CN111955671A

CN111955671A - Pork processing drying device

Info

Publication number: CN111955671A
Application number: CN202010924454.3A
Authority: CN
Inventors: 黄跃卿
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-09-05
Filing date: 2020-09-05
Publication date: 2020-11-20

Abstract

The invention relates to the field of pork, in particular to a pork processing and drying device. The invention aims to provide a pork processing and drying device. The technical scheme is as follows: a pork processing and drying device comprises a working table plate, a support leg, a turn-over control mechanism, a blanking mechanism, an oil brushing control mechanism, a real-time control screen and a drying box; the lower part of the working table plate is welded with the support leg column; the upper part of the working table plate is connected with a turnover control mechanism; the upper part of the working table plate is connected with a blanking mechanism. The automatic feeding device realizes the automatic feeding of the pork slices for processing the dried pork slices, automatically coats vegetable oil on the surfaces of the pork slices, performs the up-and-down overturning operation on the pork slices in the drying process, repeatedly and automatically brushes the oil on the overturned pork slices, and automatically realizes the effect of repeatedly brushing the oil, overturning and drying the pork slices.

Description

Pork processing drying device

Technical Field

The invention relates to the field of pork, in particular to a pork processing and drying device.

Background

The dried pork slice is a slice meat product which is pickled and baked by pork, and has the advantages of convenient eating, exquisite making, delicious taste, storage resistance and convenient transportation. The color of the red wine is bright brownish red. Fresh pork is selected for rear leg parts, peeled, fattened and bones, and the whole pure lean meat is taken as a basic raw material.

At present, the raw material of the dried pork slice is often dried in the process of processing the dried pork slice, in the prior art, when the dried raw material of the dried pork slice is dried, the dried pork slice needs to be placed on a heating and drying device, then a layer of vegetable oil is manually coated on the surface of the dried pork slice, then the drying device is closed for sealing and drying, because the temperature for drying the dried pork slice is not high, the drying time is longer, meanwhile, the dried pork slice needs to be coated with oil for a plurality of times and turned over for a plurality of times, so that the dried pork slice is completely dried, further, when the vegetable oil is manually coated, the drying operation is often carried out only by coating one surface of the dried pork slice, and when the closed drying device is closed, the top cover part forms downward pressure on the dried pork slice below the top cover part, and then the vegetable oil in the dried pork slice is extruded, so that the vegetable oil can not be immersed into the dried pork slice in the drying process, make the meat piece taste not good, on the other hand, in the stoving process of longer time, need the manual work to open drying device repeatedly and carry out fat liquoring and turn-over operation to the meat piece problem that wastes time and energy.

To the problem, we provide a pork processing drying device.

Disclosure of Invention

In order to overcome the problems that when the raw material sliced pork of the dried pork slice is dried, the sliced pork needs to be placed on a heating and drying device, then a layer of vegetable oil is manually coated on the surface of the dried pork slice, then the drying device is closed for sealing and drying, because the temperature is not high during the dried sliced pork drying, the drying time is long, meanwhile, the dried pork slice needs to be coated with oil for many times and turned over for many times, so that the sliced pork is completely dried, and further, when the vegetable oil is manually coated, the dried pork slice is often coated only on one surface of the dried pork slice for drying, and when the sealed drying device is closed, the top cover part forms downward pressure on the dried pork slice below the top cover part, so that the vegetable oil in the dried pork slice is extruded out, the vegetable oil can not be soaked into the sliced pork in the drying process, the taste of the sliced pork is not good, on the other hand, in the drying process for a long time, the invention aims to provide a pork processing and drying device, which has the defects of time and labor waste caused by the manual repeated opening of the drying device for oiling and turning meat slices.

The technical scheme is as follows: a pork processing and drying device comprises a working table plate, a support leg, a turn-over control mechanism, a blanking mechanism, an oil brushing control mechanism, a real-time control screen and a drying box; the lower part of the working table plate is welded with the support leg column; the upper part of the working table plate is connected with a turnover control mechanism; the upper part of the working table plate is connected with a blanking mechanism; the turnover control mechanism is connected with the blanking mechanism; the blanking mechanism is connected with the oil brushing control mechanism; the blanking mechanism is connected with the real-time control screen.

As an improvement of the scheme, the turn-over control mechanism comprises a first bearing frame plate, a first rotating shaft rod, a first driving wheel, a first long gear, a second bearing frame plate, a first linear slide rail and a movable turn-over mechanism; the inner side of the first bearing frame plate is sleeved with the first rotating shaft rod; the first rotating shaft rod is in rotating connection with the first driving wheel; the outer surface of the first rotating shaft rod is sequentially sleeved with the first long gear and the second long gear; the first rotating shaft rod is inserted into the second bearing frame plate; the second bearing frame plate is connected with the first linear slide rail through bolts; the first linear slide rail is connected with the first bearing frame plate through a bolt; the upper part of the first linear slide rail is in sliding connection with the movable turnover mechanism; the lower part of the first bearing frame plate is connected with the working table plate; the lower part of the second bearing frame plate is connected with the working table plate; the first driving wheel is connected with the blanking mechanism.

