CN111802431A - Food processing detection device based on big data cloud platform and use method thereof - Google Patents

Abstract

The invention relates to the technical field of food processing, in particular to a food processing detection device based on a big data cloud platform and a using method thereof, wherein the food processing detection device based on the big data cloud platform comprises a processing detection box, wherein the left side of the top of the processing detection box is provided with a first conveyor belt, the top of the first conveyor belt is provided with a turn-over component and a pre-cutting block component, the bottom of the first conveyor belt is provided with a hammering component, the right side of the first conveyor belt is provided with a cutting and stirring component, and the left side of the hammering component is provided with a meat ball forming component; according to the invention, the beating assembly is arranged, and the meat paste is beaten by the alternative downward movement of the plurality of beating wheels, so that the meat balls made by beating the meat paste are elastic, and the mouthfeel is more refreshing and smooth; the beating wheel after beating is accomplished can drive the rotation of beating wheel at the in-process that reciprocates for the doctor-bar can be clear effectively and scrape the surface of beating wheel, cleans the beating wheel, prevents to beat the wheel surface and persists the muddy flesh residue.

Description

Food processing detection device based on big data cloud platform and use method thereof

Technical Field

The invention relates to the technical field of food processing, in particular to a food processing detection device based on a big data cloud platform and a use method thereof.

Background

Nowadays, more and more automatic devices with different functions are gradually applied to the corresponding industrial fields, which is beneficial to accelerate the process of industrial production and promote the continuous innovation of production technology, the influence of which is deep and wide and can be spread over various different production fields, the food processing industry has also continuously put a large number of automatic devices into matched processing production in recent years, which is beneficial to the rapid development of the material processing industry and the food processing industry to a certain extent, and in various meat production, the requirements of meat processing with different processing purposes can not be assisted by various devices. One of the processing purposes of meat is to process meat into muddy meat and then form corresponding meatballs, although the process of making meatballs is common, not only is a processing step involved, but also the efficiency cannot be improved only by making meatballs manually, so that the making of meatballs is trended by properly adopting a meatball machine, along with the updating and updating of equipment, the specification of the meatball machine is diversified, old machine types, automatic or semi-automatic machine types and the like meet different production requirements respectively, the existing partial meatball processing and detecting devices can transmit the detection data of the meatballs to a cloud database in real time, and users can remotely access the detection results at client sides.

The utility model discloses a meatball processingequipment for food processing who prevents the adhesion as patent number CN201821907191.X, upper end block including a stirring section of thick bamboo is connected with the upper cover, inlay the upper end of upper cover and install control panel, the lower extreme fixed mounting of first motor has crushing blade, the inside sliding connection of lower extreme of a stirring section of thick bamboo has the pull board, the top of fixed block is provided with the connecting block, the inside equidistant connecting hole of installing of right-hand member of inner tube, the right-hand member fixedly connected with second motor of control seat, the inside fixed mounting in upper end of urceolus has fixed diaphragm, the lower extreme swing joint of extruded article has the connecting plate, backup pad welded connection is at both ends around the urceolus, the inside of connecting seat is provided with the retainer plate, the rear. This prevent meat ball processingequipment for food processing of adhesion, work efficiency is high, and the convenience is collected the meat ball to can not cause the jam of muddy flesh export.

However, the meat balls made by the device are loose in meat quality and poor in taste without beating after the meat blocks are cut; the device uses a plurality of motors to respectively realize the mincing of the meat blocks and the forming of the meat balls, so that resources are excessively wasted; the device is not provided with a cleaning device. The meat needs to be cleaned separately before processing, which is time-consuming and labor-consuming.

Based on the above, the invention designs a food processing detection device based on a big data cloud platform and a use method thereof, so as to solve the problems.

Disclosure of Invention

The invention aims to provide a food processing detection device based on a big data cloud platform and a using method thereof, so as to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a food processing detection device based on a big data cloud platform comprises a processing detection box, wherein a first conveyor belt is arranged on the left side of the top of the processing detection box, a water receiving disc is arranged at the bottom of the first conveyor belt, two spray pipes are fixed at the top of the first conveyor belt, a spray head is fixed at the bottom of each spray pipe, a turnover component is arranged between the two spray heads, a pre-cutting block component is arranged on the right side of each spray head, a meat mincing box is arranged on the right side of the first conveyor belt, a cutting and stirring component is arranged in the meat mincing box, a conveying pipe is fixedly communicated with the bottom of the meat mincing box, a hammering processing box is fixedly communicated with the left end of the conveying pipe, a hammering component is arranged in the hammering processing box, pushing components are arranged on the front side and the rear side of the hammering processing box, two horizontal first electric push rods are arranged on the right side of an inner cavity of the hammering processing box, the two first electric push rods, a push plate is fixed at the top of the second electric push rod, a meat ball forming assembly is arranged on the left side of the hammering assembly, a second conveyor belt is arranged at the bottom of the meat ball forming assembly, a detector is arranged on the right side of the second conveyor belt and spans the front side and the rear side of the second conveyor belt, a micro push rod is fixed on the inner side of the detector, a detection head is fixed at the other end of the micro push rod, a storage box is arranged at the bottom of the micro push rod, and a blocking plate is fixed at the top of the storage box;

