CN116584513A - Quick-frozen food processing equipment with anti-adhesion function - Google Patents

Abstract

The invention discloses quick-frozen food processing equipment with an anti-adhesion function, which comprises a transmission table and a surface picking mechanism, wherein a case is symmetrically and fixedly connected to the upper surface of the transmission table, and the surface picking mechanism comprises two-way motors I. The flour storage bin positioned above the flour picking structure can swing through pushing and pulling of the push-pull rod, flour in the flour storage bin can be uniformly scattered on the flour skin below through the filter screen arranged at the bottom of the flour storage bin, the bin door is arranged on the top cover positioned above the flour storage bin, the flour can be added from the bin door, and the flour can be prevented from being sticky with the transmission table while the flour is driven by the motion of the flour picking mechanism to move forward.

Description

Quick-frozen food processing equipment with anti-adhesion function

Technical Field

The invention belongs to the technical field of quick-frozen food processing equipment, and particularly relates to quick-frozen food processing equipment with an anti-adhesion function.

Background

The quick-frozen food is made of fresh raw materials, and is subjected to proper treatment and quick freezing, and is delivered to a place of low-temperature product offset under the condition of continuous low temperature of-18 ℃ to-20 ℃. The quick-frozen food has the greatest advantages that the original quality of the food is preserved at low temperature without any preservative and additive, but the nutrition value of the quick-frozen food cannot be compared with that of fresh fish, meat and the like without any preservative and additive, and the nutrition of the food is preserved to the maximum extent. The department of health sends out notification on 11 and 25 2011, and the new national standard will be formally implemented on 12 and 21 2011, which means that staphylococcus aureus will be detected from undetectable to limited amount in quick-frozen foods. It is therefore particularly important to design a processing device for quick-frozen foods.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide quick-frozen food processing equipment with an anti-adhesion function, and the quick-frozen food processing equipment has the advantage of anti-adhesion.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a quick-frozen food processing equipment with anti-adhesion function, includes transmission platform and chooses face mechanism, the upper surface symmetry fixedly connected with organic case of transmission platform, choose face mechanism include two bi-directional motor one, two bi-directional motor one's bottom and the upper surface fixed connection of transmission platform, two equal fixedly connected with fixed block one of inner wall of machine case, two the inner wall of fixed block one all rotates with bi-directional motor one's output shaft to be connected, two bi-directional motor one's output shaft surface all is provided with the screw thread, two rotate between the inner wall of machine case and be connected with the initiative pole, the outer wall rotation of initiative pole is connected with roller bearing one, the equal fixedly connected with gear one in both ends of initiative pole, two the tooth of gear one all meshes with bi-directional motor one output shaft surface's screw thread, the equal fixedly connected with connecting rod one in both ends of initiative pole, two be provided with the driven lever between the one end of keeping away from the initiative pole, two the jack has all been seted up to the outer wall of machine case, two the connecting rod one all passes the jack with the both ends of driven lever.

Through the technical scheme, the transmission and anti-sticking effects are achieved, the first bidirectional motor rotates back and forth to drive the first bidirectional motor to rotate back and forth on the output shaft, so that the first gear is driven to rotate back and forth to drive the driving rod fixed on the inner wall of the first gear to rotate, the first connecting rod fixed on the driving rod is turned up and down along with the movement of the first driving rod, and the dough-sheet can be prevented from sticking to the transmission table while the dough-sheet is driven to move forward by the movement of the dough-sheet picking mechanism.

Preferably, two the top fixedly connected with organic top cap of quick-witted case, the inside flour storage bin that is provided with of top cap, the first fixedly connected with mounting of inner wall symmetry of top cap, two the equal fixedly connected with push-and-pull rod of inner wall of first mounting, two the output and the outer wall fixed connection of flour storage bin of push-and-pull rod, the outer wall symmetry fixedly connected with axis of rotation of flour storage bin, two the one end of axis of rotation all rotates with the inner wall of top cap to be connected, the bottom of flour storage bin is provided with the screen mesh, the door has been seted up to the outer wall of top cap, the door is located flour storage bin top.

Through above-mentioned technical scheme, played the automatic effect of preventing sticky of spilling flour, the flour storage bin that is located and chooses face structure top will realize the swing through the push-and-pull of push-and-pull rod, and the flour of dress in the flour storage bin will spill on the face skin of below evenly through the filter screen sieve that flour storage bin bottom set up, reduces the follow-up hobbing cutter when cutting the face skin with the sticky of face skin.

