CN215943176U - Intelligent multifunctional food material processor - Google Patents

Abstract

An intelligent multifunctional food material processor comprises a main support frame, a food material feeding device, a photoelectric sensor, a slicing device, a shredding and dicing device, an operation panel and a controller, wherein the food material feeding device, the photoelectric sensor, the slicing device, the shredding and dicing device, the operation panel and the controller are arranged on the main support frame, the photoelectric sensor and the operation panel are connected with the controller, and the controller is respectively connected with the food material feeding device, the slicing device and the shredding and dicing device. The utility model provides an intelligent multifunctional food material processor which is safe, efficient and convenient to operate.

Description

Intelligent multifunctional food material processor

Technical Field

The utility model relates to the field of food material processing machines, in particular to an intelligent multifunctional food material processing machine.

Background

Vegetables are one of essential foods in daily diet of people, can provide various vitamins, minerals and the like necessary for human bodies, and have various cooking methods. The demand of people for healthy diet now makes the demand for processed fine vegetables which are convenient to eat and rich in nutrition increasingly larger. Although the subsequent steps of cooking can be solved by a food processor, the processing of the food materials in the prior art is still a problem for young people, the people safety is seriously threatened by cutting vegetables rapidly by hand in daily life, and the following researches show that: the problems of slow cutting, irregular vegetable shape, easy hand injury and the like exist in the manual processing of food materials in daily common household main kitchens, and especially the processing difficulty of root vegetables and tuber vegetables such as carrots, potatoes and the like is higher.

Disclosure of Invention

In order to overcome the defects in the prior art, the utility model provides the intelligent multifunctional food material processor which is safe, efficient and convenient to operate.

The technical scheme adopted by the utility model for solving the technical problems is as follows:

an intelligent multifunctional food material processor comprises a main support frame, a food material feeding device, a photoelectric sensor, a slicing device, a shredding and dicing device, an operation panel and a controller, wherein the food material feeding device is mounted on the main support frame;

the main support frame comprises an upper plate, a middle plate and a lower plate, a first feed opening is formed in the middle plate, a second feed opening is formed in the right part of the lower plate, the food material feeding device comprises a feed opening and a synchronous belt clamping jaw mechanism, the feed opening is arranged on the upper plate, the first feed opening is opposite to the feed opening in a vertical direction, the synchronous belt clamping jaw mechanism is located above the first feed opening and arranged on the upper plate, the photoelectric sensor is arranged at the lower end of the feed opening, and the slicing device is close to the first feed opening and arranged on the middle plate;

the shredding and dicing device comprises a shredding and dicing mechanism, a platform for receiving slices, a conveying mechanism and a baffle for dropping food materials from the platform, the platform is rotatably arranged on a platform base and is connected with a rotary steering engine, the platform base is arranged on the conveying mechanism, the shredding and dicing mechanism is positioned above the conveying mechanism and is arranged on a middle layer plate, and the baffle is positioned above the second feed opening and is arranged on the middle layer plate;

the mode is selected through the control panel, if the slicing mode is selected, food materials are fed from the feeding hole, clamped through the synchronous belt clamping jaw mechanism and fed downwards, then cut into slices through the slicing device, fall onto the platform from the first feeding hole, are conveyed to the position above the second feeding hole through the conveying mechanism, and fall into the plate from the second feeding hole through the baffle plate; if the shredding mode is selected, after slicing is finished, the conveying mechanism conveys the platform to the position below the shredding and dicing mechanism to shred; if the dicing mode is selected, after the shredding is finished, the conveying mechanism drives the platform to retreat, the platform is rotated by 90 degrees through the rotary steering engine, dicing is carried out through the shredding and dicing mechanism, and finally food materials fall into the tray from the second feed opening through the baffle.