the top right side of processing detection case is fixed with the motor, the output shaft of motor is fixed with first bevel gear, first bevel gear's bottom meshing has second bevel gear, second bevel gear's bottom is fixed with first dwang, the left side of motor is equipped with reduction gear, reduction gear's front side is fixed with the pivot, the pivot is fixed with third bevel gear, third bevel gear's bottom meshing has fourth bevel gear, fourth bevel gear's bottom is fixed with the second dwang, the bottom of second dwang is fixed with the linkage wheel, be equipped with continuous arc wall on the linkage wheel, link through first belt between motor's output shaft and the reduction gear, the shower nozzle with cut in advance and be equipped with the reducing gear box between the block subassembly.

Furthermore, the hammering component comprises a horizontal third fixing plate, the third fixing plate is fixedly connected with the inner side wall of the hammering processing box, the front side and the rear side of the third fixing plate are evenly connected with a plurality of hammering rods in a sliding manner, the bottom ends of the hammering rods on the front side and the rear side are rotatably connected with hammering wheels, the top ends of the hammering rods are fixedly provided with anti-falling blocks, the anti-falling block at the rightmost end is fixedly provided with a sliding connecting rod, the sliding connecting rod is slidably connected with an arc-shaped groove on a linkage wheel, the two sides of the top of the hammering rod are provided with insections, the third fixing plate is rotatably connected with a plurality of first gears, the first gears are positioned between the two hammering rods, and the two scraping blades are arranged symmetrically left and right and are attached to the surface of the hammering wheel.

Further, the promotion subassembly includes vertical first rack, first rack longitudinal symmetry sets up, and all with the bottom fixed connection of third fixed plate, the right side of first rack is equipped with the insection, insection and second gear meshing, the outside of beating the pole is fixed with the third dentate pole of L shape, the meshing of third dentate pole has the third gear, the bottom of third gear is equipped with the fourth gear, the right side of third gear and fourth gear all is fixed with the linkage gear, link through the second belt between two linkage gears, the bottom meshing of fourth gear has the slide bar, slide bar and the diapire sliding connection who beats the processing case, and the inner is fixed with the push jack.

Further, cutting stirring subassembly includes two cutting blades, two cutting blades and first rotation pole fixed connection, and the bottom mounting of first rotation pole has fifth bevel gear, and fifth bevel gear's meshing has sixth bevel gear, and sixth bevel gear's axle center is fixed with the hank pole, and the both ends fixedly connected with hank meat roller of hank pole, fifth bevel gear and sixth bevel gear's outside are equipped with the protection box, and first rotation pole and hank pole all rotate with the protection box and are connected.

Further, the turn-over subassembly includes first fixed plate, the roof fixed connection of first fixed plate and processing detection case, the front side rotation of first fixed plate is connected with the rolling disc, the center of rolling disc is fixed with the axis of rotation, link through the third belt between the rear side connecting axle of axis of rotation and reducing gear box, it is connected with the hinge bar to rotate on the rolling disc, the other end of hinge bar articulates there is the sliding block, the other end of sliding block is fixed with vertical lifter, the bottom mounting of lifter has the horizontally board that turns, the left and right sides of first fixed plate is fixed with the slip strip, sliding block and slip strip sliding connection.

Further, the block subassembly of cutting in advance includes the second fixed plate, the roof fixed connection of second fixed plate and processing detection case, the top of second fixed plate is equipped with the lift groove, be equipped with oval piece in the lift inslot, oval piece rotates with the roof of processing detection case to be connected, the rear side of oval piece is fixed with the linkage gear, the pivot of linkage gear and reduction gear front side, link through the fifth belt between the connecting axle of reducing gear box front side, the bottom sliding connection of second fixed plate has the cutting pole, the bottom of cutting pole is fixed with the cutting knife, the top of cutting pole is fixed with the extrusion piece, be fixed with the spring between the both sides of extrusion piece and the second fixed plate.

Further, the burger shaping subassembly includes the shaping bucket, the roof both sides of shaping bucket are equipped with the pressure release hole, the shaping bucket passes through the conveyer pipe and beats the processing case intercommunication, the roof of shaping bucket is fixed with electric putter, electric putter's bottom is fixed with the piston plate, the inner wall sliding connection of piston plate and shaping bucket, the bottom sliding connection of shaping bucket diapire has the cutting board, evenly be equipped with a plurality of burger shaping holes on diapire and the cutting board, the left side top of piston plate is fixed with vertical second rack, the second rack meshing has the fifth gear, the fifth gear rotates with the lateral wall of shaping bucket to be connected, shaping bucket left side bottom is equipped with forming mechanism.