Preferably, one side that quick-witted case was kept away from to the top cover is provided with cutting structure, cutting structure is including two curb plates, two the top of curb plate all is connected with the bottom fixed connection of top cover of the machine, two be provided with the diaphragm between the curb plate, the outer wall of diaphragm and the outer wall fixed connection of two curb plates, the inner wall fixedly connected with motor of top cover is first, the output shaft fixedly connected with transfer line of motor one, the inner wall fixedly connected with transmission shaft one of transfer line one, the inner wall rotation of transmission shaft one is connected with transfer line two, be provided with one and transmission shaft one between transfer line two and pass one expansion spring one, one end inner wall rotation that transmission line one was kept away from to transfer line two is connected with transmission shaft two, the outer wall fixedly connected with transfer line three of transmission shaft is provided with expansion spring two between transfer line three and the transfer line two, the inner wall rotation of transfer line three is connected with one, one is kept away from the inner wall fixedly connected with transfer line of transfer line three one and the inner wall fixedly connected with of top cover of the machine, two outer wall fixedly connected with transmission shaft two, two equal and three equal and four rotary tables of the equal and four rotary table of each are all fixedly connected with the rotary table, every carousel is connected with one end of each rotary table, four the equal rotary table is connected with one.

Through above-mentioned technical scheme, play the effect of dough sheet cutting, motor one rotates and drives transfer line one and regard the output shaft of motor one as the centre of a circle to do circular motion, drives transfer line two, transmission shaft three, carousel one and dwang then and do circular motion, and the hobbing cutter that the dwang end set up will carry out the cutting of circumference orbit on the dough sheet that is pushed.

Preferably, a cam slider lifting mechanism I is arranged above the transmission rod II, the cam slider lifting mechanism I comprises a bidirectional motor II, a fixing part II is fixedly connected to the bottom of the bidirectional motor II, the outer wall of the fixing part II is fixedly connected with the inner wall of the top cover, a cam I is fixedly connected to the output shaft of the bidirectional motor II, a fixing part III is arranged between the bidirectional motor II and the cam I, the outer wall of the fixing part III is fixedly connected with the outer wall of the fixing part II, a slide rod I is slidably connected to the inner wall of the fixing part III, one end of the slide rod I is fixedly connected with a slide block I, a slide rod II is slidably connected to the inner wall of the slide rod II, a transmission shaft five is fixedly connected to the outer wall of the transmission shaft five, and the transmission wheel I is located below the cam and is rotatably connected with the cam I.

Through the technical scheme, the function of enabling the cutting structure to displace is achieved, the two-way motor II drives the cam I to rotate back and forth, when the large-diameter part of the cam I rotates to the first position of the driving wheel, the first driving wheel pushes the second sliding rod downwards to enable the second sliding rod to be in contact with the second driving rod, the second driving rod is downwards pressed, so that the cutting structure is enabled to displace downwards, finally the hob is enabled to be in contact with the dough sheet to achieve cutting, the viscosity of the dough sheet can be reduced through the hob structure, after the cutting is completed, the two-way motor II rotates reversely, the small-diameter part of the cam I is driven to rotate to the first driving wheel, at the moment, the downward pressure on the second driving rod is relieved, and the hob is enabled to displace upwards due to shrinkage of the first telescopic spring and the second telescopic spring, and accordingly the hob is lifted up and separated from the dough sheet.

Preferably, the inside of transmission platform is provided with step motion mechanism, step motion mechanism is including support frame and two transfer lines IV, the outer wall fixedly connected with motor II of support frame, the output shaft fixedly connected with gear II of motor II, two the equal fixedly connected with gear III of outer wall of transfer line IV, the tooth of gear II meshes with the tooth of two gears III, two the equal fixedly connected with carousel of one end that the transfer line IV kept away from gear III, two carousel two all is located the transmission platform outside, two the equal rotation of outer wall of carousel two is connected with the stepper, two the equal sliding connection of outer wall of stepper has the gag lever post, two the outer wall and the transmission platform fixed connection of gag lever post are provided with the transmission board between the stepper, the outer wall of transmission board and the outer wall fixed connection of two stepper, step motion mechanism has two sets of and is located cutting structure both sides respectively.

Through above-mentioned technical scheme, play to the skin propelling movement and prevent sticky effect, through motor two rotation, drive gear two and rotate, gear two drive two gears three rotations of meshing with it, two gears three drive the transfer line four rotations with its fixed connection, drive carousel two rotations then, carousel two will drive the stepper and regard transfer line four as the axle center to do circular motion, fix the transmission board at the stepper outer wall by the drive to realize the propulsion to the skin, also prevent that skin and transmission bench surface from gluing.

