, a third cam, 40714, a fourth cam, 40715, a spring-limited sliding sleeve frame, 40716, an eighth bearing seat, 503001, a first collecting frame, 503002, a first screw rod, 503003, a first internal thread sliding block, 503004, a second flat gear, 503005, a first arc-shaped fixing plate, 503006, a tenth rotating shaft rod, 503007, a sixteenth driving wheel, 503008, a seventeenth driving wheel, 503009, an eighteenth driving wheel, 503010, a tenth rotating shaft block, 503011, a second screw rod, 503012, a second screw rod, a second 35 503013, a third internal thread sliding block, a 503014, a sliding block, a, A second arc-shaped fixing plate 503015, a fourth flat gear 503016, a second collecting frame, 503017, a nineteenth driving wheel, 503018, a fifth flat gear 503019, a twentieth driving wheel, 503020 and a third collecting frame.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

A jerking type donkey-hide gelatin pearl processing device is shown in figures 1-11, and comprises a working table plate 1, supporting foot columns 2, an operation control screen 3, a frying system 4, a dumping control system 5 and a clam powder separation system 6; a work board 1; the upper part of the supporting foot column 2 is welded with the working table plate 1; the operation control screen 3 is connected with the workbench plate 1; the frying system 4, the lower part of the frying system 4 is connected with the dumping control system 5; the lower part of the dumping control system 5 is connected with the workbench plate 1; clam meal piece-rate system 6, clam meal piece-rate system 6 with empty control system 5, clam meal piece-rate system 6 is connected with work platen 1.

The working process is as follows: when the shaking jump type donkey-hide gelatin bead processing device is used, the device is stably fixed to a working plane, then an external power supply is connected, an operation control screen 3 is manually opened, clam meal is added into a frying system 4 at first, the donkey-hide gelatin bead is added after the heating, the donkey-hide gelatin bead is fried until the donkey-hide gelatin bead expands into donkey-hide gelatin beads, then a pouring control system 5 drives the frying system 4 to move downwards and drives the frying system 4 to turn over, the frying system 4 pours the donkey-hide gelatin beads and the clam meal in the donkey-hide gelatin bead into a clam meal separation system 6, then the clam meal separation system 6 separates the clam meal adhered to the surface of the donkey-hide gelatin beads, the automatic stirring and flattening of the upper layer part of stacked donkey-hide gelatin beads in the frying process are realized, the donkey-hide gelatin beads are kept heated in a single layer, the donkey-hide gelatin beads are heated and uniformly expanded, the pressed donkey-hide gelatin beads are prevented from being normally expanded into beads, and the donkey-hide gelatin, the effect of separating the powder is strengthened by using the vibration falling to the ground, and simultaneously, the situation that the donkey-hide gelatin beads collide the edge surface of the powder outlet hole and are damaged is avoided, so that the effect of round and complete donkey-hide gelatin beads is obtained.

The stir-frying system 4 comprises a fixed sealing cover 401, a first rotating shaft rod 402, a first driving wheel 403, a second driving wheel 404, a stir-frying barrel 405, a four-edge slot cylinder 406, a first stir layering mechanism 407, a second stir layering mechanism 408, a third stir layering mechanism 409, a fourth stir layering mechanism 4010, a toothed ring 4011 and a four-edge jack 4012; a fixed sealing cover 401, wherein the fixed sealing cover 401 is rotatably connected with a first rotating shaft rod 402, and the fixed sealing cover 401 is connected with the dumping control system 5; a first rotating shaft rod 402, wherein the outer surface of the first rotating shaft rod 402 is fixedly connected with a first driving wheel 403; a first driving wheel 403, the outer ring surface of the first driving wheel 403 is in driving connection with a second driving wheel 404 through a belt; a second driving wheel 404, wherein the axle center of the second driving wheel 404 is connected with the dumping control system 5; a frying barrel 405, wherein the upper part of the frying barrel 405 is in contact with a fixed sealing cover 401, and the frying barrel 405 is connected with a dumping control system 5; a quadrangular slot cylinder 406, wherein the lower part of the quadrangular slot cylinder 406 is fixedly connected with the frying barrel 405; the first toggle layering mechanism 407, the first toggle layering mechanism 407 is fixedly connected with the first rotating shaft rod 402; the second toggle layering mechanism 408, the second toggle layering mechanism 408 is fixedly connected with the first rotating shaft rod 402; a third toggle layering mechanism 409, wherein the third toggle layering mechanism 409 is fixedly connected with the first rotating shaft rod 402; the fourth toggle layering mechanism 4010, the fourth toggle layering mechanism 4010 is fixedly connected with the first rotating shaft rod 402; the gear ring 4011 is rotationally connected with the first rotating shaft rod 402, and the outer annular surface of the gear ring 4011 is sequentially meshed with the first toggle layering mechanism 407, the second toggle layering mechanism 408, the third toggle layering mechanism 409 and the fourth toggle layering mechanism 4010; the square inserting column 4012, the upper part of the square inserting column 4012 is fixedly connected with the toothed ring 4011, and the square inserting column 4012 is inserted into the square inserting groove barrel 406.

Firstly, clam meal is added into a stir-frying barrel 405, then the stir-frying barrel 405 is controlled to be heated, then donkey-hide gelatin cubes are added above the clam meal, then a dumping control system 5 is controlled to drive the stir-frying barrel 405 to move upwards, namely, the stir-frying barrel 405 moves to the upper part to be attached and sealed with a fixed sealing cover 401, at the moment, the stir-frying barrel 405 drives a four-edge inserting barrel 406 to be sleeved outside a four-edge inserting column 4012, then the four-edge inserting column 4012 and a toothed ring 4011 are static, at the moment, a sixth rotating shaft rod 5028 drives a second driving wheel 404 to rotate, then the second driving wheel 404 drives a first driving wheel 403 to rotate, further the first driving wheel 403 drives a first rotating shaft rod 402 to rotate, the first rotating shaft rod 402 drives a first stirring and layering mechanism 407, a second stirring and layering mechanism 408, a third stirring and fourth stirring and layering mechanism 409 and a fourth stirring and layering mechanism 4010 to rotate, and the first stirring and the second stirring and layering mechanism 407, The third stirring layering mechanism 409 and the fourth stirring layering mechanism 4010 rotate, stir the fried donkey-hide gelatin beads to be uniformly heated, and push the stacked donkey-hide gelatin beads horizontally in the rotating stirring process, so that the stacking of the donkey-hide gelatin beads is avoided.