Further, hold-in range clamping jaw mechanism includes three feeding clamping jaw unit, and three feeding clamping jaw unit equipartition is in feed inlet a week, and every feeding clamping jaw unit all includes the feed motor, feeds drive mechanism, hold-in range drive mechanism, centre gripping steering wheel and two sets of link mechanism, the feed motor passes through motor support mounting between two blocks of top plates, and two blocks of top plates are connected with the top plate of main tributary strut through the connecting piece respectively, it includes conical gear a, conical gear b, straight-teeth gear a, straight-teeth gear b and straight-teeth gear c to feed drive mechanism, conical gear a installs on the output shaft of feed motor, conical gear b is connected through first pivot coaxial with straight-teeth gear a, and install on two top plates at the left and right ends of first pivot, straight-teeth gear b installs in the second pivot, and install respectively at the middle part of two connecting rods of a set of link mechanism that is located the inboard at the left and right ends of second pivot, the upper ends of the two connecting rods of the group are respectively rotatably connected with the two ends of the first rotating shaft, the conical gear a is meshed with the conical gear b, the straight gear a is meshed with the straight gear b, the synchronous belt transmission mechanism comprises a synchronous belt, a synchronous belt wheel a, a synchronous belt wheel b and a synchronous belt wheel c, the synchronous belt wheel a, the synchronous belt wheel b and the synchronous belt wheel c form a triangle and are connected through the synchronous belt, the synchronous belt wheel a is coaxially connected with the straight gear c through a third rotating shaft, the two ends of the third rotating shaft are arranged at the upper ends of the two lower side plates, the two lower side plates are symmetrically arranged left and right, the lower ends of the two connecting rods of the inner group of connecting rod mechanisms are respectively rotatably connected with the two ends of the third rotating shaft, the synchronous belt wheel b is arranged on a fourth rotating shaft, the fourth rotating shaft is positioned at the inner side of the third rotating shaft, and the two ends are respectively arranged at the upper ends of the two lower side plates, the synchronous belt wheel c is arranged on a fifth rotating shaft, and two ends of the fifth rotating shaft are respectively arranged at the lower ends of the two lower side plates; the upper ends of two connecting rods of a group of connecting rod mechanisms positioned on the outer side are respectively hinged with the two upper side plates, the lower ends of the two connecting rods of the group of connecting rod mechanisms are respectively hinged with the upper ends of the two lower side plates, meanwhile, the upper end of one connecting rod of the group of connecting rod mechanisms is connected with a steering wheel of the clamping steering engine, and the clamping steering engine is arranged on the motor bracket through a steering engine bracket;

after food materials enter the food feeding port, the two groups of link mechanisms are driven by the clamping steering engines to realize clamping, and the synchronous belt transmission mechanisms are driven by the feeding motors to drive the synchronous belt transmission mechanisms to move, so that the food materials are driven to feed downwards.

The slicing device comprises a blocking cover, a cutting blade, a blade coupler, a slicing direct current motor and a lower ring cover, wherein the blocking cover is arranged around the first discharging opening and fixed on the top surface of a middle layer plate of the main support frame through bolts; cutting blade cuts into slices the edible material through section DC motor's drive turnover, and the section falls down from first feed opening, lower ring cover in proper order.

Furthermore, the shredding and dicing mechanism comprises a flat-bottom electric push rod, a knife clamping frame and a shredding and dicing blade, the shredding and dicing blade is arranged on the flat-bottom electric push rod through the knife clamping frame, the flat-bottom electric push rod is arranged on a middle layer plate of the main support frame, and the shredding and dicing blade is positioned on the left side of the baffle;

the conveying mechanism comprises a stepping motor, a left synchronous pulley, a right synchronous pulley, a stepping motor support and a synchronous belt, wherein the stepping motor is installed on the lower layer plate through the stepping motor support; the synchronous belt is driven to move by the stepping motor, so that the platform is driven to move left and right.

The utility model has the following beneficial effects: the food material processing machine has the advantages of safety, high efficiency and convenience in operation on the basis of meeting the requirements of the existing food material processing machine in the related field; the machine is different from a vegetable cutting mode in the market, and adopts a synchronous belt clamping jaw mechanism to replace a traditional manual downward-pressing vegetable cutter and a large-sized conveyor belt type horizontal vegetable cutter, so that the labor intensity of a user is reduced, the miniaturization of the machine is maintained, and the machine can be better adapted to a smaller kitchen at present; the platform and the two blades form a set of system, so that the functions of shredding and slicing can be realized, and multiple functions are integrated into a whole, so that the device is convenient and efficient; the modularized design is convenient for disassembly and assembly, and the feed inlet, the blade and the platform are convenient for disassembly and cleaning; and the machine is based on a general design concept and a man-machine interaction technology, user experience and use requirements are fully considered, and more intelligent and automatic service can be provided for users.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a schematic structural view of the food material feeding apparatus.

Fig. 3 is a schematic structural view of the feed jaw unit.

Fig. 4 is a schematic structural view of the slicing apparatus.

FIG. 5 is a schematic view of the shredding and dicing apparatus.

Detailed Description

The utility model is further described below with reference to the accompanying drawings.