Preferably, the transmission table is internally provided with a protruding structure, the protruding structure comprises a bidirectional motor III, the bottom of the bidirectional motor III is fixedly connected with the inner wall of the transmission table, an output shaft of the bidirectional motor III is fixedly connected with a cam II, a fixing piece IV is arranged between the bidirectional motor III and the cam II, the inner wall of the fixing piece IV is slidably connected with a slide rod III, the outer wall of the slide rod III is fixedly connected with a slide block II, the outer wall of the slide block II is fixedly connected with the inner wall of the transmission table, the inner wall of the slide block II is slidably connected with a slide rod IV, the outer wall of the slide rod IV is fixedly connected with a transmission rod IV, the inner wall of the transmission rod V is fixedly connected with a transmission shaft VI, the outer wall of the transmission rod II is positioned on the front face of the cam II and is rotationally connected with the transmission rod II, one end of the transmission rod V is fixedly connected with a protruding rod I, the outer wall of the fixing piece IV is fixedly connected with a plurality of transmission shafts seven, the transmission shafts seven are uniformly distributed equidistantly, and one end of the transmission shaft seven is fixedly connected with a protruding disc.

Through the technical scheme, the function of separating the dumpling wrappers from the wrappers is achieved, the stepping movement mechanism pushes the wrappers to move forwards continuously, when the wrappers move to the position right in front of the protruding structure, the three-way motor rotates to drive the cam II to rotate, and when the large-diameter part of the cam II rotates to the position of the driving wheel II, the driving wheel II pushes the driving rod II forwards, so that the protruding disc is driven to move forwards, the protruding disc contacts the cut dumpling wrappers to eject the wrappers, and separation of the dumpling wrappers is achieved.

Compared with the prior art, the invention has the beneficial effects that:

1. the flour storage bin positioned above the flour picking structure can swing through pushing and pulling of the push-pull rod, flour in the flour storage bin can be uniformly scattered on the flour skin below through the filter screen arranged at the bottom of the flour storage bin, the bin door is arranged on the top cover positioned above the flour storage bin, the flour can be added from the bin door, and the flour can be prevented from being sticky with the transmission table while the flour is driven by the motion of the flour picking mechanism to move forward.

2. The second motor rotates to drive the second gear to rotate, the second gear drives the two gears three meshed with the second gear to rotate, the two gears three drive the transmission rod four fixedly connected with the second gear to rotate, then the second turntable is driven to rotate, the second turntable drives the stepper to do circular motion by taking the transmission rod four as an axis, and the transmission plate fixed on the outer wall of the stepper is driven, so that the pushing action on the dough sheet is realized, and the surface adhesion of the dough sheet and the transmission table can be prevented.

3. The first motor rotates to drive the transmission rod I to circularly move by taking the output shaft of the first motor as the center of a circle, then drives the transmission rod II, the transmission shaft III, the rotary table I and the rotary rod to circularly move, the hob arranged at the tail end of the rotary rod cuts a circular track on the pushed dough sheet, the second bidirectional motor drives the first cam to rotate back and forth, when the large-diameter part of the first cam rotates to the first transmission wheel, the first transmission wheel pushes the second sliding rod downwards to be in contact with the second transmission rod, the second transmission rod is pressed downwards, so that the cutting structure is displaced downwards, finally the hob is in contact with the dough sheet to realize cutting, the hob structure can reduce the viscosity of the dough sheet, after the cutting is completed, the second bidirectional motor reversely rotates to drive the small-diameter part of the first cam to rotate to the first transmission wheel, the downward pressure on the second transmission rod is relieved at the moment, and the first telescopic spring and the second telescopic spring are contracted, so that the cutting structure is upwards displaced, and the hob is lifted off the dough sheet.

4. The dough cover is pushed to move forward through the stepping motion mechanism, when the dough cover moves to the position right in front of the extruding structure, the bidirectional motor III rotates to drive the cam II to rotate, when the large-diameter part of the cam II rotates to the position of the driving wheel II, the driving wheel II pushes the driving rod V forward, so that the extruding disc is driven to move forward, the extruding disc contacts the cut dumpling wrappers to eject the dough cover, separation of the dumpling wrappers is realized, after separation is successful, the bidirectional motor III rotates to drive the cam II to rotate reversely, and when the small-diameter part of the cam II rotates to the position of the driving wheel II, the extruding structure returns to the original position.

Drawings

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

FIG. 2 is a schematic view of the structure of the flour storage bin of the invention;

FIG. 3 is a schematic view of a surface picking mechanism according to the present invention;

FIG. 4 is a schematic view of a cutting structure according to the present invention;

FIG. 5 is an enlarged schematic view of the structure at A of the present invention;

FIG. 6 is an enlarged schematic view of the structure at B of the present invention;

FIG. 7 is an enlarged schematic view of the structure at C of the present invention;

FIG. 8 is a schematic view of the cam slider lifting mechanism of the present invention;

FIG. 9 is a schematic diagram of a stepping motion mechanism according to the present invention;

FIG. 10 is a schematic view of a plunging configuration of the present invention.