As an improvement of the above scheme, the blanking mechanism comprises a power motor, a second transmission wheel, a third transmission wheel, a fourth transmission wheel, a fifth transmission wheel, a first pinion, a first bearing connection plate, a first lifting platform shell, a sixth transmission wheel, a second pinion, a motor rotating shaft, a third pinion, a first hydraulic lifting platform, a first screw rod, a first limiting sliding column, a first internal thread sliding block, a second hydraulic lifting platform, a second lifting platform shell and a material preparation mechanism; an output shaft of the power motor is rotationally connected with a motor rotating shaft; the outer surface of the rotating shaft of the motor is sequentially sleeved with the second driving wheel, the third driving wheel and the fourth driving wheel; the outer ring surface of the third driving wheel is in transmission connection with the fifth driving wheel through a belt; the axle center of the fifth driving wheel is rotationally connected with the first flat gear; the first flat gear shaft center is inserted with the first bearing connecting plate; the first bearing connecting plate is connected with the first lifting platform shell; the outer ring surface of the fourth driving wheel is in transmission connection with the sixth driving wheel through a belt; the axis of the sixth transmission wheel is rotationally connected with the second flat gear; the axle center of the second flat gear is inserted into the shell of the first lifting platform; the second flat gear is meshed with the third flat gear; the axis of the third flat gear is inserted into the first hydraulic lifting platform; the outer surface of the first hydraulic lifting platform is in sliding connection with the first lifting platform shell; the third gear is rotatably connected with the first screw rod; the first hydraulic lifting platform is inserted into the first limiting sliding column; the first limiting sliding column is connected with the second hydraulic lifting platform; the second hydraulic lifting platform is inserted into the first screw rod; the outer surface of the second hydraulic lifting platform is in sliding connection with the second lifting platform shell; the outer surface of the first screw rod is in sliding connection with the first internal thread sliding block; the inner side of the first internal thread sliding block is in sliding connection with the first limiting sliding column; the lower part of the first internal thread sliding block is connected with a material preparing mechanism; the upper part of the second driving wheel is connected with the first driving wheel; the upper part of the first flat gear is connected with an oil brushing control mechanism; the first internal thread sliding block is connected with the oil brushing control mechanism; the lower part of the second lifting platform shell is connected with the working platform plate; the lower part of the first lifting platform shell is connected with the working platform plate; the lower part of the power motor is connected with the working bedplate; the second lifting platform shell is connected with the real-time control screen; the upper part of the first hydraulic lifting platform is connected with an oil brushing control mechanism; the upper part of the second hydraulic lifting platform is connected with an oil brushing control mechanism.

As an improvement of the scheme, the oil brushing control mechanism comprises a fourth flat gear, a chute rotating shaft rod, a first bearing seat, a second bearing seat and a movable oil brushing mechanism; the axle center of the fourth flat gear is rotationally connected with the chute rotating shaft rod; one side of the outer surface of the chute rotating shaft rod is sleeved with the first bearing seat, and the other side of the outer surface of the chute rotating shaft rod is sleeved with the second bearing seat; the outer surface of the chute rotating shaft rod is connected with the movable oil brushing mechanism; the movable oil brushing mechanism is connected with the first internal thread sliding block; the fourth flat gear is connected with the first flat gear; the lower part of the first bearing seat is connected with a first hydraulic lifting platform; and the lower part of the second bearing seat is connected with a second hydraulic lifting platform.

As an improvement of the above scheme, the movable turnover mechanism includes a first electric slide seat, a first collection platform, a first electric push rod, a movable slider, a first electric lifting platform, a second rotating shaft rod, a first bevel gear, a second bevel gear, a fifth flat gear, a first collection plate, a first arc-shaped sliding frame, a second electric push rod, a first rectangular frame strip, a third electric push rod, a second rectangular frame strip, a sliding joining column, a connecting block, a first cambered slider, a second cambered slider and a turnover shovel plate; the upper part of the first electric sliding seat is connected with the first collecting table through a bolt; the first collecting platform is sleeved with the first electric push rod; the upper part of the first collection table is in sliding connection with the movable sliding block; the movable sliding block is inserted with the first electric push rod; the upper part of the movable sliding block is inserted into the first electric lifting table; the inner side of the first electric lifting platform is sleeved with the second rotating shaft rod; the outer surface of the second rotating shaft rod is sleeved with the first bevel gear; the second rotating shaft rod is inserted with the first gathering plate; the first bevel gear is meshed with the second bevel gear; one side of the second bevel gear core is spliced with the first electric lifting table, and the other side of the second bevel gear core is rotationally connected with the fifth flat gear; the first gathering plate is connected with the first arc-shaped sliding frame; the first collecting plate is connected with the second arc-shaped sliding frame; the first collecting plate is sequentially spliced with the second electric push rod and the third electric push rod; the second electric push rod is inserted into the first rectangular frame strip; the inner side of the first rectangular frame strip is in sliding connection with the sliding connection column; the third electric push rod is inserted into the second rectangular frame strip; the inner side of the second rectangular frame strip is in sliding connection with the sliding connection column; the outer surface of the sliding connecting column is connected with the connecting block; one side of the sliding connecting column is inserted into the first cambered surface sliding block, and the other side of the sliding connecting column is inserted into the second cambered surface sliding block; the outer surface of the second cambered surface sliding block is in sliding connection with the second cambered sliding frame; the outer surface of the first cambered surface sliding block is in sliding connection with the first cambered sliding frame; the connecting block is connected with the turnover shovel plate; the lower part of the first electric sliding seat is connected with a first linear sliding rail.

As an improvement of the scheme, the material preparation mechanism comprises a blanking cabin, a blanking pushing scraper and a telescopic bearing plate; the blanking cabin is connected with a blanking pushing scraper plate; the blanking cabin is in sliding connection with the telescopic bearing plate; the upper part of the blanking cabin is connected with a first internal thread sliding block.

As an improvement of the scheme, the movable oil brushing mechanism comprises a first connecting sleeve plate, a hollow connecting bearing sleeve, a sixth flat gear, a limiting sliding strip, a seventh flat gear, a linkage convex column, a linkage rectangular frame, an elastic telescopic rod, a first connecting plate, a second collecting plate, a connecting sliding column, an oil dripping spray head, a limiting sliding sleeve and an oil brushing brush; the inner side of the first connecting sleeve plate is sleeved with the hollow connecting bearing sleeve; the hollow connecting bearing sleeve is connected with the sixth flat gear; a limiting sliding strip is arranged on the inner side of the sixth flat gear; the lower part of the sixth flat gear is meshed with the seventh flat gear; the seventh flat gear is inserted with the linkage convex column; the outer surface of the linkage convex column is in transmission connection with the linkage rectangular frame; the lower part of the linkage rectangular frame is spliced with the elastic telescopic rod; the lower part of the elastic telescopic rod is spliced with the first connecting plate; the upper part of the linkage rectangular frame is connected with a second collection plate; the second collecting plate is spliced with the connecting sliding column; the outer surface of the connecting sliding column is in sliding connection with the limiting sliding sleeve; the outer surface of the limiting sliding sleeve is sleeved with the first connecting plate; the lower part of the connecting sliding column is connected with an oiling brush; the second collecting plate is inserted with the oil dripping spray head; the inner side of the hollow connecting bearing sleeve is connected with the chute rotating shaft rod; the inner side of the sixth flat gear is connected with the chute rotating shaft rod; the limiting slide bar is connected with the chute rotating shaft rod; the first connecting sleeve plate is connected with the first internal thread sliding block; the axis of the seventh flat gear is connected with the first internal thread sliding block; the first connection plate is connected with the first internal thread sliding block.