The dumping control system 5 comprises a power motor 501, a second rotating shaft rod 502, a first bevel gear 503, a third transmission wheel 504, a second bevel gear 505, a first bearing pedestal 506, a fourth transmission wheel 507, a third bevel gear 508, a second bearing pedestal 509, a fourth bevel gear 5010, a third rotating shaft rod 5011, a fifth transmission wheel 5012, a sixth transmission wheel 5013, a fifth bevel gear 5014, a first telescopic rotating shaft 5015, a first bearing sleeve 5016, a first electric push rod 5017, a third bearing pedestal 5018, a seventh transmission wheel 5019, an eighth transmission wheel 5020, a first collecting plate 5021, a fourth rotating shaft rod 5022, a ninth transmission wheel 5023, a sixth bevel gear 5024, a fifth rotating shaft rod 5025, a tenth transmission wheel 6, an eleventh transmission wheel 5027, a sixth rotating shaft rod 5028, a fourth rotating shaft pedestal 5029 and a lifting control mechanism 5030; an output shaft of the power motor 501 is fixedly connected with the second rotating shaft rod 502, and the lower part of the power motor 501 is connected with the working bedplate 1; the outer surface of the second rotating shaft rod 502 is fixedly connected with a first bevel gear 503, a third driving wheel 504, a second bevel gear 505, a fourth driving wheel 507 and a third bevel gear 508 in sequence; a first bevel gear 503, the first bevel gear 503 being engaged with the fifth bevel gear 5014; a third driving wheel 504, wherein the third driving wheel 504 is connected with the lifting control mechanism 5030; a second bevel gear 505, the second bevel gear 505 meshing with a sixth bevel gear 5024; the inner side of the first bearing seat 506 is rotatably connected with the second rotating shaft rod 502, and the lower part of the first bearing seat 506 is connected with the workbench plate 1; a fourth driving wheel 507, the fourth driving wheel 507 is connected with the lifting control mechanism 5030; a third bevel gear 508, the third bevel gear 508 meshing with the fourth bevel gear 5010; a second bearing seat 509, wherein the second bearing seat 509 is rotatably connected with the second rotating shaft rod 502, and the lower part of the second bearing seat 509 is connected with the working table plate 1; the axis of the fourth bevel gear 5010 is fixedly connected with the third rotating shaft 5011; the third rotating shaft 5011 is rotatably connected with the second bearing seat 509; the fifth transmission wheel 5012 is fixedly connected with the axis of the fifth transmission wheel 5012 and the third rotating shaft 5011; the outer ring surface of the sixth transmission wheel 5013 is in transmission connection with the fifth transmission wheel 5012 through a belt, and the axis of the sixth transmission wheel 5013 is connected with the clam powder separation system 6; the fifth bevel gear 5014 is fixedly connected with the first telescopic rotating shaft 5015 through the axle center of the fifth bevel gear 5014; the outer surface of the first telescopic rotating shaft 5015 is rotatably connected with the first bearing sleeve plate 5016; the first bearing sleeve plate 5016 is connected with a first electric push rod 5017; the upper part of the first electric push rod 5017 is fixedly connected with the third bearing seat 5018; the third bearing seat 5018 is in rotating connection with the first telescopic rotating shaft 5015; the seventh transmission wheel 5019, the axle center of the seventh transmission wheel 5019 is fixedly connected with the first telescopic rotating shaft 5015; the outer ring surface of the eighth driving wheel 5020 is in transmission connection with a seventh driving wheel 5019 through a belt; the first collecting plate 5021 is in rotary connection with a fourth rotating shaft 5022, and the lower part of the first collecting plate 5021 is connected with the working table plate 1; a fourth rotating shaft rod 5022, the outer surface of the fourth rotating shaft rod 5022 is fixedly connected with an eighth driving wheel 5020; a ninth driving wheel 5023, an axis of the ninth driving wheel 5023 is fixedly connected with a fourth rotating shaft rod 5022; the axis of the sixth bevel gear 5024 and the sixth bevel gear 5024 are fixedly connected with a fifth rotating shaft rod 5025; the outer surface of the fifth rotating shaft rod 5025 is rotatably connected with the first bearing seat 506; a tenth driving wheel 5026, the axis of the tenth driving wheel 5026 is fixedly connected with a fifth rotating shaft rod 5025; an outer ring surface of the eleventh driving wheel 5027 is in transmission connection with a tenth driving wheel 5026 through a belt; a sixth rotating shaft rod 5028, an outer surface of a sixth rotating shaft rod 5028 is fixedly connected with an eleventh driving wheel 5027, a lower part of the sixth rotating shaft rod 5028 is rotatably connected with the first bearing block 506, and the sixth rotating shaft rod 5028 is fixedly connected with the second driving wheel 404; a fourth bearing bracket 5029, wherein the inner side of the fourth bearing bracket 5029 is rotatably connected with a sixth rotating shaft 5028; the lifting control mechanism 5030, the lifting control mechanism 5030 and the fourth bearing bracket 5029 are welded together, the lifting control mechanism 5030 is connected with the ninth driving wheel 5023, the lifting control mechanism 5030 is connected with the first collecting plate 5021, the lifting control mechanism 5030 is connected with the fixed seal cover 401, and the lifting control mechanism 5030 is connected with the stir-frying barrel 405.