In the figure: 1. a transmission station; 2. a surface picking mechanism; 101. a chassis; 201. a bi-directional motor I; 202. a first fixed block; 203. a driving rod; 204. a first rolling shaft; 205. a first gear; 206. a first connecting rod; 207. a driven rod; 208. a second rolling shaft; 301. a top cover; 302. a flour storage bin; 303. a first fixing piece; 304. a push-pull rod; 305. a rotating shaft; 306. a bin gate; 4. cutting the structure; 401. a side plate; 402. a cross plate; 403. a first motor; 404. a transmission rod I; 405. a transmission shaft I; 406. a transmission rod II; 407. a first telescopic spring; 408. a transmission shaft II; 409. a transmission rod III; 410. a second telescopic spring; 411. a first fixed rod; 412. a transmission shaft III; 413. a first turntable; 414. a rotating rod; 415. a hinge; 416. a transmission shaft IV; 417. a hob; 5. cam slider lifting mechanism; 501. a two-way motor II; 502. a second fixing piece; 503. a first cam; 504. a third fixing piece; 505. a first slide bar; 506. a first sliding block; 507. a second slide bar; 508. a transmission shaft V; 509. a first driving wheel; 6. a step motion mechanism; 601. a support frame; 602. a transmission rod IV; 603. a second motor; 604. a second gear; 605. a third gear; 606. a second turntable; 607. a stepper; 608. a limit rod; 609. a transmission plate; 7. a plunging structure; 701. a bidirectional motor III; 702. a second cam; 703. a fixing piece IV; 704. a third slide bar; 705. a second slide block; 706. a slide bar IV; 707. a transmission rod V; 708. a transmission shaft six; 709. a second driving wheel; 710. a plunging rod; 711. a transmission shaft seven; 712. protruding into the tray.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-10, the present invention provides a technical solution: the quick-frozen food processing equipment with the anti-adhesion function comprises a transmission table 1 and a surface picking mechanism 2, wherein the upper surface of the transmission table 1 is symmetrically and fixedly connected with an organic case 101, the surface picking mechanism 2 comprises two first two-way motors 201, the bottoms of the two first two-way motors 201 are fixedly connected with the upper surface of the transmission table 1, the inner walls of the two first cases 101 are fixedly connected with first fixing blocks 202, the inner walls of the two first fixing blocks 202 are rotationally connected with the output shafts of the first two-way motors 201, threads are arranged on the surfaces of the output shafts of the two first two-way motors 201, a driving rod 203 is rotationally connected between the inner walls of the two cases 101, a roller I204 is rotationally connected to the outer wall of the driving rod 203, gears I205 are fixedly connected to the two ends of the driving rod 203, teeth of the two gears I205 are meshed with the threads of the output shafts of the first two-way motors 201, a connecting rod I206 is fixedly connected to the two ends of the driving rod 203, a driven rod 207 is arranged between one end of the two connecting rods 206 far away from the driving rod 203, through jacks are formed in the outer walls of the two cases 101, the two connecting rods 206 are rotationally connected with two rollers 208..

In this embodiment, the first bi-directional motor 201 rotates back and forth to drive the first gear 205 to rotate back and forth, and the first connecting rod 206 fixed on the first gear 205 rotates along with the first driving rod 203, so that the dough sheet is prevented from sticking to the conveying table 1 while the dough sheet is driven to move forward by the movement of the dough picking mechanism 2.

Specifically, the top fixedly connected with organic top cap 301 of two quick-witted casees 101, the inside flour storage storehouse 302 that is provided with of top cap 301, the first 303 of inner wall symmetry fixedly connected with mounting of top cap 301, the equal fixedly connected with push-and-pull rod 304 of inner wall of two mountings first 303, the output and the outer wall fixed connection of flour storage storehouse 302 of two push-and-pull rods 304, the outer wall symmetry fixedly connected with axis of rotation 305 of flour storage storehouse 302, the one end of two axis of rotation 305 all rotates with the inner wall of top cap 301 to be connected, the bottom of flour storage storehouse 302 is provided with the screen mesh, the door 306 has been seted up to the outer wall of top cap 301, door 306 is located flour storage storehouse 302 top.

In this embodiment, the flour storage bin 302 above the flour picking mechanism 2 swings through pushing and pulling of the push-pull rod 304, and flour in the flour storage bin 302 is uniformly scattered on the flour sheet below through the filter screen arranged at the bottom of the flour storage bin 302, so that the viscosity of the subsequent hob 417 in dough sheet cutting is reduced.