As the improvement of the scheme, a camera is arranged on one side, close to the overturning shovel plate, above the first gathering plate.

As an improvement of the scheme, a branched channel is dug on the surface of the oiling brush.

The beneficial effects are that: 1. in order to solve the problem that when the raw material sliced pork of the dried pork slice is dried, the sliced pork needs to be placed on a heating and drying device, then a layer of vegetable oil is manually coated on the surface of the dried pork slice, then the drying device is closed for sealing and drying, because the temperature when the sliced pork is dried is not high, the drying time is long, meanwhile, the dried pork slice needs to be coated with oil for many times and turned over for many times, so that the sliced pork is completely dried, and further, when the vegetable oil is manually coated, the dried pork slice is often coated only on one surface of the dried pork slice for drying, and when the sealed drying device is closed, the top cover part forms downward pressure on the dried pork slice below the top cover part, and further the vegetable oil in the dried pork slice is extruded out, so that the vegetable oil can not be immersed into the sliced pork in the drying process, the taste of the sliced pork is not good, on the other hand, in the drying process for a long, the problem that the manual repeated opening of the drying device for oiling and turning the sliced meat is time-consuming and labor-consuming is solved;

2. the meat slice drying device is characterized in that a turn-over control mechanism, a discharging mechanism and an oil brushing control mechanism are designed, when the meat slice drying device is used, meat slices to be dried are added into a drying box through the discharging mechanism, then vegetable oil is smeared on the meat slices through the oil brushing control mechanism, then the drying box is controlled to be closed through the control of a real-time control screen, a power supply of the drying box is switched on, the meat slices in the drying box are dried, then the drying box is controlled to be opened again in the drying process, then the meat slices are turned over through the turn-over control mechanism, then the oil brushing control mechanism conducts oil brushing operation on the turned-over faces again, then the drying box is closed again to be dried, and the meat slices are turned over and brushed oil for several times repeatedly, so that the meat slices are;

3. the automatic feeding of the dried pork slices for processing the dried pork slices is realized, the vegetable oil operation is automatically coated on the surfaces of the pork slices, the pork slices in the drying process are subjected to the upper and lower overturning operation, the pork slices in the overturning process are subjected to repeated automatic oil brushing, and the effect of drying the pork slices by repeated oil brushing and overturning is automatically realized.

Drawings

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

FIG. 2 is a schematic perspective view of the turn-over control mechanism of the present invention;

FIG. 3 is a schematic perspective view of the blanking mechanism of the present invention;

FIG. 4 is a schematic perspective view of the oil brushing control mechanism according to the present invention;

FIG. 5 is a schematic view of a first three-dimensional structure of the mobile turnover mechanism of the present invention;

FIG. 6 is a schematic view of a second three-dimensional structure of the mobile turnover mechanism of the present invention;

FIG. 7 is a schematic view of a first perspective structure of the material preparation mechanism of the present invention;

FIG. 8 is a schematic diagram of a second perspective structure of the material preparation mechanism of the present invention;

fig. 9 is a schematic perspective view of the mobile brushing mechanism of the present invention.

The parts are labeled as follows: 1: work table, 2: leg post, 3: turnover control mechanism, 4: unloading mechanism, 5: brushing oil control mechanism, 6: real-time control screen, 7: stoving case, 301: first bearing frame plate, 302: first spindle shaft, 303: first drive wheel, 304: first long gear, 305: second long gear, 306: second bearing bracket plate, 307: first linear slide, 308: moving and turning mechanism, 401: power motor, 402: second drive wheel, 403: third transmission wheel, 404: fourth transmission wheel, 405: fifth transmission wheel, 406: first spur gear, 407: first bearing connecting plate, 408: first elevating platform housing, 409: sixth drive wheel, 4010: second spur gear, 4011: motor shaft, 4012: third spur gear, 4013: first hydraulic lift, 4014: first lead screw, 4015: first limiting strut, 4016: first internally threaded slider, 4017: second hydraulic lift table, 4018: second lift table housing, 4019: feed preparation mechanism, 501: fourth flat gear, 502: chute spindle shaft, 503: first bearing seat, 504: second bearing housing, 505: moving brushing oil mechanism, 30801: first electric slide, 30802: first manifold station, 30803: first electric putter, 30804: moving slider, 30805: first motorized lift, 30806: second spindle shaft, 30807: first bevel gear, 30808: second bevel gear, 30809: fifth spur gear, 30810: first collective plate, 30811: first arc-shaped sliding frame, 30812: second arc-shaped sliding frame, 30813: second electric putter, 30814: first rectangular frame strip, 30815: third electric putter, 30816: second rectangular frame strip, 30817: sliding adapter column, 30818: connecting block, 30819: first cambered slider, 30820: second cambered slider, 30821: turning shovel plate, 401901: blanking chamber, 401902: blanking push scraper, 401903: telescoping carrier plate, 50501: first connecting web, 50502: hollow connecting bearing bush, 50503: sixth flat gear, 50504: limit slider, 50505: seventh flat gear, 50506: linkage convex column, 50507: linkage rectangular frame, 50508: elastic telescopic rod, 50509: first connector tile, 50510: second collective plate, 50511: connecting strut, 50512: oil drop spray head, 50513: limiting sliding sleeve, 50514: and (4) coating an oil brush.

Detailed Description

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

Example 1

A pork processing and drying device is shown in figures 1-9 and comprises a working table plate 1, support leg columns 2, a turn-over control mechanism 3, a blanking mechanism 4, an oil brushing control mechanism 5, a real-time control screen 6 and a drying box 7; the lower part of the working table plate 1 is welded with the support leg column 2; the upper part of the working table plate 1 is connected with a turnover control mechanism 3; the upper part of the working table plate 1 is connected with a blanking mechanism 4; the turnover control mechanism 3 is connected with the blanking mechanism 4; the blanking mechanism 4 is connected with the oil brushing control mechanism 5; the blanking mechanism 4 is connected with the real-time control screen 6.