Further, forming mechanism includes the shift ring, the right side and the cutting board fixed connection of shift ring, and top sliding connection has the connecting plate, connecting plate and shaping bucket fixed connection, and the centre of shift ring is equipped with incomplete gear, and the inboard of roof and diapire is equipped with the insection, and the rear side rotation of incomplete gear is connected with the dwang, dwang and shaping bucket fixed connection, through the fourth belt linkage between incomplete gear and the fifth gear.

Furthermore, the detector is connected with a microprocessor through signals, the microprocessor is connected with a wireless transmission module through signals, the wireless transmission module is connected with a cloud platform through signals, the cloud platform is connected with a big data processing module and a client through signals, and the big data processing module comprises a comparison unit.

A use method of a food processing detection device based on a big data cloud platform comprises the following steps:

s1: the two surfaces of the meat blocks are washed and cleaned through the turnover assembly;

s2: cutting the cleaned meat blocks into small meat blocks convenient to process through the pre-cutting block assembly;

s3: the small meat blocks are cut and stirred into uniform meat paste by a cutting and stirring assembly;

s4: repeatedly beating the meat paste by a beating assembly;

s5: the beaten meat paste is made into meat balls with uniform size through a meat ball forming assembly;

s6: the detector randomly samples the meatballs and detects indexes such as water, heavy metals and the like.

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

1. according to the invention, the beating assembly is arranged, and the meat paste is beaten by the alternative downward movement of the plurality of beating wheels, so that the meat balls made by beating the meat paste are elastic, and the mouthfeel is more refreshing and smooth; the hammering wheel after hammering can be driven to rotate in the process of moving up and down, so that the scraping blade can effectively scrape the surface of the hammering wheel, the hammering wheel is cleaned, and muddy residue is prevented from remaining on the surface of the hammering wheel; during the process that the beating rod moves up and down each time, the pushing pieces on the front side and the rear side can be driven to push the muddy flesh inwards to gather the muddy flesh, so that the muddy flesh is prevented from being scattered;

2. the pre-cutting assembly is arranged, and the cutting rod can be driven to move up and down by the rotation of the oval block and the cooperation of the spring, so that the cutting knife cuts the meat blocks, the meat blocks are cut into small meat blocks with uniform sizes, and the meat blocks are conveniently ground and processed;

3. the invention is provided with the meat ball forming assembly, the piston plate can extrude and form the meat paste in the barrel, and the meat paste is extruded from the meat ball forming holes; the piston plate moves downwards to drive the cutting plate to move left and right, so that the meat ball forming holes in the cutting plate and the meat ball forming holes in the bottom wall are cut in a staggered mode, extruded meat paste is cut into meat balls, the whole process has a good linkage effect, and the meat paste can be cut and formed simultaneously through the movement of the piston plate;

4. the electric cutting and stirring device drives the hammering component, the pushing component, the cutting and stirring component, the turnover component and the pre-cutting block component to operate through the motor, and enables all the components to reach proper rotating speeds through the matched use of the reduction gear, the reduction gearbox, the linkage wheel and the first rotating rod, so that the whole device has good linkage.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

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

FIG. 2 is a schematic structural view of the hammering assembly of the present invention;

FIG. 3 is a side view of the pushing assembly of the present invention;

FIG. 4 is a schematic side view of the push plate of the present invention

FIG. 5 is a schematic view of the cutting and stirring assembly of the present invention;

FIG. 6 is a schematic structural view of the turn-over assembly of the present invention;

FIG. 7 is a schematic structural view of a pre-cut block assembly of the present invention;

FIG. 8 is a schematic view of the structure of the meat pellet forming assembly of the present invention;

FIG. 9 is a schematic structural view of a forming mechanism of the present invention;

FIG. 10 is a schematic side view of the detector of the present invention;

FIG. 11 is a block diagram of the present invention.

In the drawings, the components represented by the respective reference numerals are listed below:

1. processing the detector; 2. a first conveyor belt; 3. a spray head; 4. a turn-over assembly; 401. a first fixing plate; 402. rotating the disc; 403. a lifting rod; 404. turning the plate; 405. a slide bar; 5. pre-cutting the block assembly; 501. a second fixing plate; 502. an elliptical block; 503. cutting the rod; 504. a cutting knife; 505. extruding the sheet; 6. cutting the stirring component; 601. a cutting blade; 602. a fifth bevel gear; 603. a meat grinding roller; 604. a sixth bevel gear; 605. a protection box; 7. a hammering assembly; 701. a fixing plate; 702. hammering the rod; 703. a hammering wheel; 704. an anti-drop block; 705. a first gear; 706. a second gear; 707. scraping a blade; 8. a meat pellet forming assembly; 801. forming a barrel; 802. an electric push rod; 803. a piston plate; 804. cutting the board; 805. a second rack; 806. a fifth gear; 807. a molding mechanism; 8071. a moving ring; 8072. a connecting plate; 8073. an incomplete gear; 9. a pushing assembly; 901. a first rack; 902. a third gear; 903. a fourth gear; 904. a slide bar; 905. pushing the sheet; 10. a motor; 11. a delivery pipe; 12. beating the processing box; 13. a first rotating lever; 14. a reduction gear; 15. a second rotating lever; 16. a first belt; 17. a linkage wheel; 18. a meat mincing box; 19. a reduction gearbox; 20. a water pan; 21. a second conveyor belt; 22. a detector; 23. a detection head; 24. a micro push rod; 25. a storage box; 26. a first electric push rod; 27. a second electric push rod; 28. a push plate.