Firstly, the power motor 501 drives the second rotating shaft lever 502 to rotate, then the second rotating shaft lever 502 synchronously drives the first bevel gear 503, the third driving wheel 504, the second bevel gear 505, the fourth driving wheel 507 and the third bevel gear 508 to rotate, further the second bevel gear 505 drives the sixth bevel gear 5024 to rotate, then the sixth bevel gear 5024 drives the fifth rotating shaft lever 5025 to rotate, further the fifth rotating shaft lever 5025 drives the tenth driving wheel 5026 to rotate, then the tenth driving wheel 5026 drives the eleventh driving wheel 5027 to rotate, further the eleventh driving wheel 5027 drives the sixth rotating shaft lever 5028 to rotate, then the sixth rotating shaft lever 5028 drives the stir-frying system 4 to rotate, simultaneously the third bevel gear 508 drives the fourth bevel gear 5010 to rotate, then the fourth bevel gear 5010 drives the third rotating shaft lever 5011 to rotate, further the third rotating shaft lever 5011 drives the fifth driving wheel 5012 to rotate, then, the fifth driving wheel 5012 drives the sixth driving wheel 5013 to rotate, the sixth driving wheel 5013 drives the clam powder separation system 6 to operate, the first electric push rod 5017 is controlled to push out downwards to drive the first bearing sleeve 5016 to move downwards, and then the first bearing sleeve 5016 drives the first telescopic rotating shaft 5015 to extend downwards, that is, the first telescopic rotating shaft 5015 drives the fifth bevel gear 5014 to move downwards to a position meshed with the first bevel gear 503, the first bevel gear 503 drives the fifth bevel gear 5014 to rotate, and then the fifth bevel gear 5014 drives the first telescopic rotating shaft 5015 to rotate, then the first telescopic rotating shaft 5015 and the seventh driving wheel 5019 rotate, and then the seventh driving wheel 5019 drives the eighth driving wheel 5020 to rotate, then the eighth driving wheel 0 drives the fourth rotating shaft 5022 to rotate, and then the fourth rotating shaft 5022 drives the ninth driving wheel 5023 to rotate, and then the ninth driving wheel 5023 drives the lifting control mechanism 5030 to operate, that is, the lifting control mechanism 5030 drives the frying system 4 to lift, then the third driving wheel 504 and the fourth driving wheel 507 can simultaneously drive the lifting control mechanism 5030 to operate, and further the lifting control mechanism 5030 drives the frying system 4 to dump the donkey-hide gelatin beads in the frying system into the clam powder separation system 6, thereby completing the movement and dumping of the donkey-hide gelatin beads.

The clam powder separation system 6 comprises a first bearing frame plate 601, a seventh rotating shaft rod 602, a twelfth driving wheel 603, a first cam 604, a first linkage frame 605, a first joining column 606, a first limiting sliding frame 607, a screening frame 608, a collecting box 609, a second joining column 6010, a second limiting sliding frame 6011, a second bearing frame plate 6012, a second linkage frame 6013, a second cam 6014, an eighth rotating shaft rod 6015, a thirteenth driving wheel 6016, a shifting comb strip 6017 and a round hole plate 6018; the first bearing frame plate 601 is rotatably connected with the seventh rotating shaft rod 602, and the lower part of the first bearing frame plate 601 is connected with the workbench plate 1; a seventh rotating shaft rod 602, the outer surface of the seventh rotating shaft rod 602 is fixedly connected with a twelfth driving wheel 603; the outer ring surface of the twelfth driving wheel 603 is in transmission connection with a thirteenth driving wheel 6016 through a belt; the first cam 604, the first cam 604 is fixedly connected with the seventh rotating shaft rod 602; a first linkage frame 605, wherein the inner side of the first linkage frame 605 is in transmission connection with the first cam 604; the first connecting column 606, the first connecting column 606 is welded with the first linkage frame 605; the inner side of the first limiting sliding frame 607 is connected with the first connecting column 606 in a sliding manner, and the first limiting sliding frame 607 is welded with the first bearing frame plate 601; a screening frame 608, wherein the screening frame 608 is welded with the first connecting column 606, and a collecting box 609 is arranged below the screening frame 608; a collecting box 609, wherein the lower part of the collecting box 609 is connected with the workbench plate 1; a second joining column 6010, wherein the second joining column 6010 is welded with the screening frame 608; the inner side of the second limiting sliding frame 6011 is in sliding connection with a second joining column 6010; a second bearing frame plate 6012, wherein the second bearing frame plate 6012 is welded with a second limiting sliding frame 6011, and the lower part of the second bearing frame plate 6012 is connected with the workbench plate 1; a second linkage frame 6013, wherein the second linkage frame 6013 is welded with a second joining column 6010; the outer side of the second cam 6014 is in transmission connection with a second linkage frame 6013; an eighth rotating shaft 6015, an eighth rotating shaft 6015 and a second cam 6014 are fixedly connected, the outer surface of the eighth rotating shaft 6015 is rotatably connected with a second bearing frame plate 6012, and the eighth rotating shaft 6015 is fixedly connected with a sixth driving wheel 5013; a thirteenth driving wheel 6016, an axis of the thirteenth driving wheel 6016 is fixedly connected with the eighth rotating shaft 6015; the comb strips 6017 are shifted, and the comb strips 6017 are shifted to be in sliding connection with the screening frame 608; the round hole plate 6018, the round hole plate 6018 and the screening frame 608 are welded.

Firstly, the sixth driving wheel 5013 drives the eighth rotating shaft 6015 to rotate, then the eighth rotating shaft 6015 drives the thirteenth driving wheel 6016 and the second cam 6014 to rotate, the thirteenth driving wheel 6016 drives the twelfth driving wheel 603 to rotate, the twelfth driving wheel 603 drives the seventh rotating shaft 602 to rotate, further the seventh rotating shaft 602 drives the first cam 604 to rotate, further the first cam 604 and the second cam 6014 rotate synchronously, further the first cam 604 and the second cam 6014 drive the first linkage frame 605 and the second linkage frame 6013 to reciprocate respectively, that is, the first linkage frame 605 and the second linkage frame 6013 respectively drive the sieving frame 608 to reciprocate through the first engaging column 606 and the second engaging column 6010, at this time, the first engaging column 606 and the second engaging column 6010 respectively slide on the inner sides of the first limiting sliding engaging frame 607 and the second limiting sliding engaging frame 6011 to ensure the stable reciprocating movement of the sieving frame, then the donkey-hide gelatin pearl and clam meal enter into screening frame 608 inside simultaneously, and then screening frame 608 drives and stirs comb strip 6017 and round hole board 6018 and carry out reciprocating motion, at screening frame 608 reciprocating motion's in-process, stir comb strip 6017 and rely on inertia free sliding motion, and then realize stirring to reciprocating to the donkey-hide gelatin pearl, then the clam meal on donkey-hide gelatin pearl surface is shaken off, then the clam meal leaks from the round hole of round hole board 6018 and enters into the inside collection box 609 and is collected, the separation of donkey-hide gelatin pearl surface clam meal has been accomplished.