The working principle is as follows: when the pork processing and drying device is used, the device is stably fixed to a working plane, then a power supply is connected externally, then a real-time control screen 6 is manually opened, the top cover of a drying box 7 is controlled to be opened through the real-time control screen 6, then sufficient meat slices to be dried are added into a blanking mechanism 4, then a power system in the device is switched on through the real-time control screen 6, the meat slices to be dried are added into the drying box 7 through the blanking mechanism 4, then vegetable oil coating is carried out on the meat slices through an oil brushing control mechanism 5, then the drying box 7 is controlled to be closed through the control of the real-time control screen 6, the power supply of the drying box 7 is switched on to dry the meat slices in the drying box, then the drying box 7 is controlled to be opened again in the drying process, then the meat slices are turned over through a turn-over control mechanism 3, and then the oil brushing control mechanism 5 carries out oil brushing operation on the turned over faces, then close stoving case 7 again and dry, overturn the brushing oil to the sliced meat several times repeatedly, accomplish the stoving to the sliced meat, realized the automatic unloading of sliced meat for the processing of pork jerky to carry out the automatic vegetable oil operation of applying paint with a brush to the sliced meat surface, carry out the operation of turning over from top to bottom to the sliced meat of stoving in-process, carry out the automatic brushing oil of repetition to the sliced pork of turning over, the automatic effect of realizing the stoving sliced meat of repetition brushing oil turn over.

The turnover control mechanism 3 comprises a first bearing frame plate 301, a first rotating shaft rod 302, a first driving wheel 303, a first long gear 304, a second long gear 305, a second bearing frame plate 306, a first linear slide rail 307 and a movable turnover mechanism 308; the inner side of the first bearing frame plate 301 is sleeved with a first rotating shaft rod 302; the first rotating shaft rod 302 is in rotating connection with the first driving wheel 303; the outer surface of the first rotating shaft rod 302 is sleeved with a first long gear 304 and a second long gear 305 in sequence; the first rotating shaft rod 302 is inserted into the second bearing frame plate 306; the second bearing frame plate 306 is bolted to the first linear slide 307; the first linear slide 307 is bolted to the first bearing frame plate 301; the upper part of the first linear slide rail 307 is connected with the movable turnover mechanism 308 in a sliding way; the lower part of the first bearing frame plate 301 is connected with the workbench plate 1; the lower part of the second bearing frame plate 306 is connected with the workbench plate 1; the first driving wheel 303 is connected with the blanking mechanism 4.

Firstly, the drying box 7 is controlled to be opened through the real-time control screen 6, the meat slices are placed into the drying box 7 through the blanking mechanism 4, then the oil coating operation is carried out on the meat slices through the oil brushing control mechanism 5, then the meat slices are dried by the drying box 7, the drying box 7 is controlled to be opened after drying for a period of time, then the first linear slide rail 307 is controlled to drive the movable turnover mechanism 308 to move to one side of the drying box 7, then the movable turnover mechanism 308 is controlled to be meshed with the second long gear 305, then the second transmission wheel 402 drives the first transmission wheel 303 to rotate, then the first transmission wheel 303 drives the first rotating shaft rod 302 to rotate, then the first rotating shaft rod 302 drives the first long gear 304 and the second long gear 305 to rotate, then the second long gear 305 drives the movable turnover mechanism 308 to rotate, the meat slices in the drying box 7 are shoveled, and then the meat slices are turned over, meanwhile, after the meat slices are dried, the meat slices can be scooped up by the movable turnover mechanism 308, then the first linear slide rail 307 of the meat slices drives the movable turnover mechanism 308 to move together with the meat slices to the position where the movable turnover mechanism 308 is meshed with the first long gear 304, then the first long gear 304 drives the movable turnover mechanism 308 to turn over, and the meat slices borne by the movable turnover mechanism 308 are turned over and put down to be collected.

The blanking mechanism 4 comprises a power motor 401, a second driving wheel 402, a third driving wheel 403, a fourth driving wheel 404, a fifth driving wheel 405, a first pinion 406, a first bearing connecting plate 407, a first lifting platform shell 408, a sixth driving wheel 409, a second pinion 4010, a motor rotating shaft 4011, a third pinion 4012, a first hydraulic lifting platform 4013, a first screw 4014, a first limit sliding column 4015, a first internal thread sliding block 4016, a second hydraulic lifting platform 4017, a second lifting platform shell 4018 and a material preparing mechanism 4019; an output shaft of the power motor 401 is rotatably connected with a motor rotating shaft 4011; the outer surface of a motor rotating shaft 4011 is sequentially sleeved with a second driving wheel 402, a third driving wheel 403 and a fourth driving wheel 404; the outer annular surface of the third driving wheel 403 is in transmission connection with a fifth driving wheel 405 through a belt; the axle center of the fifth driving wheel 405 is rotationally connected with the first flat gear 406; the axis of the first flat gear 406 is inserted into the first bearing connecting plate 407; the first bearing connecting plate 407 is connected to the first elevating platform housing 408; the outer annular surface of the fourth driving wheel 404 is in transmission connection with a sixth driving wheel 409 through a belt; the axis of the sixth driving wheel 409 is rotationally connected with the second flat gear 4010; the axis of the second flat gear 4010 is inserted into the first lifting platform shell 408; the second flat gear 4010 meshes with the third flat gear 4012; the axis of the third horizontal gear 4012 is inserted into the first hydraulic lifting platform 4013; the outer surface of the first hydraulic lifting table 4013 is in sliding connection with the first lifting table housing 408; the third horizontal gear 4012 is rotatably connected with the first lead screw 4014; the first hydraulic lifting platform 4013 is inserted into the first limiting sliding column 4015; the first limit sliding column 4015 is connected with a second hydraulic lifting platform 4017; the second hydraulic lifting platform 4017 is inserted into the first screw 4014; the outer surface of the second hydraulic lifting table 4017 is in sliding connection with a second lifting table housing 4018; the outer surface of the first screw rod 4014 is in sliding connection with a first internal thread sliding block 4016; the inner side of the first internal thread sliding block 4016 is in sliding connection with a first limiting sliding column 4015; the lower part of the first internal thread sliding block 4016 is connected with a material preparation mechanism 4019; the upper part of the second driving wheel 402 is connected with the first driving wheel 303; the upper part of the first flat gear 406 is connected with the oil brushing control mechanism 5; the first internal thread sliding block 4016 is connected with the oil brushing control mechanism 5; the lower part of the shell 4018 of the second lifting platform is connected with the workbench plate 1; the lower part of the first lifting platform shell 408 is connected with the workbench plate 1; the lower part of the power motor 401 is connected with the working bedplate 1; the second lifting platform shell 4018 is connected with the real-time control screen 6; the upper part of the first hydraulic lifting platform 4013 is connected with an oil brushing control mechanism 5; the upper part of the second hydraulic lifting platform 4017 is connected with an oil brushing control mechanism 5.