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 one

Referring to fig. 1-11, the present invention provides a technical solution: a food processing detection device based on a big data cloud platform comprises a processing detection box 1, wherein a first conveying belt 2 is arranged on the left side of the top of the processing detection box 1, a water receiving disc 20 is arranged at the bottom of the first conveying belt 2, two spray pipes are fixed at the top of the first conveying belt 2, spray heads 3 are fixed at the bottoms of the spray pipes, a turnover component 4 is arranged between the two spray heads 3, a pre-cutting block component 5 is arranged on the right side of each spray head 3, a meat mincing box 18 is arranged on the right side of the first conveying belt 2, a cutting and stirring component 6 is arranged in each meat mincing box 18, a conveying pipe 11 is communicated and fixed at the bottom of each meat mincing box 18, a hammering processing box 12 is communicated and fixed at the left end of each conveying pipe 11, a hammering component 7 is arranged in each hammering processing box 12, pushing components 9 are arranged on the front side and the back side of each hammering processing box 12, two horizontal first electric push rods 26 are arranged on the right side of the inner, a vertical second electric push rod 27 is fixed to the top of the telescopic end, a push plate 28 is fixed to the top of the second electric push rod 27, a meat ball forming assembly 8 is arranged on the left side of the hammering assembly 7, a second conveyor belt 21 is arranged at the bottom of the meat ball forming assembly 8, a detector 22 is arranged on the right side of the second conveyor belt 21, the detector 22 spans the front side and the rear side of the second conveyor belt 21, a micro push rod 24 is fixed to the inner side of the detector 22, a detector head 23 is fixed to the other end of the micro push rod 24, a storage box 25 is arranged at the bottom of the micro push rod 24, and a blocking plate is fixed to the top of the storage box 25;

a motor 10 is fixed on the right side of the top of the processing detection box 1, a first bevel gear is fixed on an output shaft of the motor 10, a second bevel gear is meshed with the bottom of the first bevel gear, a first rotating rod 13 is fixed on the bottom of the second bevel gear, a reduction gear 14 is arranged on the left side of the motor 10, a rotating shaft is fixed on the front side of the reduction gear 14, a third bevel gear is fixed on the rotating shaft, a fourth bevel gear is meshed with the bottom of the third bevel gear, a second rotating rod 15 is fixed on the bottom of the fourth bevel gear, a linkage wheel 17 is fixed on the bottom of the second rotating rod 15, a continuous arc-shaped groove is formed in the linkage wheel 17, the output shaft of the motor 10 is linked with the reduction gear 14 through a first belt 16, and a reduction gearbox 19 is arranged.

The hammering component 7 comprises a horizontal third fixing plate 701, the third fixing plate 701 is fixedly connected with the inner side wall of the hammering processing box 12, the front side and the back side of the third fixing plate 701 are uniformly connected with a plurality of hammering rods 702 in a sliding manner, a hammering wheel 703 is rotatably connected between the bottom ends of the hammering rods 702 on the front side and the back side, the top ends of the hammering rods 702 are fixedly provided with anti-falling blocks 704, the anti-falling block 704 at the rightmost end is fixedly provided with a sliding connecting rod, the sliding connecting rod is slidably connected with an arc-shaped groove on a linkage wheel 17, two sides of the top of the hammering rods 702 are provided with insections, the third fixing plate 701 is rotatably connected with a plurality of first gears 705, the first gears 705 are positioned between the two hammering rods 702 and are meshed with the insections at the two sides of the hammering rods 702, the front side and the back side of the hammering wheel 703 are fixedly provided with second gears 706, connecting rods are fixedly arranged between the hammering rods 702 on the, the two wiper blades 707 are arranged in bilateral symmetry and are attached to the surface of the hammering wheel 703.

The pushing assembly 9 comprises a vertical first rack 901, the first rack 901 is symmetrically arranged front and back, and is fixedly connected with the bottom of the third fixing plate 701, the right side of the first rack 901 is provided with insections, the insections are meshed with the second gear 706, the outer side of the hammering rod 702 is fixed with an L-shaped third insection rod 906, the third insection rod 906 is meshed with a third gear 902, the bottom of the third gear 902 is provided with a fourth gear 903, the right sides of the third gear 902 and the fourth gear 903 are both fixed with linkage gears, the two linkage gears are linked through a second belt, the bottom of the fourth gear 903 is meshed with a sliding rod 904, the sliding rod 904 is connected with the bottom wall of the hammering processing box 12 in a sliding manner, and the inner end of the sliding rod is fixed with a pushing sheet 905.