Referring to fig. 1 to 5, an intelligent multifunctional food material processor comprises a main support frame, a food material feeding device, a photoelectric sensor, a slicing device, a shredding and dicing device, an operation panel and a controller, wherein the food material feeding device, the photoelectric sensor, the slicing device, the shredding and dicing device, the operation panel and the controller are mounted on the main support frame, the photoelectric sensor and the operation panel are connected with the controller, and the controller is respectively connected with the food material feeding device, the slicing device and the shredding and dicing device;

the main support frame comprises an upper plate, a middle plate and a lower plate, a first feed opening is formed in the middle plate, a second feed opening is formed in the right part of the lower plate, the food material feeding device comprises a feed opening 1 and a synchronous belt clamping jaw mechanism, the feed opening 1 is installed on the upper plate, the first feed opening is opposite to the feed opening 1 from top to bottom, the synchronous belt clamping jaw mechanism is located above the first feed opening and installed on the upper plate, the photoelectric sensor is installed at the lower end of the feed opening 1, and the slicing device is close to the first feed opening and installed on the middle plate;

the shredding and dicing device comprises a shredding and dicing mechanism, a platform 33 for receiving slices, a conveying mechanism and a baffle 40 for dropping food materials from the platform 33, the platform is rotatably arranged on a platform base 34 and is connected with a rotary steering engine 42, the platform base 34 is arranged on the conveying mechanism, the shredding and dicing mechanism is positioned above the conveying mechanism and is arranged on a middle layer plate, and the baffle 40 is positioned above the second feed opening and is arranged on the middle layer plate;

the mode is selected through the control panel, if the slicing mode is selected, food materials are fed from the feeding hole 1, clamped through the synchronous belt clamping jaw mechanism and fed downwards, then cut into slices through the slicing device, fall onto the platform 33 from the first discharging hole, are conveyed to the upper side of the second discharging hole through the conveying mechanism, and fall into the plate from the second discharging hole through the baffle plate 40; if the shredding mode is selected, after slicing is finished, the conveying mechanism conveys the platform to the position below the shredding and dicing mechanism to shred; if the dicing mode is selected, after the shredding is finished, the conveying mechanism drives the platform 33 to retreat, the platform 33 is rotated by 90 degrees through the rotary steering engine, dicing is carried out through the shredding and dicing mechanism, and finally food materials fall into the tray from the second feed opening through the baffle 40.

Further, hold-in range gripper mechanism includes three feeding gripper unit, and three feeding gripper unit equipartition is in 1 a week of feed inlet, and every feeding gripper unit all includes the feed motor, feeds drive mechanism, hold-in range drive mechanism, centre gripping steering wheel and two sets of link mechanism, the feed motor passes through motor support mounting between two blocks of top side boards 4, and two blocks of top side boards 4 are connected with the top plate of main tributary strut through the connecting piece respectively, it includes conical gear a6, conical gear b7, straight-tooth gear a20, straight-tooth gear b8 and straight-tooth gear c21 to feed drive mechanism, conical gear a6 installs on the output shaft of feed motor, conical gear b7 is connected with straight-tooth gear a20 through first pivot coaxial coupling, and install on two blocks of top side boards 4 at the left and right sides both ends of first pivot, straight-tooth gear b8 installs in the second pivot, and install respectively in the middle part that is located inboard two connecting rods of a set of link mechanism at the left and right sides both ends of second pivot, the upper ends of the two connecting rods of the group are rotatably connected with the two ends of the first rotating shaft respectively, the conical gear a6 is meshed with the conical gear b7, the spur gear a20 is meshed with the spur gear b8, the synchronous belt transmission mechanism comprises a synchronous belt 11, a synchronous belt wheel a9, a synchronous belt wheel b23 and a synchronous belt wheel c24, the synchronous belt wheel a9, the synchronous belt wheel b23 and the synchronous belt wheel c24 form a triangle and are connected through the synchronous belt 11, the synchronous belt wheel a9 is coaxially connected with the spur gear c21 through a third rotating shaft, the two ends of the third rotating shaft are installed at the upper ends of the two lower side plates 22, the two lower side plates 22 are arranged in bilateral symmetry, the lower ends of the two connecting rods of the group of the inner connecting rod mechanism are rotatably connected with the two ends of the third rotating shaft respectively, the synchronous belt wheel b23 is installed on the fourth rotating shaft, the fourth rotating shaft is located at the inner side of the third rotating shaft, and the two ends of the two lower side plates 22 are installed at the upper ends of the two lower side plates respectively, the synchronous belt wheel c24 is arranged on a fifth rotating shaft, and two ends of the fifth rotating shaft are respectively arranged at the lower ends of the two lower side plates 22; the upper ends of two connecting rods of a group of connecting rod mechanisms positioned on the outer side are respectively hinged with the two upper side plates 4, the lower ends of the two connecting rods of the group of connecting rod mechanisms are respectively hinged with the upper ends of the two lower side plates 22, meanwhile, the upper end of one connecting rod of the group of connecting rod mechanisms is connected with a steering wheel 18 of a clamping steering engine 19, and the clamping steering engine 19 is arranged on a motor support through a steering engine support 17;