Firstly, opening a drying box 7, then controlling the first hydraulic lifting platform 4013 and the second hydraulic lifting platform 4017 to descend, namely, the third flat gear 4012 moves to a position where the third flat gear 4012 is meshed with the second flat gear 4010, controlling the power supply of a power motor 401 to be switched on through a real-time control screen 6, then the power motor 401 drives a motor rotating shaft 4011 to rotate, then the motor rotating shaft 4011 drives a second driving wheel 402, a third driving wheel 403 and a fourth driving wheel 404 to rotate, further the third driving wheel 403 drives a fifth driving wheel 405 to rotate through a belt, then the fifth driving wheel 405 drives a first flat gear 406 to rotate, namely, the first flat gear 406 drives an oil brushing control mechanism 5 to rotate, meanwhile, the fourth driving wheel 404 drives a sixth driving wheel 409 to rotate, further the sixth driving wheel 409 drives a second flat gear 4010 to rotate, and then the second flat gear 4010 drives the third flat gear 4012 to rotate, and then the third gear 4012 rotates and drives the first lead screw 4014 to rotate, and then the first lead screw 4014 rotates and drives the first internal thread slider 4016 to slide, namely the first internal thread slider 4016 slides on the surfaces of the first lead screw 4014 and the first limit sliding column 4015, the material preparation mechanism 4019 is controlled to add the pork slices stored in the material preparation mechanism into the drying box 7 while sliding, the feeding is completed, then the oil brushing control mechanism 5 brushes the pork slices, then the descending positions of the first hydraulic lifting platform 4013 and the second hydraulic lifting platform 4017 are controlled to ascend, and then the third gear 4012 is separated from the meshing with the second gear 4010, namely the first lead screw 4014 stops rotating, the material preparation mechanism 4019 stops blanking, then the drying box 7 is closed, and the blanking operation of the pork slices is completed.

The oil brushing control mechanism 5 comprises a fourth flat gear 501, a chute rotating shaft rod 502, a first bearing seat 503, a second bearing seat 504 and a movable oil brushing mechanism 505; the axle center of the fourth flat gear 501 is rotationally connected with the chute rotating shaft rod 502; one side of the outer surface of the chute turning shaft rod 502 is sleeved with a first bearing seat 503, and the other side of the outer surface of the chute turning shaft rod 502 is sleeved with a second bearing seat 504; the outer surface of the chute rotating shaft rod 502 is connected with a movable oil brushing mechanism 505; the movable oil brushing mechanism 505 is connected with the first internal thread sliding block 4016; the fourth spur gear 501 is connected with the first spur gear 406; the lower part of the first bearing seat 503 is connected with a first hydraulic lifting platform 4013; the second hydraulic lift 4017 is connected to a lower portion of the second bearing block 504.

Firstly, the first pinion 406 drives the fourth pinion 501 to rotate, then the fourth pinion 501 drives the chute rotating shaft rod 502 to rotate, then the chute rotating shaft rod 502 rotates to drive the movable brushing oil mechanism 505 to operate, meanwhile, the first internal thread slider 4016 drives the movable brushing oil mechanism 505 to move left and right on the surface of the chute rotating shaft rod 502, and then the movable brushing oil mechanism 505 finishes the vegetable oil brushing operation on the meat slices inside the drying box 7.

The movable turnover mechanism 308 comprises a first electric sliding base 30801, a first collecting platform 30802, a first electric push rod 30803, a movable sliding block 30804, a first electric lifting platform 30805, a second rotating shaft rod 30806, a first bevel gear 30807, a second bevel gear 30808, a fifth flat gear 30809, a first collecting plate 30810, a first arc-shaped sliding frame 30811, a second arc-shaped sliding frame 30812, a second electric push rod 30813, a first rectangular frame strip 30814, a third electric push rod 30815, a second rectangular frame strip 30816, a sliding engagement column 30817, a connecting block 30818, a first arc-shaped sliding block 30819, a second arc-shaped sliding block 30820 and a turnover shovel plate 30821; the upper part of the first electric sliding seat 30801 is connected with a first collection platform 30802 through bolts; the first collecting platform 30802 is sleeved with a first electric push rod 30803; the upper part of the first collection platform 30802 is in sliding connection with the movable sliding block 30804; the movable sliding block 30804 is inserted with the first electric push rod 30803; the upper part of the movable sliding block 30804 is spliced with the first electric lifting platform 30805; the inner side of the first electric lifting platform 30805 is sleeved with the second rotating shaft rod 30806; the outer surface of the second rotating shaft rod 30806 is sleeved with the first bevel gear 30807; the second rotating shaft rod 30806 is inserted into the first collecting plate 30810; the first bevel gear 30807 is engaged with the second bevel gear 30808; one side of the axis of the second bevel gear 30808 is spliced with the first electric lifting platform 30805, and the other side of the axis of the second bevel gear 30808 is rotationally connected with the fifth flat gear 30809; the first collecting plate 30810 is connected with the first arc-shaped sliding frame 30811; the first collection plate 30810 is coupled to the second arc-shaped sliding frame 30812; the first collecting plate 30810 is sequentially spliced with a second electric push rod 30813 and a third electric push rod 30815; the second electric push rod 30813 is inserted into the first rectangular frame strip 30814; the inner side of the first rectangular frame strip 30814 is slidably connected with the sliding engagement column 30817; the third electric push rod 30815 is spliced with the second rectangular frame strip 30816; the inner side of the second rectangular frame strip 30816 is in sliding connection with the sliding connecting column 30817; the outer surface of the sliding engagement column 30817 is connected with the connection block 30818; one side of the sliding joint column 30817 is spliced with the first cambered surface sliding block 30819, and the other side of the sliding joint column 30817 is spliced with the second cambered surface sliding block 30820; the outer surface of the second cambered surface sliding block 30820 is in sliding connection with the second cambered sliding frame 30812; the outer surface of the first cambered surface sliding block 30819 is in sliding connection with the first cambered sliding frame 30811; the connecting block 30818 is connected with the turnover shovel plate 30821; the lower part of the first electric sliding seat 30801 is connected with the first linear sliding rail 307.