The cutting and stirring assembly 6 comprises two cutting blades 601, the two cutting blades 601 are fixedly connected with a first rotating rod 13, a fifth bevel gear 602 is fixed at the bottom end of the first rotating rod 13, a sixth bevel gear 604 is meshed with the fifth bevel gear 602, a twisting rod is fixed at the axle center of the sixth bevel gear 604, meat mincing rollers 603 are fixedly connected at two ends of the twisting rod, a protection box 605 is arranged outside the fifth bevel gear 602 and the sixth bevel gear 604, and the first rotating rod 13 and the twisting rod are rotatably connected with the protection box 605.

Meatball forming assembly 8 includes shaping bucket 801, the roof both sides of shaping bucket 801 are equipped with the pressure release hole, shaping bucket 801 passes through conveyer pipe 11 and beats processing case 12 intercommunication, the roof of shaping bucket 801 is fixed with electric putter 802, the bottom of electric putter 802 is fixed with piston plate 803, piston plate 803 and shaping bucket 801's inner wall sliding connection, the bottom sliding connection of shaping bucket 801 diapire has cutting board 804, evenly be equipped with a plurality of meatball shaping holes on diapire and the cutting board 804, the left side top of piston plate 803 is fixed with vertical second rack 805, the meshing of second rack 805 has fifth gear 806, fifth gear 806 rotates with the lateral wall of shaping bucket 801 to be connected, shaping bucket 801 left side bottom is equipped with forming mechanism 807.

The forming mechanism 807 comprises a moving ring 8071, the right side of the moving ring 8071 is fixedly connected with the cutting plate 804, the top of the moving ring 8071 is slidably connected with a connecting plate 8072, the connecting plate 8072 is fixedly connected with the forming barrel 801, an incomplete gear 8073 is arranged in the middle of the moving ring 8071, insections are arranged on the inner sides of the top wall and the bottom wall, the rear side of the incomplete gear 8073 is rotatably connected with a rotating rod, the rotating rod is fixedly connected with the forming barrel 801, and the incomplete gear 8073 is linked with the fifth gear 806 through a fourth belt.

The detector 22 is in signal connection with a microprocessor 29, the microprocessor 29 is in signal connection with a wireless transmission module 30, the wireless transmission module 30 is in signal connection with a cloud platform, the cloud platform is in signal connection with a big data processing module 31 and a client, and the big data processing module 31 comprises a comparison unit.

A use method of a food processing detection device based on a big data cloud platform comprises the following steps:

s1: the two surfaces of the meat blocks are washed and cleaned by the turnover component 3;

s2: the cleaned meat blocks are cut into small meat blocks convenient to process through the pre-cutting block assembly 5;

s3: the small meat blocks are cut and stirred into uniform meat paste by the cutting and stirring assembly 6;

s4: the meat paste is repeatedly beaten by the beating component 7;

s5: the beaten meat paste is made into meat balls with uniform size through a meat ball forming assembly 8;

s6: the detector 22 randomly samples the meatballs and detects the indexes of moisture, heavy metals and the like.

One specific application of this embodiment is: meat blocks are placed on the first conveyor belt 2 at equal intervals through equipment, the meat blocks are conveyed by the first conveyor belt 2, the top surfaces of the meat blocks are washed by the left sprayer 3 at first to clean dirt on the surfaces, then the meat blocks are conveyed continuously, the cleaned water flows onto the water receiving tray 20, and the water is recovered by the water receiving tray 20 to the outside of the processing detection box 1 for collection; after the meat blocks are turned over by the turning-over assembly 4, the meat blocks are flushed by the right-side spray head 3 again to clean dirt on the other side, and the meat blocks are conveyed continuously after being cleaned;

the meat blocks are cut into small meat blocks with uniform size through the pre-cutting block assembly 5, so that the meat blocks can be conveniently ground into mashed meat;

the meat cubes enter the meat mincing box 18 along with the conveying of the first conveying belt 2, an output shaft of the motor 10 drives the first rotating rod 13 to rotate through the first bevel gear and the second bevel gear, the first rotating rod 13 drives the cutting blade 601 to rotate, the meat cubes are transversely cut, meanwhile, the first rotating rod 13 drives the meat mincing roller 603 to rotate through the fifth bevel gear 602 and the sixth bevel gear 604, the meat mincing roller 603 minces one side of meat on two sides and pushes the meat towards the middle, and meat mud is conveyed into the beating processing box 12 through the conveying pipe 11;