Specifically, a cutting structure 4 is arranged on one side of the top cover 301 far away from the chassis 101, the cutting structure 4 comprises two side plates 401, the tops of the two side plates 401 are fixedly connected with the bottom of the top cover 301, a transverse plate 402 is arranged between the two side plates 401, the outer wall of the transverse plate 402 is fixedly connected with the outer wall of the two side plates 401, the inner wall of the top cover 301 is fixedly connected with a first motor 403, the output shaft of the first motor 403 is fixedly connected with a first transmission rod 404, the inner wall of the first transmission rod 404 is fixedly connected with a first transmission shaft 405, the inner wall of the first transmission shaft 405 is rotatably connected with a second transmission rod 406, a first expansion spring 407 is arranged between the first transmission rod 404 and the second transmission rod 406, the first transmission shaft 405 penetrates through the first expansion spring 407, the inner wall of one end of the second transmission rod 406 far away from the first transmission shaft 405 is rotatably connected with a second transmission shaft 408, the outer wall of the second transmission shaft 408 is fixedly connected with a third transmission rod 409, A second telescopic spring 410 is arranged between the third transmission rod 409 and the second transmission rod 406, the second transmission rod 408 penetrates through the second telescopic spring 410, the first fixed rod 411 is rotationally connected to the inner wall of the third transmission rod 409, one end of the first fixed rod 411, which is far away from the third transmission rod 409, is fixedly connected with the inner wall of the top cover 301, the outer wall of the second transmission rod 406 is fixedly connected with a plurality of third transmission shafts 412, the plurality of third transmission shafts 412 are uniformly distributed at equal intervals, one end of each third transmission shaft 412, which is far away from the second transmission rod 406, is rotationally connected with a first rotary table 413, the outer wall of the first rotary table 413 is rotationally connected with the inner wall of the transverse plate 402, the rotary rod 414 is fixedly connected with a rotary rod 414 at the center of each first rotary table 413, the hinge part 415 is fixedly connected to the inner wall of each hinge part 415, the rotary rod 416 is rotationally connected with a fourth rotary cutter 417.

In this embodiment, the first motor 403 rotates to drive the first transmission rod 404 to perform circular motion with the output shaft of the first motor 403 as the center of circle, and then drive the second transmission rod 406, the third transmission shaft 412, the first turntable 413 and the rotary rod 414 to perform circular motion, and the hob 417 disposed at the end of the rotary rod 414 will perform circular track cutting on the pushed dough sheet.

Specifically, a first cam slider lifting mechanism 5 is arranged above the second transmission rod 406, the first cam slider lifting mechanism 5 comprises a second bidirectional motor 501, a second fixing part 502 is fixedly connected to the bottom of the second bidirectional motor 501, the outer wall of the second fixing part 502 is fixedly connected with the inner wall of the top cover 301, an output shaft of the second bidirectional motor 501 is fixedly connected with a first cam 503, a third fixing part 504 is arranged between the second bidirectional motor 501 and the first cam 503, the outer wall of the third fixing part 504 is fixedly connected with the outer wall of the second fixing part 502, a first sliding rod 505 is slidably connected to the inner wall of the third fixing part 504, one end of the first sliding rod 505 is fixedly connected with a first sliding block 506, the inner wall of the first sliding block 506 is slidably connected with a second sliding rod 507, a fifth transmission shaft 508 is fixedly connected to the inner wall of the second sliding rod 507, the outer wall of the fifth transmission shaft 508 is rotatably connected with a first transmission wheel 509, and the first transmission wheel 509 is located below the first cam 503 and rotatably connected with the first cam 503.

In this embodiment, the bi-directional motor two 501 drives the cam one 503 to rotate back and forth, when the large diameter part of the cam one 503 rotates to the first transmission wheel 509, the first transmission wheel 509 pushes the second sliding rod 507 downward to contact with the second transmission rod 406, the second transmission rod 406 is pushed downward, so that the cutting structure 4 is displaced downward, finally the hob 417 contacts with the dough sheet to cut, the hob 417 structure can reduce the viscosity of the dough sheet, and after the cutting is completed, the bi-directional motor two 501 rotates reversely to drive the small diameter part of the cam one 503 to rotate to the first transmission wheel 509, at this time, the downward pressure on the second transmission rod 406 is relieved, and the cutting structure 4 is displaced upward along with the shrinkage of the first expansion spring 407 and the second expansion spring 410, so that the hob 417 is lifted away from the dough sheet.

Specifically, the inside of transmission platform 1 is provided with step motion mechanism 6, step motion mechanism 6 is including support frame 601 and two transfer lines four 602, the outer wall fixedly connected with motor two 603 of support frame 601, the output shaft fixedly connected with gear two 604 of motor two 603, the outer wall of two transfer lines four 602 all fixedly connected with gear three 605, the tooth of gear two 604 meshes with the tooth of two gears three 605, the one end that the gear three 605 was kept away from to two transfer lines four 602 is all fixedly connected with carousel two 606, two carousel two 606 all are located transmission platform 1 outsides, the outer wall of two carousel two 606 all rotates and is connected with stepper 607, the equal sliding connection of outer wall of two stepper 607 has gag lever post 608, the outer wall and the transmission platform 1 fixed connection of two gag lever post 608, be provided with transfer board 609 between two stepper 607, the outer wall and the outer wall fixed connection of two stepper 607 of transfer board 609, step motion mechanism 6 has two sets and is located cutting structure 4 both sides respectively.