Firstly, the drying box 7 is controlled to be opened, the first linear sliding rail 307 drives the first electric sliding base 30801 to move, then the first electric sliding base 30801 drives the whole body above the first gathering platform 30802 to move, when the first electric sliding base 30801 moves to a position close to the second long gear 305, the turnover shovel plate 30821 is in an inclined state at the moment, then the first electric push rod 30803 is controlled to push out, then the first electric push rod 30803 drives the moving sliding block 30804 to move towards a direction close to the drying box 7, then the moving sliding block 30804 is controlled to drive the inclined turnover shovel plate 30821 to extend to the lower part of a meat slice above the drying box 7 through the connection of a plurality of components, then the meat slice is located above the turnover shovel plate 30821, then the second electric push rod 30813 and the third electric push rod 30815 are controlled to push out, then the first rectangular frame strip 30814 and the second rectangular frame strip 30816 are respectively driven to move, and then the first rectangular frame strip 30814 and the second rectangular frame strip 30816 are respectively driven to move on the first cambered slider 819 and the second rectangular frame strip 30816 through the sliding joint column 30817 The inner sides of the sliding frame 30811 and the second arc-shaped sliding frame 30812 slide towards the direction close to the turnover shovel plate 30821, then the first arc-shaped sliding frame 30819 and the second arc-shaped sliding frame 30812 respectively drive the first arc-shaped sliding block 30819 and the second arc-shaped sliding block 30820 to swing due to the arc-shaped tracks of the first arc-shaped sliding frame 30811 and the second arc-shaped sliding frame 30812, then the first arc-shaped sliding block 30819 and the second arc-shaped sliding block 30820 drive the sliding connecting column 30817 to rotate, further the sliding connecting column 30817 drives the turnover shovel plate 30821 to rotate to the horizontal position through the connecting block 30818, then the meat is stably positioned above the turnover shovel plate 30821, then the first electric lifting platform 30805 is controlled to lift upwards, further the turnover shovel plate 30821 is driven to lift through the connection of a plurality of components, meanwhile, the fifth flat gear 30809 moves upwards to the position where the fifth flat gear 30809 engages with the second long gear 305, and further the second long gear 305 drives the fifth flat gear 30809 to rotate, further, the fifth flat gear 30809 drives the second bevel gear 30808 to rotate, further the second bevel gear 30808 drives the first bevel gear 30807 to rotate, then the first bevel gear 30807 drives the second rotating shaft 30806, further the second rotating shaft 30806 drives the first collecting plate 30810 to rotate, further the first collecting plate 30810 drives the turning shovel plate 30821 to perform turning operation through the connection of a plurality of components, further the meat slices above the turning shovel plate 30821 are turned to the lower side of the turning shovel plate 30821 and fall into the drying box 7 again, meanwhile, the first linear slide rail 307 drives the first electric slide base 30801 to move, further the first electric slide base 30801 drives the whole body above the first collecting platform 30802 to move, when the meat slices are moved to a position close to the first long gear 304, the first long gear 304 drives the fifth flat gear 30809 to rotate, and the turning shovel plate 30821 can turn down the meat slices above the turning shovel plate, and the meat slice collection is completed, and the turnover and the collection of the meat slices are further completed.

The material preparation mechanism 4019 comprises a blanking cabin 401901, a blanking pushing scraper 401902 and a telescopic bearing plate 401903; the blanking cabin 401901 is connected with a blanking pushing scraper 401902; the blanking cabin 401901 is in sliding connection with the telescopic bearing plate 401903; the upper part of the blanking chamber 401901 is connected with a first internal thread slide block 4016.

The feeding pushing scraper 401902 is controlled to contract, the telescopic bearing plate 401903 is controlled to extend out, meat slices are placed above the telescopic bearing plate 401903, then the telescopic bearing plate 401903 is controlled to retract into the feeding cabin 401901, five groups of telescopic bearing plates 401903 are controlled to be sequentially pushed out from bottom to top during feeding, then five groups of feeding pushing scrapers 401902 above the five groups of telescopic bearing plates 401903 are controlled to be pushed out downwards to intercept and scrape the meat slices above the five groups of telescopic bearing plates 401903 respectively, the meat slices drop to the upper side of the drying box 7 from an opening below the feeding cabin 401901, and feeding of the meat slices is completed.