the reduction gear 14 drives the second rotating rod 15 to rotate through the fourth bevel gear, the second rotating rod 15 drives the linkage wheel 17 to rotate, when the linkage wheel 17 rotates, the sliding connecting rod moves up and down along with the arc-shaped groove on the linkage wheel 17, so that the anti-falling blocks 704 at the left end and the right end are driven to move up and down, two adjacent beating rods 702 are enabled to alternately move downwards through the plurality of first gears 705 to beat the muddy meat, the muddy meat can be beaten, so that the made meatballs are elastic, the taste is more refreshing and smooth, the second gear 706 rotates relative to the first rack 901 in the up-and-down moving process of the beating wheel 703 after beating is completed, so that the beating wheel 703 is driven to rotate, the scraping blade 707 can effectively scrape the surface of the beating wheel 703, the beating wheel 703 is cleaned, and muddy residue is prevented from remaining on the surface of the beating wheel 703; in the process that the beating rod 702 moves up and down each time, the third toothed bar 906 can be driven to move up and down, so that the third gear 902 and the fourth gear 903 are driven to rotate, the sliding rod 904 is driven to move inwards, the pushing piece 905 is driven to push the muddy flesh inwards, the muddy flesh is gathered, and the muddy flesh is prevented from being scattered; after the beating is finished, the second electric push rod 27 contracts to drive the push plate 28 to move downwards, then the first electric push rod 26 extends, and the beaten meat paste is sent into the meat ball forming component 8 through the push plate 28;

the piston plate 803 moves downwards to extrude the muddy flesh in the barrel 801, and the muddy flesh is extruded from the meatball molding holes; the piston plate 803 moves downwards to drive the second rack 805 to move downwards, so that the fifth gear 806 drives the incomplete gear 8073 to rotate, the incomplete gear 8073 rotates to drive the moving ring 8071 to move, and the moving ring 8071 drives the cutting plate 804 to move left and right, so that the meat ball forming holes in the cutting plate 804 and the meat ball forming holes in the bottom wall are cut in a staggered manner, extruded muddy meat is cut into meat balls, and then the muddy meat balls fall on the second conveyor belt 21 to be conveyed continuously;

the meat balls are conveyed to the position of the detector 22, the micro push rod 24 extends to drive the detection head 23 to be inserted into random meat balls, then the micro push rod 24 contracts, the detection head 23 detects the moisture and heavy metal content in the meat balls, after detection is finished, the micro push rod 24 continuously contracts, the meat balls extrude the blocking plate, and then the blocking plate is separated from the detection head 23 and falls into the storage box 25 for storage;

detect head 23 and will detect data transfer and handle for detector 22, detector 22 will detect data processing after transmit for microprocessor 29, microprocessor 29 stores data transfer to the cloud platform through wireless transmission module 30, big data processing module 31 can transfer the data in the cloud platform, contrast data and standard value through inside contrast unit, thereby detect heavy metal in the meat ball, whether content such as moisture is up to standard, the user can pass through the long-range cloud platform of visiting of client, timely understanding the detected information of meat ball.

Example two

In the case that the other parts are the same as those of the first embodiment, the present embodiment is different from the first embodiment in that: precutting block subassembly 5 includes second fixed plate 501, second fixed plate 501 and the roof fixed connection of processing detection case 1, the top of second fixed plate 501 is equipped with the lift groove, be equipped with oval piece 502 in the lift groove, oval piece 502 rotates with the roof of processing detection case 1 to be connected, the rear side of oval piece 502 is fixed with the linkage gear, the pivot of linkage gear and reduction gear 14 front side, link through the fifth belt between the connecting axle of reducing gear box 19 front side, the bottom sliding connection of second fixed plate 501 has cutting rod 503, the bottom of cutting rod 503 is fixed with cutting knife 504, the top of cutting rod 503 is fixed with extrusion piece 505, be fixed with the spring between the both sides of extrusion piece 505 and the second fixed plate 501.

The output shaft of motor 10 passes through reduction gear 14 and tentatively reduces rotational speed for oval piece 502 rotates, and the cooperation spring, the rotation of oval piece 502 can drive cutting rod 503 and reciprocate, thereby cutting knife 504 cuts the meat piece, becomes the even little meat piece of size with the meat piece cutting, the later stage of being convenient for to the processing of meat piece.

EXAMPLE III

In the case that the other parts are the same as those of the first embodiment, the present embodiment is different from the first embodiment in that: turn-over subassembly 4 includes first fixed plate 401, first fixed plate 401 and the roof fixed connection of processing detection case 1, the front side rotation of first fixed plate 401 is connected with rolling disc 402, the center of rolling disc 402 is fixed with the axis of rotation, link through the third belt between the rear side connecting axle of axis of rotation and reducing gear box 19, it is connected with the hinge bar to rotate on the rolling disc 402, the other end of hinge bar articulates there is the sliding block, the other end of sliding block is fixed with vertical lifter 403, the bottom mounting of lifter 403 has the horizontally board 404 that turns, the left and right sides of first fixed plate 401 is fixed with slip strip 405, sliding block and slip strip sliding connection.