The first toggle layering mechanism 407 comprises a toggle fan plate 40701, a fifth bearing seat 40702, a fourteenth transmission wheel 40703, a seventh bevel gear 40704, a sixth bearing seat 40705, an eighth bevel gear 40706, a first flat gear 40707, a sliding toggle bar 40708, an impact bar 40709, a fifteenth transmission wheel 40710, a ninth rotating shaft 40711, a seventh bearing seat 40712, a third cam 40713, a fourth cam 40714, a spring-limited sliding sleeve frame 40715 and an eighth bearing seat 40716; the toggle fan plate 40701, the toggle fan plate 40701 is in bolt connection with the fifth bearing seat 40702, and the toggle fan plate 40701 is fixedly connected with the first rotating shaft rod 402; a fifth bearing seat 40702, the fifth bearing seat 40702 is rotatably connected to a fourteenth driving wheel 40703; a fourteenth driving wheel 40703, the axis of the fourteenth driving wheel 40703 is fixedly connected with a seventh bevel gear 40704; a seventh bevel gear 40704, wherein the axis of the seventh bevel gear 40704 is rotatably connected with a sixth bearing seat 40705; a sixth bearing seat 40705, the sixth bearing seat 40705 is connected with the toggle fan plate 40701 by a bolt; an eighth bevel gear 40706, wherein the axis of the eighth bevel gear 40706 is rotatably connected with a sixth bearing seat 40705, and the eighth bevel gear 40706 is meshed with a seventh bevel gear 40704; a first flat gear 40707, wherein the axis of the first flat gear 40707 is fixedly connected with an eighth bevel gear 40706, the axis of the first flat gear 40707 is rotatably connected with a fifth bearing seat 40702, and the first flat gear 40707 is meshed with a gear ring 4011; a sliding toggle bar 40708, the sliding toggle bar 40708 is connected with a spring limit sliding sleeve frame 40715; an impact strip 40709, wherein the impact strip 40709 is welded with the sliding toggle bar 40708; the outer annular surface of the fifteenth transmission wheel 40710 is in transmission connection with a fourteenth transmission wheel 40703 through a belt; the ninth rotating shaft 40711, and the outer surface of the ninth rotating shaft 40711 is fixedly connected with a fifteenth driving wheel 40710; a seventh bearing seat 40712, the seventh bearing seat 40712 is rotatably connected to the ninth rotating shaft 40711, and the seventh bearing seat 40712 is fixedly connected to the toggle fan plate 40701; the third cam 40713, the third cam 40713 is fixedly connected with the ninth rotating shaft 40711; a fourth cam 40714, the fourth cam 40714 is fixedly connected with the ninth rotating shaft 40711; the spring limit sliding sleeve frame 40715, the spring limit sliding sleeve frame 40715 and the toggle fan plate 40701 are fixedly connected; an eighth bearing seat 40716, an eighth bearing seat 40716 is rotatably connected to the ninth shaft 40711, and the eighth bearing seat 40716 is fixedly connected to the toggle fan plate 40701.

When the first rotating shaft lever 402 drives the toggle fan plate 40701 to rotate, firstly, the toggle fan plate 40701 rotates to toggle the donkey-hide gelatin beads so that the donkey-hide gelatin beads are uniformly heated, meanwhile, the first flat gear 40707 rolls on the teeth on the outer ring surface of the toothed ring 4011, further, the first flat gear 40707 rotates, then, the first flat gear 40707 drives the eighth bevel gear 40706 to rotate, then, the eighth bevel gear 40706 drives the seventh bevel gear 40704 to rotate, the seventh bevel gear 40704 drives the fourteenth driving wheel 40703 to rotate, further, the fourteenth driving wheel 40703 drives the fifteenth driving wheel 40710 to rotate, the fifteenth driving wheel 40710 drives the ninth rotating shaft 40711 to rotate, namely, the ninth rotating shaft 40711 drives the third cam 40713 and the fourth cam 40714 to synchronously rotate, namely, the third cam 40713 and the fourth cam 40714 toggle bar 40709 poke the impact 40709, and then, the impact toggle bar 40708 drives the sliding toggle bar 40404040708 to reciprocate inside the spring limit sliding sleeve 40715, and then in the process of stirring and tiling the donkey-hide gelatin beads by the stirring fan plate 40701, the sliding stirring bar 40708 pushes the two layers of donkey-hide gelatin beads above the bottom layer of donkey-hide gelatin beads, so that the donkey-hide gelatin beads are dispersed and uniformly heated.