The movable oil brushing mechanism 505 comprises a first connecting sleeve plate 50501, a hollow connecting bearing bush 50502, a sixth flat gear 50503, a limit sliding strip 50504, a seventh flat gear 50505, a linkage convex column 50506, a linkage rectangular frame 50507, an elastic telescopic rod 50508, a first connecting plate 50509, a second collecting plate 50510, a connecting sliding column 50511, an oil dripping spray head 50512, a limit sliding sleeve 50513 and an oil brushing 50514; the inner side of the first connecting sleeve plate 50501 is sleeved with a hollow connecting bearing sleeve 50502; the hollow connecting bearing bush 50502 is connected with a sixth flat gear 50503; a limiting sliding strip 50504 is arranged on the inner side of the sixth flat gear 50503; the lower part of the sixth flat gear 50503 is meshed with a seventh flat gear 50505; the seventh flat gear 50505 is inserted into the linkage convex column 50506; the outer surface of the linkage convex column 50506 is in transmission connection with the linkage rectangular frame 50507; the lower part of the linkage rectangular frame 50507 is spliced with an elastic telescopic rod 50508; the lower part of the elastic telescopic rod 50508 is spliced with a first connecting plate 50509; a second collection plate 50510 is connected above the linkage rectangular frame 50507; the second collection plate 50510 is inserted into the connecting sliding column 50511; the outer surface of the connecting sliding column 50511 is in sliding connection with a limiting sliding sleeve 50513; the outer surface of the limit slide 50513 is in socket connection with a first connector panel 50509; the lower part of the connecting sliding column 50511 is connected with an oiling brush 50514; the second collection plate 50510 is inserted into the oil dripping nozzle 50512; the inner side of the hollow connecting bearing bush 50502 is connected with the chute rotating shaft rod 502; the inner side of the sixth flat gear 50503 is connected with the chute rotating shaft rod 502; the limiting slide bar 50504 is connected with the chute rotating shaft rod 502; the first connecting sleeve plate 50501 is connected with the first internal thread sliding block 4016; the axis of the seventh flat gear 50505 is connected with the first internal thread sliding block 4016; the first connector plate 50509 is connected to the first internally threaded slide 4016.

Firstly, the chute rotating shaft rod 502 drives a sixth flat gear 50503 to rotate through a limiting sliding strip 50504, then the sixth flat gear 50503 drives a seventh flat gear 50505 to rotate, then the seventh flat gear 50505 rotates to drive a linkage convex column 50506 to rotate, then the linkage convex column 50506 drives a linkage rectangular frame 50507 to reciprocate up and down, meanwhile, the elastic telescopic rod 50508 moves up and down to complete the motion limitation on the linkage rectangular frame 50507, then the linkage rectangular frame 50507 drives a second collection plate 50510 to move up and down, then the second collection plate 50510 drives a connecting sliding column 50511 to slide up and down on the inner side of the limiting sliding sleeve 50513, then the connecting sliding column 50511 drives an oiling brush 50514 to move up and down, meanwhile, oil is dripped to an oiling brush 50514 through an oil dripping nozzle 50512, and the first sliding block 4016 drives the whole mobile oiling mechanism to move, so as to brush the meat slices above the drying box 7.

A camera is disposed above the first collecting plate 30810 at a side close to the turning shovel plate 30821.

So that the relative position of the turning shovel plate 30821 and the meat piece can be observed through the camera to adjust the position of the turning shovel plate 30821.

The surface of the oiling brush 50514 is grooved with diverging channels.

So that the edible oil injected into the channel is guided into the bristles through the channel.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by the present specification, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims

1. The utility model provides a pork processing drying device, including work platen, pillar and turn-over control mechanism, characterized by: the automatic oil-brushing device also comprises a blanking mechanism, an oil-brushing control mechanism, a real-time control screen and a drying box; the lower part of the working table plate is welded with the support leg column; the upper part of the working table plate is connected with a turnover control mechanism; the upper part of the working table plate is connected with a blanking mechanism; the turnover control mechanism is connected with the blanking mechanism; the blanking mechanism is connected with the oil brushing control mechanism; the blanking mechanism is connected with the real-time control screen.

2. The pork processing and drying device of claim 1, wherein: the turnover control mechanism comprises a first bearing frame plate, a first rotating shaft rod, a first driving wheel, a first long gear, a second bearing frame plate, a first linear slide rail and a movable turnover mechanism; the inner side of the first bearing frame plate is sleeved with the first rotating shaft rod; the first rotating shaft rod is in rotating connection with the first driving wheel; the outer surface of the first rotating shaft rod is sequentially sleeved with the first long gear and the second long gear; the first rotating shaft rod is inserted into the second bearing frame plate; the second bearing frame plate is connected with the first linear slide rail through bolts; the first linear slide rail is connected with the first bearing frame plate through a bolt; the upper part of the first linear slide rail is in sliding connection with the movable turnover mechanism; the lower part of the first bearing frame plate is connected with the working table plate; the lower part of the second bearing frame plate is connected with the working table plate; the first driving wheel is connected with the blanking mechanism.

3. The pork processing and drying device of claim 2, wherein: the blanking mechanism comprises a power motor, a second transmission wheel, a third transmission wheel, a fourth transmission wheel, a fifth transmission wheel, a first pinion, a first bearing connecting plate, a first lifting platform shell, a sixth transmission wheel, a second pinion, a motor rotating shaft, a third pinion, a first hydraulic lifting platform, a first lead screw, a first limiting sliding column, a first internal thread sliding block, a second hydraulic lifting platform, a second lifting platform shell and a material preparing mechanism; an output shaft of the power motor is rotationally connected with a motor rotating shaft; the outer surface of the rotating shaft of the motor is sequentially sleeved with the second driving wheel, the third driving wheel and the fourth driving wheel; the outer ring surface of the third driving wheel is in transmission connection with the fifth driving wheel through a belt; the axle center of the fifth driving wheel is rotationally connected with the first flat gear; the first flat gear shaft center is inserted with the first bearing connecting plate; the first bearing connecting plate is connected with the first lifting platform shell; the outer ring surface of the fourth driving wheel is in transmission connection with the sixth driving wheel through a belt; the axis of the sixth transmission wheel is rotationally connected with the second flat gear; the axle center of the second flat gear is inserted into the shell of the first lifting platform; the second flat gear is meshed with the third flat gear; the axis of the third flat gear is inserted into the first hydraulic lifting platform; the outer surface of the first hydraulic lifting platform is in sliding connection with the first lifting platform shell; the third gear is rotatably connected with the first screw rod; the first hydraulic lifting platform is inserted into the first limiting sliding column; the first limiting sliding column is connected with the second hydraulic lifting platform; the second hydraulic lifting platform is inserted into the first screw rod; the outer surface of the second hydraulic lifting platform is in sliding connection with the second lifting platform shell; the outer surface of the first screw rod is in sliding connection with the first internal thread sliding block; the inner side of the first internal thread sliding block is in sliding connection with the first limiting sliding column; the lower part of the first internal thread sliding block is connected with a material preparing mechanism; the upper part of the second driving wheel is connected with the first driving wheel; the upper part of the first flat gear is connected with an oil brushing control mechanism; the first internal thread sliding block is connected with the oil brushing control mechanism; the lower part of the second lifting platform shell is connected with the working platform plate; the lower part of the first lifting platform shell is connected with the working platform plate; the lower part of the power motor is connected with the working bedplate; the second lifting platform shell is connected with the real-time control screen; the upper part of the first hydraulic lifting platform is connected with an oil brushing control mechanism; the upper part of the second hydraulic lifting platform is connected with an oil brushing control mechanism.