The output shaft of the motor 10 reduces the rotating speed twice through the reduction gear 14 and the reduction box 19 to drive the rotating disc 402 to rotate, and due to the limit of the sliding strip 405, the rotating disc 402 drives the hinge rod to rotate, and the hinge rod drives the lifting rod 403 to move up and down, so that the turning plate 404 moves up and down; when one end of the meat block moves to the turning plate 404, the turning plate 404 drives the meat block to move upwards, and the other end of the meat block is conveyed on the first conveyor belt 2, so that the meat block is turned.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise forms disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims (10)

1. The utility model provides a food processing detection device based on big data cloud platform, includes processing detection case (1), its characterized in that: the processing detection box comprises a processing detection box (1), a first conveying belt (2) is arranged on the left side of the top of the processing detection box (1), a water receiving disc (20) is arranged at the bottom of the first conveying belt (2), two spray pipes are fixed to the top of the first conveying belt (2), spray heads (3) are fixed to the bottoms of the spray pipes, a turnover assembly (4) is arranged between the two spray heads (3), a pre-cutting block assembly (5) is arranged on the right side of each spray head (3), a meat mincing box (18) is arranged on the right side of the first conveying belt (2), a cutting stirring assembly (6) is arranged in each meat mincing box (18), a conveying pipe (11) is fixedly communicated with the bottom of each meat mincing box (18), a hammering processing box (12) is fixedly communicated with the left end of each conveying pipe (11), hammering assemblies (7) are arranged in each hammering processing box (12), pushing assemblies (9) are arranged on the front side and the rear side of each hammering processing box (12), two horizontal first electric push rods (26), the two first electric push rods (26) are symmetrically arranged in the front-back direction, vertical second electric push rods (27) are fixed to the tops of telescopic ends, push plates (28) are fixed to the tops of the second electric push rods (27), a meat ball forming assembly (8) is arranged on the left side of the hammering assembly (7), a second conveying belt (21) is arranged at the bottom of the meat ball forming assembly (8), a detector (22) is arranged on the right side of the second conveying belt (21), the detector (22) stretches across the front side and the rear side of the second conveying belt (21), a miniature push rod (24) is fixed to the inner side of the detector (22), a detection head (23) is fixed to the other end of the miniature push rod (24), a storage box (25) is arranged at the bottom of the miniature push rod (24), and a blocking plate is fixed to the top of the storage box (25);

a motor (10) is fixed on the right side of the top of the processing detection box (1), a first bevel gear is fixed on an output shaft of the motor (10), a second bevel gear is meshed with the bottom of the first bevel gear, a first rotating rod (13) is fixed on the bottom of the second bevel gear, a reduction gear (14) is arranged on the left side of the motor (10), a rotating shaft is fixed on the front side of the reduction gear (14), a third bevel gear is fixed on the rotating shaft, a fourth bevel gear is meshed with the bottom of the third bevel gear, a second rotating rod (15) is fixed on the bottom of the fourth bevel gear, a linkage wheel (17) is fixed on the bottom of the second rotating rod (15), a continuous arc-shaped groove is formed in the linkage wheel (17), an output shaft of the motor (10) is linked with the reduction gear (14) through a first belt (16), a reduction gearbox (19) is arranged between the spray head (3) and the precutting block component (5).

2. The big data cloud platform-based food processing detection apparatus according to claim 1, wherein: the hammering component (7) comprises a horizontal third fixing plate (701), the third fixing plate (701) is fixedly connected with the inner side wall of a hammering processing box (12), the front side and the rear side of the third fixing plate (701) are uniformly and slidably connected with a plurality of hammering rods (702), the bottom ends of the hammering rods (702) on the front side and the rear side are rotatably connected with a hammering wheel (703), the top ends of the hammering rods (702) are fixedly provided with anti-falling blocks (704), the anti-falling block (704) positioned at the rightmost end is fixedly provided with a sliding connecting rod, the sliding connecting rod is slidably connected with an arc-shaped groove on a linkage wheel (17), the two sides of the top of each hammering rod (702) are provided with insections, the third fixing plate (701) is rotatably connected with a plurality of first gears (705), the first gear (705) is positioned between the two hammering rods (702) and is meshed with the insections on the two sides of the hammering rods (702), and the two sides of the hammering wheels (703) are fixedly connected with second gears (706) on the front side and the, a connecting rod is fixed between the hammering rods (702) on the front side and the rear side, two scraping blades (707) are fixed at the other end of the connecting rod, the two scraping blades (707) are arranged in bilateral symmetry and are attached to the surface of the hammering wheel (703).

3. The big data cloud platform-based food processing detection apparatus according to claim 2, wherein: the pushing assembly (9) comprises a vertical first rack (901), the first rack (901) is symmetrically arranged in front and back and fixedly connected with the bottom of a third fixing plate (701), insections are arranged on the right side of the first rack (901) and meshed with a second gear (706), an L-shaped third toothed bar (906) is fixed on the outer side of the hammering bar (702), a third gear (902) is meshed with the third toothed bar (906), a fourth gear (903) is arranged at the bottom of the third gear (902), linkage gears are fixed on the right sides of the third gear (902) and the fourth gear (903), the two linkage gears are linked through a second belt, a sliding bar (904) is meshed with the bottom of the fourth gear (903), the sliding bar (904) is slidably connected with the bottom wall of the hammering processing box (12), and a pushing piece (905) is fixed at the inner end.