after food materials enter the feeding hole 1, the two groups of link mechanisms are driven by the clamping steering engine 19 to realize clamping, and the synchronous belt transmission mechanisms are driven by the feeding motor to drive the synchronous belt transmission mechanisms to move, so that the food materials are driven to feed downwards.

Still further, the slicing device comprises a blocking cover 25, a cutting blade 26, a blade coupling 27, a slicing direct current motor 28 and a lower ring cover 29, wherein the blocking cover 25 is arranged around the first discharging opening and fixed on the top surface of the middle layer plate of the main support frame through bolts, the slicing direct current motor 28 is installed on the middle layer plate, the blade coupling 27 is matched with the output end of the slicing direct current motor 28 through jackscrews, the cutting blade 26 is fixed on the blade coupling 27 through bolts, and the lower ring cover 29 is positioned at the first discharging opening and fixed on the bottom surface of the middle layer plate through bolts; the cutting blade 26 slices the food material by driving the slicing dc motor 28, and the slices fall from the first feed opening and the lower ring cover 29 in sequence.

Furthermore, the shredding and dicing mechanism comprises a flat-bottom electric push rod 30, a clamping knife rest 31 and a shredding and dicing blade 32, the shredding and dicing blade 32 is installed on the flat-bottom electric push rod 30 through the clamping knife rest 31, the flat-bottom electric push rod 30 is installed on a middle layer plate of the main support frame, and the shredding and dicing blade 32 is located on the left side of the baffle 40;

the conveying mechanism comprises a stepping motor 36, a left synchronous pulley 38, a right synchronous pulley 44, a stepping motor support 37 and a synchronous belt 39, wherein the stepping motor 36 is mounted on a lower plate through the stepping motor support 37, the left synchronous pulley 38 is connected with the right synchronous pulley 44 through the synchronous belt 39, the left synchronous pulley 38 is mounted on the output end of the stepping motor 36, the right synchronous pulley 44 is mounted on the lower plate through a synchronous pulley support 46, the platform base 34 is mounted on an optical axis 43 through a box-type sliding block 35, the optical axis 43 is mounted on the lower plate through an optical axis support 45, and meanwhile, the platform base 34 is connected with the synchronous belt 39 through a synchronous belt pressing plate 41; the stepping motor 36 drives the synchronous belt 39 to move, so that the platform 33 is driven to move left and right.

As shown in figure 1, the upper plate, the middle plate and the lower plate of the main support frame are connected through corner connectors and aluminum profiles, and the upper plate, the middle plate and the lower plate are all aluminum plates.

As shown in fig. 2 and 3, the feed port 1 is mounted on the main support frame through a bolt, the feed motor is a dc motor 2, the motor support frame includes a motor upper support frame 3 and a motor lower support frame 5, the two upper side plates 4 are connected through an L-shaped small connecting piece 12, the dc motor 2 is mounted on the motor upper support frame 3 and the motor lower support frame 5, the motor upper support frame 3 and the motor lower support frame 5 are fixed with the two upper side plates 4 through the L-shaped small connecting piece 12, the two upper side plates 4 are connected with an L-shaped large connecting piece 13 through a supporting block a14, and the L-shaped large connecting piece 13 is mounted on an upper plate 15 of the main support frame through a supporting block b 15; the two groups of link mechanisms comprise four connecting rods 10 which are arranged in a group of two-by-two and in bilateral symmetry.