4. The pork processing and drying device of claim 3, wherein: the oil brushing control mechanism comprises a fourth flat gear, a chute rotating shaft rod, a first bearing seat, a second bearing seat and a movable oil brushing mechanism; the axle center of the fourth flat gear is rotationally connected with the chute rotating shaft rod; one side of the outer surface of the chute rotating shaft rod is sleeved with the first bearing seat, and the other side of the outer surface of the chute rotating shaft rod is sleeved with the second bearing seat; the outer surface of the chute rotating shaft rod is connected with the movable oil brushing mechanism; the movable oil brushing mechanism is connected with the first internal thread sliding block; the fourth flat gear is connected with the first flat gear; the lower part of the first bearing seat is connected with a first hydraulic lifting platform; and the lower part of the second bearing seat is connected with a second hydraulic lifting platform.

5. The pork processing and drying device of claim 4, wherein: the movable turnover mechanism comprises a first electric sliding seat, a first collecting platform, a first electric push rod, a movable sliding block, a first electric lifting platform, a second rotating shaft rod, a first bevel gear, a second bevel gear, a fifth flat gear, a first collecting plate, a first arc-shaped sliding frame, a second electric push rod, a first rectangular frame strip, a third electric push rod, a second rectangular frame strip, a sliding connecting column, a connecting block, a first arc-shaped sliding block, a second arc-shaped sliding block and a turnover shovel plate; the upper part of the first electric sliding seat is connected with the first collecting table through a bolt; the first collecting platform is sleeved with the first electric push rod; the upper part of the first collection table is in sliding connection with the movable sliding block; the movable sliding block is inserted with the first electric push rod; the upper part of the movable sliding block is inserted into the first electric lifting table; the inner side of the first electric lifting platform is sleeved with the second rotating shaft rod; the outer surface of the second rotating shaft rod is sleeved with the first bevel gear; the second rotating shaft rod is inserted with the first gathering plate; the first bevel gear is meshed with the second bevel gear; one side of the second bevel gear core is spliced with the first electric lifting table, and the other side of the second bevel gear core is rotationally connected with the fifth flat gear; the first gathering plate is connected with the first arc-shaped sliding frame; the first collecting plate is connected with the second arc-shaped sliding frame; the first collecting plate is sequentially spliced with the second electric push rod and the third electric push rod; the second electric push rod is inserted into the first rectangular frame strip; the inner side of the first rectangular frame strip is in sliding connection with the sliding connection column; the third electric push rod is inserted into the second rectangular frame strip; the inner side of the second rectangular frame strip is in sliding connection with the sliding connection column; the outer surface of the sliding connecting column is connected with the connecting block; one side of the sliding connecting column is inserted into the first cambered surface sliding block, and the other side of the sliding connecting column is inserted into the second cambered surface sliding block; the outer surface of the second cambered surface sliding block is in sliding connection with the second cambered sliding frame; the outer surface of the first cambered surface sliding block is in sliding connection with the first cambered sliding frame; the connecting block is connected with the turnover shovel plate; the lower part of the first electric sliding seat is connected with a first linear sliding rail.

6. The pork processing and drying device of claim 5, wherein: the material preparation mechanism comprises a blanking cabin, a blanking pushing scraper plate and a telescopic bearing plate; the blanking cabin is connected with a blanking pushing scraper plate; the blanking cabin is in sliding connection with the telescopic bearing plate; the upper part of the blanking cabin is connected with a first internal thread sliding block.

7. The pork processing and drying device of claim 6, wherein: the movable oil brushing mechanism comprises a first connecting sleeve plate, a hollow connecting bearing sleeve, a sixth flat gear, a limiting sliding strip, a seventh flat gear, a linkage convex column, a linkage rectangular frame, an elastic telescopic rod, a first connecting plate, a second collecting plate, a connecting sliding column, an oil dripping spray head, a limiting sliding sleeve and an oil brushing brush; the inner side of the first connecting sleeve plate is sleeved with the hollow connecting bearing sleeve; the hollow connecting bearing sleeve is connected with the sixth flat gear; a limiting sliding strip is arranged on the inner side of the sixth flat gear; the lower part of the sixth flat gear is meshed with the seventh flat gear; the seventh flat gear is inserted with the linkage convex column; the outer surface of the linkage convex column is in transmission connection with the linkage rectangular frame; the lower part of the linkage rectangular frame is spliced with the elastic telescopic rod; the lower part of the elastic telescopic rod is spliced with the first connecting plate; the upper part of the linkage rectangular frame is connected with a second collection plate; the second collecting plate is spliced with the connecting sliding column; the outer surface of the connecting sliding column is in sliding connection with the limiting sliding sleeve; the outer surface of the limiting sliding sleeve is sleeved with the first connecting plate; the lower part of the connecting sliding column is connected with an oiling brush; the second collecting plate is inserted with the oil dripping spray head; the inner side of the hollow connecting bearing sleeve is connected with the chute rotating shaft rod; the inner side of the sixth flat gear is connected with the chute rotating shaft rod; the limiting slide bar is connected with the chute rotating shaft rod; the first connecting sleeve plate is connected with the first internal thread sliding block; the axis of the seventh flat gear is connected with the first internal thread sliding block; the first connection plate is connected with the first internal thread sliding block.

8. The pork processing and drying device of claim 7, wherein: one side that first set board top is close to upset shovel board is provided with the camera.

9. The pork processing and drying device of claim 8, wherein: the surface of the oil painting brush is dug with a branched channel.