In this embodiment, the second motor 603 rotates to drive the second gear 604 to rotate, the second gear 604 drives the two third gears 605 meshed with the second gear to rotate, the two third gears 605 drive the fourth transmission rod 602 fixedly connected with the second gear to rotate, and then drive the second turntable 606 to rotate, the second turntable 606 drives the stepper 607 to do circular motion with the fourth transmission rod 602 as an axis, and the transmission plate 609 fixed on the outer wall of the stepper 607 is driven, so that the pushing effect on the dough sheet is achieved, and the surface adhesion of the dough sheet and the transmission table 1 can be prevented.

Specifically, the transmission platform 1 is internally provided with a plunging structure 7, the plunging structure 7 comprises a bidirectional motor three 701, the bottom of the bidirectional motor three 701 is fixedly connected with the inner wall of the transmission platform 1, an output shaft of the bidirectional motor three 701 is fixedly connected with a cam two 702, a fixing piece four 703 is arranged between the bidirectional motor three 701 and the cam two 702, the inner wall of the fixing piece four 703 is slidably connected with a slide rod three 704, the outer wall of the slide rod three 704 is fixedly connected with a slide block two 705, the outer wall of the slide block two 705 is fixedly connected with the inner wall of the transmission platform 1, the inner wall of the slide block two 705 is slidably connected with a slide rod four 706, the outer wall of the slide rod four 706 is fixedly connected with a transmission rod five 707, the inner wall of the transmission rod five 707 is fixedly connected with a transmission shaft six 708, the outer wall of the transmission shaft six 708 is rotatably connected with a driving wheel two 709, one end of the transmission rod five 707 far away from the transmission shaft six 708 is fixedly connected with a plunging rod 710, the outer wall of the intake rod 710 is fixedly connected with a plurality of transmission shafts seven 711, the plurality of transmission shafts seven are uniformly distributed equidistantly, one end of the transmission shafts seven are fixedly connected with a plunging disc 712 of the plurality of transmission shafts seven.

In this embodiment, the stepping motion mechanism 6 pushes the dough cover to move forward, when the dough cover moves to the right front of the advancing structure 7, the three-way motor 701 rotates to drive the second cam 702 to rotate, and when the large diameter part of the second cam 702 rotates to the second driving wheel 709, the second driving wheel 709 pushes the fifth driving rod 707 forward, so as to drive the advancing disc 712 to move forward, and the advancing disc 712 contacts the cut dumpling wrapper to eject the dough cover, so as to separate the dumpling wrapper.