The lifting control mechanism 5030 comprises a first collecting frame 503001, a first lead screw 503002, a first internal thread sliding block 503003, a second flat gear 503004, a first arc-shaped fixing plate 503005, a tenth rotating shaft rod 503006, a sixteenth driving wheel 503007, a seventeenth driving wheel 503008, an eighteenth driving wheel 503009, an eleventh rotating shaft rod 503010, a second lead screw 503011, a second internal thread sliding block 503012, a third flat gear 503013, a second arc-shaped fixing plate 503014, a fourth flat gear 503015, a second collecting frame 503016, a nineteenth driving wheel 503017, a fifth flat gear 503018, a twentieth driving wheel 503019 and a third collecting frame 503020; the first collecting frame 503001, the first collecting frame 503001 is rotatably connected with the first lead screw 503002, the first collecting frame 503001 is connected with the fixed sealing cover 401, and the lower part of the first collecting frame 503001 is welded with the first collecting plate 5021; the outer surface of the first lead screw 503002 is slidably connected with a first internal thread sliding block 503003; a first internal thread sliding block 503003, the first internal thread sliding block 503003 is rotatably connected with the second flat gear 503004; the second flat gear 503004, the axle center of the second flat gear 503004 is fixedly connected with the first arc fixing plate 503005; a first arc-shaped fixing plate 503005, the first arc-shaped fixing plate 503005 is connected with the frying barrel 405; a tenth rotating shaft lever 503006, wherein the upper part of the tenth rotating shaft lever 503006 is fixedly connected with the first lead screw 503002, and the lower part of the tenth rotating shaft lever 503006 is rotatably connected with the first collecting plate 5021; a sixteenth driving wheel 503007, wherein the axle center of the sixteenth driving wheel 503007 is fixedly connected with the tenth rotating shaft 503006; a seventeenth driving wheel 503008, wherein the axis of the seventeenth driving wheel 503008 is fixedly connected with the tenth rotating shaft 503006, and the outer annular surface of the seventeenth driving wheel 503008 is in transmission connection with a ninth driving wheel 5023 through a belt; an eighteenth driving wheel 503009, wherein the outer annular surface of the eighteenth driving wheel 503009 is in transmission connection with a sixteenth driving wheel 503007 through a belt; the eleventh rotating shaft lever 503010 and the outer surface of the eleventh rotating shaft lever 503010 are fixedly connected with an eighteenth driving wheel 503009; the lower part of the eleventh rotating shaft lever 503010 is rotatably connected with the first collecting plate 5021; the lower part of the second screw rod 503011 and the second screw rod 503011 is fixedly connected with an eleventh rotating shaft rod 503010; a second internal thread sliding block 503012, the inner side of which is connected with the second screw rod 503011 in a sliding manner; the third gear 503013, the axis of the third gear 503013 is connected with the second internal screw slide block 503012 in a rotating way; a second arc-shaped fixing plate 503014, a second arc-shaped fixing plate 503014 is fixedly connected with a third flat gear 503013, a fourth flat gear 503015 is arranged below the second arc-shaped fixing plate 503014, and a second arc-shaped fixing plate 503014 is connected with the frying barrel 405; a fourth pinion 503015, the fourth pinion 503015 being rotatably connected to the second carrier 503016; a second manifold 503016 welded to the first manifold 5021 below the second manifold 503016; a nineteenth driving wheel 503017, wherein the axis of a nineteenth driving wheel 503017 is fixedly connected with a fourth flat gear 503015, and the outer annular surface of the nineteenth driving wheel 503017 is in transmission connection with the fourth driving wheel 507 through a belt; a fifth flat gear 503018, a fifth flat gear 503018 being in rotational communication with the second carrier 503016; the axle center of a twentieth driving wheel 503019 and a twentieth driving wheel 503019 is fixedly connected with a fifth flat gear 503018, and the outer annular surface of the twentieth driving wheel 503019 is in transmission connection with a third driving wheel 504 through a belt; and the third collecting frame 503020, the third collecting frame 503020 and the second screw 503011 are rotatably connected, the lower part of the third collecting frame 503020 is welded with the first collecting plate 5021, and the third collecting frame 503020 is connected with the fixed sealing cover 401.

Firstly, the ninth driving wheel 5023 drives the seventeenth driving wheel 503008 to rotate, then the seventeenth driving wheel 503008 drives the tenth rotating shaft 503006 to rotate, that is, the tenth rotating shaft 503006 drives the sixteenth driving wheel 503007 to rotate, then the sixteenth driving wheel 503007 drives the eighteenth driving wheel 503009 to rotate, that is, the eighteenth driving wheel 503009 drives the eleventh rotating shaft 503010 to rotate, then the eleventh rotating shaft 503010 drives the second lead screw 503011 to rotate, meanwhile, the tenth rotating shaft 503006 drives the first lead screw 503002 to rotate, then the first lead screw 503002 and the second lead screw 503011 synchronously rotate to respectively drive the first internal thread sliding block 503003 and the second internal thread 503012 to move downwards, that is, the first internal thread sliding block 503003 and the second internal thread sliding block 503012 respectively drive the first arc-shaped fixing plate 503005 and the second arc-shaped fixing plate 503014 to move downwards, that is, that the first arc-shaped fixing plate sliding block 503005 and the second arc-shaped fixing plate 503014 drive the frying barrel 405 to move downwards, when the second flat gear 503004 is engaged with the fifth flat gear 503018, the third flat gear 503013 is engaged with the fourth flat gear 503015, at this time, the fourth driving wheel 507 drives the nineteenth driving wheel 503017 to rotate, meanwhile, the third driving wheel 504 drives the twentieth driving wheel 503019 to rotate, and the nineteenth driving wheel 503017 and the twentieth driving wheel 503019 respectively drive the fourth flat gear 503015 and the fifth flat gear 503018 to rotate, the fourth and fifth gears 503015 and 503018 respectively rotate the second and third gears 503004 and 503013, the third gear 503013 and the second gear 503004 rotate, the third gear 503013 and the second gear 503004 respectively drive the frying barrel 405 to rotate through the second arc-shaped fixing plate 503014 and the first arc-shaped fixing plate 503005, and then fry inside donkey-hide gelatin pearl and the clam meal of system bucket 405 and drop to inside clam meal piece-rate system 6, accomplished the transmission control to donkey-hide gelatin pearl.

A string is arranged above the round hole plate 6018.

So that can prevent at the in-process of string vibration that the donkey-hide gelatin pearl from colliding with the edge in the filter plate hole, protect the outward appearance of donkey-hide gelatin pearl, can bounce a small height with the donkey-hide gelatin pearl through the rope behind the string as the donkey-hide gelatin pearl because of inertia dashes simultaneously, can produce a fore-and-aft vibration after the donkey-hide gelatin pearl falls to the ground, the effect of vibration gumming has been strengthened in the cooperation transverse vibration.

The edge of the sieving frame 608 which is connected with the poking comb strip 6017 in a sliding mode is provided with a rubber strip.

So as to reduce the noise of collision and friction with the screening frame 608 when the comb strips 6017 are pushed to slide.

It should be understood that this example is only for illustrating the present invention and is not intended to limit the scope of the present invention. Further, it should be understood that various changes or modifications of the present invention may be made by those skilled in the art after reading the teaching of the present invention, and such equivalents may fall within the scope of the present invention as defined in the appended claims.