4. The big data cloud platform-based food processing detection apparatus according to claim 1, wherein: cutting stirring subassembly (6) include two cutting blade (601), two cutting blade (601) and first rotation pole (13) fixed connection, the bottom mounting of first rotation pole (13) has fifth bevel gear (602), and the meshing of fifth bevel gear (602) has sixth bevel gear (604), and the axle center of sixth bevel gear (604) is fixed with the hank pole, the both ends fixedly connected with hank meat roller (603) of hank pole, the outside of fifth bevel gear (602) and sixth bevel gear (604) is equipped with protection box (605), first rotation pole (13) and hank pole all rotate with protection box (605) and are connected.

5. The big data cloud platform-based food processing detection apparatus according to claim 1, wherein: turn-over subassembly (4) include first fixed plate (401), the roof fixed connection of first fixed plate (401) and processing detection case (1), the front side rotation of first fixed plate (401) is connected with rolling disc (402), and the center of rolling disc (402) is fixed with the axis of rotation, through the linkage of third belt between the rear side connecting axle of axis of rotation and reducing gear box (19), it is connected with the hinge bar to rotate on rolling disc (402), and the other end of hinge bar articulates there is the sliding block, and the other end of sliding block is fixed with vertical lifter (403), and the bottom mounting of lifter (403) has horizontally board (404) that turns over, the both sides are fixed with slip strip (405) about first fixed plate (401), sliding block and slip strip sliding connection.

6. The big data cloud platform-based food processing detection apparatus according to claim 1, wherein: pre-cutting block subassembly (5) includes second fixed plate (501), the roof fixed connection of second fixed plate (501) and processing detection case (1), the top of second fixed plate (501) is equipped with the lift groove, is equipped with oval piece (502) in the lift groove, and oval piece (502) are connected with the roof rotation of processing detection case (1), the rear side of oval piece (502) is fixed with the linkage gear, links through the fifth belt linkage between the pivot of linkage gear and reduction gear (14) front side, the connecting axle of reducing gear box (19) front side, the bottom sliding connection of second fixed plate (501) has cutting rod (503), and the bottom of cutting rod (503) is fixed with cutting knife (504), the top of cutting rod (503) is fixed with extrusion piece (505), is fixed with the spring between the both sides of extrusion piece (505) and second fixed plate (501).

7. The big data cloud platform-based food processing detection apparatus according to claim 1, wherein: the meatball forming component (8) comprises a forming barrel (801), pressure relief holes are formed in two sides of the top wall of the forming barrel (801), the forming barrel (801) is communicated with a hammering processing box (12) through a conveying pipe (11), an electric push rod (802) is fixed on the top wall of the forming barrel (801), a piston plate (803) is fixed at the bottom of the electric push rod (802), the piston plate (803) is connected with the inner wall of the forming barrel (801) in a sliding way, the bottom of the bottom wall of the forming barrel (801) is connected with a cutting plate (804) in a sliding way, evenly be equipped with a plurality of burger shaping holes on diapire and cutting board (804), the left side top of piston plate (803) is fixed with vertical second rack (805), and second rack (805) meshing has fifth gear (806), and fifth gear (806) are rotated with the lateral wall of shaping bucket (801) and are connected, shaping bucket (801) left side bottom is equipped with forming mechanism (807).

8. The big data cloud platform-based food processing detection apparatus according to claim 7, wherein: forming mechanism (807) include shift ring (8071), the right side and cutting board (804) fixed connection of shift ring (8071), top sliding connection has connecting plate (8072), connecting plate (8072) and shaping bucket (801) fixed connection, the centre of shift ring (8071) is equipped with incomplete gear (8073), and the inboard of roof and diapire is equipped with the insection, the rear side rotation of incomplete gear (8073) is connected with the dwang, dwang and shaping bucket (801) fixed connection, through the fourth belt linkage between incomplete gear (8073) and fifth gear (806).

9. The big data cloud platform-based food processing detection apparatus according to claim 1, wherein: the detection instrument (22) is connected with a microprocessor (29) through signals, the microprocessor (29) is connected with a wireless transmission module (30) through signals, the wireless transmission module (30) is connected with a cloud platform through signals, the cloud platform is connected with a big data processing module (31) and a client through signals, and the big data processing module (31) comprises a comparison unit.

10. The use method of the food processing detection device based on the big data cloud platform as claimed in any one of claims 1-9, characterized by comprising the following steps:

s1: the two surfaces of the meat blocks are washed and cleaned by the turnover component (3);

s2: the cleaned meat blocks are cut into small meat blocks convenient to process through the pre-cutting block assembly (5);

s3: the small meat blocks are cut and stirred into uniform meat paste by a cutting and stirring assembly (6);

s4: the meat paste is repeatedly beaten by the beating component (7);

s5: the beaten meat paste is made into meat balls with uniform size through a meat ball forming assembly (8);

s6: the detector (22) randomly samples the meatballs and detects indexes such as water, heavy metals and the like.

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