The working principle and the using flow of the invention are as follows: the dumpling wrapper processed by the prior equipment is placed on a first roller 204 and a second roller 208 of a flour picking mechanism 2, a power supply of a first bidirectional motor 201 is started, an output shaft of the first bidirectional motor 201 rotates back and forth to drive a first gear 205 to rotate back and forth, a driving rod 203 fixed on the inner wall of the first gear 205 is driven to rotate back and forth, a first connecting rod 206 is turned up and down along with the first connecting rod, meanwhile, a flour storage bin 302 positioned above the flour picking mechanism 2 swings through pushing and pulling of a push-pull rod 304, flour contained in the flour storage bin 302 is uniformly scattered on a flour wrapper below through a filter screen sieve arranged at the bottom of the flour storage bin 302, a bin gate 306 is arranged on a top cover 301 positioned above the flour storage bin 302, flour can be added from the bin gate 306, the flour is driven to move forward by the motion of the flour picking mechanism 2, a second motor 603 rotates to drive a second gear 604 to rotate, and a third gear 605 meshed with the second gear 604 rotates, the two gears III 605 drive the transmission rod IV 602 fixedly connected with the transmission rod IV to rotate, then drive the turntable II 606 to rotate, the turntable II 606 drives the stepper 607 to do circular motion by taking the transmission rod IV 602 as an axis, the transmission plate 609 fixed on the outer wall of the stepper 607 is driven, thereby realizing the pushing action on the dough sheet, the dough sheet can be prevented from being stuck to the surface of the transmission table 1, the dough sheet is pushed to the lower part of the cutting mechanism 4, the motor I403 rotates to drive the transmission rod I404 to do circular motion by taking the output shaft of the motor I403 as the center of a circle, then drive the transmission rod II 406, the transmission shaft III 412, the turntable I413 and the rotary rod 414 to do circular motion, the hob 417 arranged at the tail end of the rotary rod 414 cuts the circumference track on the pushed dough sheet, the two-way motor II 501 drives the cam I503 to rotate back and forth, when the large diameter part of the cam I503 rotates to the transmission wheel I509, the transmission wheel I509 pushes the slide bar II 507 downwards to contact the transmission rod II 406, the transmission rod II 406 is pushed downwards, so that the cutting structure 4 generates downward displacement, finally, the hob 417 contacts the dough sheet to realize cutting, after the cutting is completed, the bi-directional motor II 501 reversely rotates to drive the small diameter part of the cam I503 to rotate to the transmission wheel I509, at the moment, the downward pressure on the transmission rod II 406 is relieved, the cutting structure is upwards displaced along with the contraction of the telescopic spring I407 and the telescopic spring II 410, the hob 417 is lifted away from the dough sheet, the dough sheet is repeatedly moved forwards, after the cutting is completed, the stepping motion mechanism 6 pushes the dough sheet to continuously move forwards, when the dough sheet moves to the position right in front of the protruding structure 7, the bi-directional motor III 701 rotates to drive the cam II 702 to rotate, and when the large diameter part of the cam II 702 rotates to the transmission wheel II 709, the transmission rod II 709 pushes the transmission rod III forwards, thereby driving the feeding disc 712 forwards to move, the feeding disc II contacts the cut dumpling sheet, the bi-directional driving wheel II is separated from the protruding structure, and the bi-directional driving wheel 702 reversely rotates to the small diameter part of the driving wheel 709 repeatedly, and the driving wheel II is repeatedly moved to the position of the small diameter part 709 after the separation of the dough sheet is successfully.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. Quick-frozen food processing equipment with anti-adhesion function, including transmission platform (1) and choosing face mechanism (2), its characterized in that: the upper surface of the transmission table (1) is symmetrically and fixedly connected with a case (101), the surface picking mechanism (2) comprises two bi-directional motors I (201), the bottoms of the two bi-directional motors I (201) are fixedly connected with the upper surface of the transmission table (1), the inner walls of the two cases (101) are fixedly connected with a first fixed block (202), the inner walls of the two fixed blocks I (202) are rotationally connected with the output shaft of the bi-directional motors I (201), the surfaces of the output shafts of the two bi-directional motors I (201) are respectively provided with threads, a driving rod (203) is rotationally connected between the inner walls of the two cases (101), the outer wall of the driving rod (203) is rotationally connected with a first roller (204), the two ends of the driving rod (203) are respectively fixedly connected with a first gear (205), the teeth of the two gears I (205) are respectively meshed with the threads of the output shaft surface of the bi-directional motors I (201), the two ends of the driving rod (203) are respectively fixedly connected with a first connecting rod (206), the two ends of the connecting rod I (206) are respectively far away from the inner walls of the two driving rods (203) and are respectively provided with one end of the two driven rods (207) which are respectively connected with the two end connecting rods (101), the outer wall of the driven rod (207) is rotatably connected with a second roller (208).

2. A quick-frozen food processing apparatus with anti-blocking function as recited in claim 1, wherein: the novel wheat flour storage bin comprises two top fixedly connected with organic top covers (301) of machine case (101), flour storage bin (302) are arranged inside machine top covers (301), first fixing pieces (303) are symmetrically and fixedly connected to the inner walls of machine top covers (301), push-pull rods (304) are fixedly connected to the inner walls of first fixing pieces (303), the output ends of the push-pull rods (304) are fixedly connected with the outer walls of the flour storage bin (302), rotating shafts (305) are symmetrically and fixedly connected to the outer walls of the flour storage bin (302), one ends of the rotating shafts (305) are rotatably connected with the inner walls of the machine top covers (301), filter screens are arranged at the bottoms of the flour storage bin (302), bin gates (306) are arranged on the outer walls of the machine top covers (301), and the bin gates (306) are located above the flour storage bin (302).