Claims (8)

1. The utility model provides a shake leap formula donkey-hide gelatin pearl processing apparatus, is including work platen (1), support foot post (2) and operation control screen (3), characterized by: the automatic clam meal maker is characterized by also comprising a frying system (4), a pouring control system (5) and a clam powder separation system (6); a worktop plate (1);

the upper part of the supporting foot column (2) is welded with the working table plate (1);

the operation control screen (3), the operation control screen (3) is connected with the working table plate (1);

the lower part of the frying system (4) is connected with the dumping control system (5);

the lower part of the dumping control system (5) is connected with the workbench plate (1);

the clam meal separation system (6), the clam meal separation system (6) and the dumping control system (5), and the clam meal separation system (6) are connected with the working table plate (1).

2. The Shajiu type donkey-hide gelatin bead processing device as claimed in claim 1, wherein the frying system (4) comprises a fixed sealing cover (401), a first rotating shaft rod (402), a first driving wheel (403), a second driving wheel (404), a frying barrel (405), a four-edge slot barrel (406), a first stirring layering mechanism (407), a second stirring layering mechanism (408), a third stirring layering mechanism (409), a fourth stirring layering mechanism (4010), a gear ring (4011) and a four-edge jack post (4012);

the fixed sealing cover (401), the fixed sealing cover (401) is rotatably connected with the first rotating shaft rod (402), and the fixed sealing cover (401) is connected with the dumping control system (5);

the outer surface of the first rotating shaft rod (402) is fixedly connected with a first driving wheel (403);

the outer ring surface of the first transmission wheel (403) is in transmission connection with a second transmission wheel (404) through a belt;

the axle center of the second driving wheel (404) is connected with the dumping control system (5);

the upper part of the frying barrel (405) is in contact with the fixed sealing cover (401), and the frying barrel (405) is connected with the dumping control system (5);

the lower part of the quadrangular slot inserting cylinder (406) is fixedly connected with the frying barrel (405);

the first toggle layering mechanism (407), the first toggle layering mechanism (407) is fixedly connected with the first rotating shaft rod (402);

the second toggle layering mechanism (408), the second toggle layering mechanism (408) is fixedly connected with the first rotating shaft rod (402);

the third shifting layering mechanism (409), the third shifting layering mechanism (409) is fixedly connected with the first rotating shaft rod (402);

the fourth toggle layering mechanism (4010), the fourth toggle layering mechanism (4010) is fixedly connected with the first rotating shaft rod (402);

the gear ring (4011), the gear ring (4011) is rotatably connected with the first rotating shaft rod (402), and the outer ring surface of the gear ring (4011) is sequentially meshed with the first toggle layering mechanism (407), the second toggle layering mechanism (408), the third toggle layering mechanism (409) and the fourth toggle layering mechanism (4010);

the square inserting column (4012), the upper part of the square inserting column (4012) is fixedly connected with the gear ring (4011), and the square inserting column (4012) is inserted into the square inserting groove barrel (406).

3. The shock-jumping donkey-hide gelatin bead processing device as claimed in claim 2, wherein the dumping control system (5) comprises a power motor (501), a second rotating shaft lever (502), a first bevel gear (503), a third transmission wheel (504), a second bevel gear (505), a first bearing seat (506), a fourth transmission wheel (507), a third bevel gear (508), a second bearing seat (509), a fourth bevel gear (5010), a third rotating shaft lever (5011), a fifth transmission wheel (5012), a sixth transmission wheel (5013), a fifth bevel gear (5014), a first telescopic rotating shaft (5015), a first bearing sleeve plate (5016), a first electric push rod (5017), a third bearing seat (5018), a seventh transmission wheel (5019), an eighth transmission wheel (5020), a first collecting plate (5021), a fourth rotating shaft lever (5022), a ninth transmission wheel (5023), a sixth bevel gear (5024), A fifth rotating shaft rod (5025), a tenth driving wheel (5026), an eleventh driving wheel (5027), a sixth rotating shaft rod (5028), a fourth bearing seat (5029) and a lifting control mechanism (5030);

an output shaft of the power motor (501) is fixedly connected with the second rotating shaft rod (502), and the lower part of the power motor (501) is connected with the working bedplate (1);

the outer surface of the second rotating shaft rod (502) is fixedly connected with the first bevel gear (503), the third driving wheel (504), the second bevel gear (505), the fourth driving wheel (507) and the third bevel gear (508) in sequence;

the first bevel gear (503), the first bevel gear (503) engages with fifth bevel gear (5014);

a third driving wheel (504), wherein the third driving wheel (504) is connected with the lifting control mechanism (5030);

a second bevel gear (505), the second bevel gear (505) meshing with a sixth bevel gear (5024);

the inner side of the first bearing seat (506) is rotationally connected with the second rotating shaft rod (502), and the lower part of the first bearing seat (506) is connected with the workbench plate (1);

a fourth driving wheel (507), wherein the fourth driving wheel (507) is connected with the lifting control mechanism (5030);

a third bevel gear (508), the third bevel gear (508) meshing with the fourth bevel gear (5010);

the second bearing seat (509), the second bearing seat (509) is connected with the second rotating shaft rod (502) in a rotating mode, and the lower portion of the second bearing seat (509) is connected with the workbench plate (1);

the axle center of the fourth bevel gear (5010) is fixedly connected with the third rotating shaft lever (5011);

the third rotating shaft rod (5011), the third rotating shaft rod (5011) is in rotating connection with the second bearing seat (509);

the fifth transmission wheel (5012), the axle center of the fifth transmission wheel (5012) is fixedly connected with the third rotating shaft rod (5011);

the outer ring surface of the sixth transmission wheel (5013) is in transmission connection with the fifth transmission wheel (5012) through a belt, and the axis of the sixth transmission wheel (5013) is connected with the clam powder separation system (6);

the axis of the fifth bevel gear (5014) is fixedly connected with the first telescopic rotating shaft (5015);

the outer surface of the first telescopic rotating shaft (5015) is in rotary connection with the first bearing sleeve plate (5016);

the first bearing sleeve plate (5016), the first bearing sleeve plate (5016) is connected with a first electric push rod (5017);

the upper part of the first electric push rod (5017) is fixedly connected with the third bearing seat (5018);

the third bearing seat (5018), the third bearing seat (5018) is in rotating connection with the first telescopic rotating shaft (5015);

the seventh transmission wheel (5019), the axle center of the seventh transmission wheel (5019) is fixedly connected with the first telescopic rotating shaft (5015);