3. A quick-frozen food processing apparatus with anti-blocking function as recited in claim 2, wherein: one side of the top cover (301) far away from the chassis (101) is provided with a cutting structure (4), the cutting structure (4) comprises two side plates (401), the tops of the two side plates (401) are fixedly connected with the bottom of the top cover (301), a transverse plate (402) is arranged between the two side plates (401), the outer wall of the transverse plate (402) is fixedly connected with the outer walls of the two side plates (401), the inner wall of the top cover (301) is fixedly connected with a motor I (403), the output shaft of the motor I (403) is fixedly connected with a transmission rod I (404), the inner wall of the transmission rod I (404) is fixedly connected with a transmission shaft I (405), the inner wall of the transmission rod I (404) is rotatably connected with a transmission rod II (406), a telescopic spring I (407) is arranged between the transmission rod I (404) and the transmission rod II (406) and the transmission rod II (405), one end inner wall of the transmission rod II (406) far away from the transmission shaft I (405) is rotatably connected with a transmission shaft II (408), the transmission rod II (408) is fixedly connected with a transmission rod II (408), the transmission rod III (409) and the transmission rod III (409) is fixedly connected with the transmission rod II (408), the inner wall rotation of transfer line three (409) is connected with dead lever one (411), the one end that transfer line three (409) was kept away from to dead lever one (411) and the inner wall fixed connection of top cap (301), the outer wall fixedly connected with of transfer line two (406) is a plurality of transmission shaft three (412), and is a plurality of transmission shaft three (412) are equidistant evenly distributed, every the one end that transfer line two (406) was kept away from to transmission shaft three (412) is all rotated and is connected with carousel one (413), a plurality of the outer wall of carousel one (413) all rotates with the inner wall of diaphragm (402) to be connected, every the equal fixedly connected with dwang (414) in centre of a circle department of carousel one (413), every the equal fixedly connected with hinge (415) of one end that carousel one (413) was kept away from to dwang (414), every the equal fixedly connected with transmission shaft four (416) of inner wall of hinge (415), every the outer wall of transmission shaft four (416) all rotates and is connected with hobbing cutter (417).

4. A quick-frozen food processing apparatus with anti-blocking function according to claim 3, characterized in that: the cam slider lifting mechanism I (5) is arranged above the transmission rod II (406), the cam slider lifting mechanism I (5) comprises a bidirectional motor II (501), the bottom of the bidirectional motor II (501) is fixedly connected with a fixing piece II (502), the outer wall of the fixing piece II (502) is fixedly connected with the inner wall of the top cover (301), the output shaft of the bidirectional motor II (501) is fixedly connected with a cam I (503), a fixing piece III (504) is arranged between the bidirectional motor II (501) and the cam I (503), the outer wall of the fixing piece III (504) is fixedly connected with the outer wall of the fixing piece II (502), the inner wall of the fixing piece III (504) is connected with a slide bar I (505), one end of the slide bar I (505) is fixedly connected with a slide bar I (506), the inner wall of the slide bar II (507) is fixedly connected with a transmission shaft V (508), the outer wall of the transmission shaft V (508) is rotatably connected with a transmission wheel I (509), and the transmission wheel I (509) is rotatably connected with the cam I (503).

5. A quick-frozen food processing apparatus with anti-blocking function as recited in claim 1, wherein: the inside of transmission platform (1) is provided with step motion mechanism (6), step motion mechanism (6) is including support frame (601) and two transfer lines four (602), the outer wall fixedly connected with motor two (603) of support frame (601), the output shaft fixedly connected with gear two (604), two the outer wall of transfer line four (602) is fixedly connected with gear three (605), the tooth of gear two (604) meshes with the tooth of two gear three (605), two the equal fixedly connected with carousel two (606) of one end that gear three (605) was kept away from to transfer line four (602), two carousel two (606) all are located transmission platform (1) outside, two the outer wall of carousel two (606) is all rotated and is connected with stepper (607), two the outer wall of stepper (607) is all sliding connection with gag lever (608), two the outer wall and transmission platform (1) of gag lever (608) are fixedly connected with, two between stepper plate (607) are provided with transmission plate (609), two the outer wall (609) are located step motion mechanism (4) and two both sides (609) are connected with step motion respectively.

6. A quick-frozen food processing apparatus with anti-blocking function as recited in claim 1, wherein: the transmission table (1) is internally provided with a plunging structure (7), the plunging structure (7) comprises a bidirectional motor III (701), the bottom of the bidirectional motor III (701) is fixedly connected with the inner wall of the transmission table (1), the output shaft of the bidirectional motor III (701) is fixedly connected with a cam II (702), a fixing part IV (703) is arranged between the bidirectional motor III (701) and the cam II (702), the inner wall of the fixing part IV (703) is slidably connected with a slide bar III (704), the outer wall of the slide bar III (704) is fixedly connected with a slide block II (705), the outer wall of the slide block II (705) is fixedly connected with the inner wall of the transmission table (1), the inner wall of the slide block II (705) is slidably connected with a slide bar IV (706), the outer wall of the slide bar IV (706) is fixedly connected with a transmission rod IV (707), the inner wall of the transmission rod IV (708) is fixedly connected with a transmission wheel II (709), the outer wall of the transmission shaft VI (708) is rotatably connected with a transmission wheel II (709), the transmission wheel II (709) is positioned on the front surface of the cam II (703) and is rotatably connected with the transmission rod IV (710) and one end (710) which is fixedly connected with a plurality of the plunger rod (710), the transmission shafts seven (711) are uniformly distributed at equal intervals, and one ends of the transmission shafts seven (711) are fixedly connected with a protruding disc (712).