the outer ring surface of the eighth transmission wheel (5020) is in transmission connection with a seventh transmission wheel (5019) through a belt;

the first gathering plate (5021), the first gathering plate (5021) is in rotating connection with the fourth rotating shaft rod (5022), and the lower portion of the first gathering plate (5021) is connected with the workbench plate (1);

the outer surface of the fourth rotating shaft rod (5022) is fixedly connected with the eighth transmission wheel (5020);

a ninth driving wheel (5023), wherein the axis of the ninth driving wheel (5023) is fixedly connected with a fourth rotating shaft rod (5022);

the axis of the sixth bevel gear (5024) is fixedly connected with the fifth rotating shaft lever (5025);

the outer surface of the fifth rotating shaft rod (5025) is in rotating connection with the first bearing seat (506);

a tenth driving wheel (5026), wherein the axis of the tenth driving wheel (5026) is fixedly connected with a fifth rotating shaft rod (5025);

the outer ring surface of the eleventh driving wheel (5027) is in transmission connection with a tenth driving wheel (5026) through a belt;

the outer surface of the sixth rotating shaft rod (5028) is fixedly connected with an eleventh driving wheel (5027), the lower part of the sixth rotating shaft rod (5028) is rotatably connected with the first bearing seat (506), and the sixth rotating shaft rod (5028) is fixedly connected with the second driving wheel (404);

the inner side of the fourth bearing seat (5029) is in rotary connection with a sixth rotating shaft rod (5028);

the lifting control mechanism (5030), the lifting control mechanism (5030) and the fourth bearing seat (5029) are welded, the lifting control mechanism (5030) is connected with the ninth driving wheel (5023), the lifting control mechanism (5030) is connected with the first collecting plate (5021), the lifting control mechanism (5030) is connected with the fixed sealing cover (401), and the lifting control mechanism (5030) is connected with the stir-frying barrel (405).

4. A shock jump donkey-hide gelatin pearl processing apparatus according to claim 3, characterized in that, the clam powder separating system (6) comprises a first bearing frame plate (601), a seventh rotating shaft rod (602), a twelfth driving wheel (603), a first cam (604), a first linkage frame (605), a first joining column (606), a first limit sliding frame (607), a screening frame (608), a collecting box (609), a second joining column (6010), a second limit sliding frame (6011), a second bearing frame plate (6012), a second linkage frame (6013), a second cam (6014), an eighth rotating shaft rod (6015), a thirteenth driving wheel (6016), a stripping comb (6017) and a round hole plate (8);

the first bearing frame plate (601), the first bearing frame plate (601) is rotatably connected with the seventh rotating shaft rod (602), and the lower part of the first bearing frame plate (601) is connected with the workbench plate (1);

the outer surface of the seventh rotating shaft rod (602) is fixedly connected with a twelfth driving wheel (603);

the outer ring surface of the twelfth driving wheel (603) is in transmission connection with a thirteenth driving wheel (6016) through a belt;

the first cam (604), the first cam (604) is connected with the seventh rotating shaft lever (602) fixedly;

the inner side of the first linkage frame (605) is in transmission connection with the first cam (604);

the first connecting column (606), and the first connecting column (606) is welded with the first linkage frame (605);

the inner side of the first limiting sliding frame (607) is in sliding connection with the first connecting column (606), and the first limiting sliding frame (607) is welded with the first bearing frame plate (601);

the screening frame (608), the screening frame (608) is welded with the first connecting column (606), and a collecting box (609) is arranged below the screening frame (608);

the lower part of the collecting box (609) is connected with the workbench plate (1);

a second joining column (6010), the second joining column (6010) being welded with the screening frame (608);

the inner side of the second limiting sliding frame (6011) is in sliding connection with a second joining column (6010);

the second bearing frame plate (6012), the second bearing frame plate (6012) is welded with a second limiting sliding frame (6011), and the lower portion of the second bearing frame plate (6012) is connected with the workbench plate (1);

a second linkage frame (6013), wherein the second linkage frame (6013) is welded with a second connecting column (6010);

the outer side of the second cam (6014) is in transmission connection with the second linkage frame (6013);

the eighth rotating shaft rod (6015), the eighth rotating shaft rod (6015) is fixedly connected with the second cam (6014), the outer surface of the eighth rotating shaft rod (6015) is rotatably connected with the second bearing frame plate (6012), and the eighth rotating shaft rod (6015) is fixedly connected with the sixth transmission wheel (5013);

a thirteenth driving wheel (6016), wherein the axle center of the thirteenth driving wheel (6016) is fixedly connected with an eighth rotating shaft rod (6015);

the comb strip (6017) is shifted, and the comb strip (6017) is shifted to be in sliding connection with the screening frame (608);

the round hole plate (6018) and the screening frame (608) are welded.

5. The jerking type donkey-hide gelatin bead processing device according to claim 4, wherein the first toggle layering mechanism (407) comprises a toggle fan plate (40701), a fifth bearing seat (40702), a fourteenth transmission wheel (40703), a seventh bevel gear (40704), a sixth bearing seat (40705), an eighth bevel gear (40706), a first flat gear (40707), a sliding toggle bar (40708), an impact strip plate (40709), a fifteenth transmission wheel (40710), a ninth rotating shaft rod (40711), a seventh bearing seat (40712), a third cam (40713), a fourth cam (40714), a spring limiting sliding sleeve frame (40715) and an eighth bearing seat (40716);

the toggle fan plate (40701), the toggle fan plate (40701) is in bolt connection with the fifth bearing seat (40702), and the toggle fan plate (40701) is fixedly connected with the first rotating shaft rod (402);

the fifth bearing seat (40702), the fifth bearing seat (40702) is rotatably connected with a fourteenth driving wheel (40703);

a fourteenth transmission wheel (40703), the axis of the fourteenth transmission wheel (40703) is fixedly connected with the seventh bevel gear (40704);

the axis of the seventh bevel gear (40704) is rotationally connected with the sixth bearing seat (40705);

the sixth bearing seat (40705), the sixth bearing seat (40705) and the toggle fan plate (40701) are in bolt connection;

the shaft center of the eighth bevel gear (40706) is rotationally connected with the sixth bearing seat (40705), and the eighth bevel gear (40706) is meshed with the seventh bevel gear (40704);

the first flat gear (40707), the axis of the first flat gear (40707) is fixedly connected with the eighth bevel gear (40706), the axis of the first flat gear (40707) is rotatably connected with the fifth bearing seat (40702), and the first flat gear (40707) is meshed with the gear ring (4011);

the sliding toggle bar (40708), the sliding toggle bar (40708) is connected with the spring limit sliding sleeve frame (40715);

the impact strip plate (40709) is welded with the sliding toggle bar (40708);

the outer ring surface of the fifteenth transmission wheel (40710) is in transmission connection with a fourteenth transmission wheel (40703) through a belt;

the outer surface of the ninth rotating shaft rod (40711) is fixedly connected with a fifteenth transmission wheel (40710);

the seventh bearing seat (40712), the seventh bearing seat (40712) is rotatably connected with the ninth rotating shaft rod (40711), and the seventh bearing seat (40712) is fixedly connected with the toggle fan plate (40701);

the third cam (40713), the third cam (40713) is fixedly connected with the ninth rotating shaft rod (40711);

the fourth cam (40714), the fourth cam (40714) is fixedly connected with ninth pivot pole (40711);

the spring limit sliding sleeve frame (40715), the spring limit sliding sleeve frame (40715) is fixedly connected with the toggle fan plate (40701);

eighth bearing frame (40716), eighth bearing frame (40716) and ninth pivot pole (40711) carry out the rotation and are connected, and eighth bearing frame (40716) carries out the rigid coupling with toggle fan board (40701).

6. The jerking type donkey-hide gelatin bead processing device according to claim 5, wherein the lifting control mechanism (5030) comprises a first collecting frame (503001), a first lead screw (503002), a first internal thread sliding block (503003), a second flat gear (503004), a first arc-shaped fixing plate (503005), a tenth rotating shaft rod (503006), a sixteenth driving wheel (503007), a seventeenth driving wheel (503008), an eighteenth driving wheel (503009), a tenth rotating shaft rod (503010), a second lead screw (503011), a second internal thread sliding block (503012), a third flat gear (503013), a second arc-shaped fixing plate (503014), a fourth flat gear (503015), a second collecting frame (503016), a nineteenth driving wheel (503017), a fifth flat gear (503018), a twentieth driving wheel (503019) and a third collecting frame (503020);

the first collecting frame (503001), the first collecting frame (503001) is rotatably connected with the first screw rod (503002), the first collecting frame (503001) is connected with the fixed sealing cover (401), and the lower part of the first collecting frame (503001) is welded with the first collecting plate (5021);

the outer surface of the first screw rod (503002) is in sliding connection with a first internal thread sliding block (503003);

a first internal thread sliding block (503003), wherein the first internal thread sliding block (503003) is rotationally connected with the second flat gear (503004);

the second flat gear (503004), the axle center of the second flat gear (503004) is fixedly connected with the first arc-shaped fixing plate (503005);

the first arc-shaped fixing plate (503005), the first arc-shaped fixing plate (503005) is connected with the frying barrel (405);

a tenth rotating shaft rod (503006), wherein the upper part of the tenth rotating shaft rod (503006) is fixedly connected with the first lead screw (503002), and the lower part of the tenth rotating shaft rod (503006) is rotatably connected with the first gathering plate (5021);

a sixteenth driving wheel (503007), wherein the axle center of the sixteenth driving wheel (503007) is fixedly connected with a tenth rotating shaft rod (503006);

a seventeenth driving wheel (503008), wherein the axis of the seventeenth driving wheel (503008) is fixedly connected with a tenth rotating shaft rod (503006), and the outer annular surface of the seventeenth driving wheel (503008) is in transmission connection with a ninth driving wheel (5023) through a belt;

the outer ring surface of the eighteenth driving wheel (503009) is in transmission connection with the sixteenth driving wheel (503007) through a belt;

the outer surface of the tenth rotating shaft rod (503010) is fixedly connected with an eighteenth driving wheel (503009);

the lower part of the tenth rotating shaft rod (503010) is rotationally connected with the first gathering plate (5021);

the lower part of the second screw rod (503011) is fixedly connected with a tenth rotating shaft rod (503010);

a second internal thread sliding block (503012), wherein the inner side of the second internal thread sliding block (503012) is connected with the second screw rod (503011) in a sliding way;

a third gear (503013), wherein the axle center of the third gear (503013) is rotationally connected with the second internal thread sliding block (503012);

the second arc-shaped fixing plate (503014), the second arc-shaped fixing plate (503014) is fixedly connected with the third flat gear (503013), the fourth flat gear (503015) is arranged below the second arc-shaped fixing plate (503014), and the second arc-shaped fixing plate (503014) is connected with the frying barrel (405);

a fourth flat gear (503015), wherein the fourth flat gear (503015) is rotationally connected with the second collecting frame (503016);

a second collecting frame (503016), wherein the lower part of the second collecting frame (503016) is welded with the first collecting plate (5021);

a nineteenth driving wheel (503017), wherein the axis of the nineteenth driving wheel (503017) is fixedly connected with a fourth flat gear (503015), and the outer annular surface of the nineteenth driving wheel (503017) is in transmission connection with a fourth driving wheel (507) through a belt;

a fifth flat gear (503018), wherein the fifth flat gear (503018) is rotationally connected with the second collecting frame (503016);

the shaft center of the twentieth driving wheel (503019) is fixedly connected with the fifth flat gear (503018), and the outer annular surface of the twentieth driving wheel (503019) is in transmission connection with the third driving wheel (504) through a belt;

and the third collecting frame (503020), the third collecting frame (503020) is rotationally connected with the second screw rod (503011), the lower part of the third collecting frame (503020) is welded with the first collecting plate (5021), and the third collecting frame (503020) is connected with the fixed sealing cover (401).

7. The Shake-jump donkey-hide gelatin bead processing device as claimed in claim 6, wherein a string is arranged above the round hole plate (6018).

8. The Shake jump donkey-hide gelatin pearl processing apparatus of claim 7, characterized by, the edge that sieves frame (608) and stir the comb strip (6017) and slip to connect is provided with the rubber strip.

Images