Conical gear a6 installs on direct current motor 2's output shaft, conical gear b7 is fixed in same axial direction through the stopper bolt cooperation with straight-teeth gear a20, the stopper bolt is fixed in first pivot through flange bearing again, straight-teeth gear b8 is fixed in the second pivot through the stopper bolt, steering wheel support 17 passes through supporting shoe c16 and fixes the bottom at motor lower carriage 5, centre gripping steering wheel 19 passes through the bolt fastening on steering wheel support 17, and a connecting rod 10 in the outside passes through steering wheel 18 and centre gripping steering wheel 19 and connects, the upper and lower both ends of connecting rod are connected with upper side plate 4 and lower side plate 22 through stopper bolt and flange bearing respectively, straight-teeth gear c21 and synchronous pulley a9 are fixed on same axle through stopper bolt and flange bearing cooperation. The timing belt 11 is fitted with a timing pulley a9, a timing pulley b23 and a timing pulley c 24. Centre gripping steering wheel 19 drive link mechanism drives the downside plate part and inwards presss from both sides tightly to eat the material, and direct current motor 2 rethread bevel gear and straight-tooth gear will do all can transmit power to synchronous pulley for the hold-in range drives to eat the material and feeds downwards.

As shown in fig. 4, the cutting blades 26 slice the food material by turning around, and the shield ensures that all the cut pieces fall into the lower ring shield.

As shown in fig. 5, the flat-bottom electric push rod 30 is mounted on the middle plate of the main support frame by bolts, the knife clamping piece 31 is fixed on the lower end of the flat-bottom electric push rod 30 by bolts, the shredding and dicing blade 32 is fixed on the knife clamping frame 31 by bolts, the baffle 40 is fixed on the bottom surface of the middle plate by bolts, the stepping motor bracket 37 is fixed on the lower plate of the main support frame by bolts, the stepping motor 36 is mounted on the stepping motor bracket 37, the left synchronous pulley 38 is mounted on the output end of the stepping motor 36, the right synchronous pulley 44 is mounted on the synchronous pulley bracket 46 by a tuck bolt and a lock nut, the synchronous belt 39 is matched with the left synchronous pulley 38 and the right synchronous pulley 44, the optical axis bracket 45 is fixed on the lower plate of the main support frame by an optical axis bracket support 47, the optical axis 43 is mounted on the optical axis bracket 45, the van-type slide block 35 is matched with the optical axis 43, the platform base 34 is matched with the van-type slide block 35 through a bolt, the synchronous belt 39 is fixed on the platform base 34 through a synchronous belt pressing plate 41, the rotary steering gear 42 is installed at the bottom of the platform base 34, and the rotary steering gear 42 is matched with the platform 33 through a steering wheel. After the food materials are cut into slices by the slicing device, the food materials fall onto the platform, the stepping motor drives the synchronous belt to enable the platform 33 to move, the slicing function is achieved through matching with the flat-bottom electric push rod 30, and if the dicing function is to be achieved, the food materials are cut into the slices, the platform 33 rotates by 90 degrees and returns to match with the flat-bottom electric push rod 30 to achieve the dicing function.

The specific application method of the utility model is as follows:

firstly, selecting a mode on a control panel, and configuring relevant parameters. The food material to be processed is placed through the feeding hole 1, the photoelectric sensor is triggered when the food material descends to a specified position, and the synchronous belt clamping jaw mechanism immediately starts to move to grasp the food material. After the food material is gripped, the direct current motor 2 on the food material feeding device starts to work, and the synchronous belt transmission mechanism is driven to move through gear output, so that the food material is conveyed downwards. After the food material has moved to the set position, the cutting blade 26 is operated to slice the food material and drop it onto the platform 33 below. If the slicing mode is selected, then the stepping motor 36 starts to work, the platform 33 crosses the position of the baffle 40 by pulling the platform through the synchronous belt 39, the food material falls into a tray below after being blocked by the baffle 40, and the slicing operation is completed at one time. The machine repeats the working process until the whole food material is processed; in the shredding mode, the stepping motor 36 is then operated, the platform 33 is pulled by the timing belt 39, the flat-bottom electric push rod 30 starts to reciprocate after the platform 33 moves below the shredding and dicing blade 32, and the sheet-shaped food materials are shredded by the shredding and dicing blade 32. Subsequently, the platform 33 continues to move beyond the position of the baffle 40, and the food material falls into the lower tray after being blocked by the baffle 40, so that the shredding work is completed. The machine repeats the working process until the whole food material is processed. If the food is in the dicing mode, then the stepping motor 36 starts to work, the platform 33 is pulled through the synchronous belt 39, after the platform 33 moves to the position below the shredding and dicing blade 32, the flat-bottom electric push rod 30 starts to reciprocate, and the sheet-shaped food is shredded through the shredding and dicing blade 32. After the food materials are cut into shreds, the platform 33 moves back to the position where the shredding starts, meanwhile, the rotary steering engine 42 below the platform 33 starts to work, the platform 33 rotates for 90 degrees, then the shredding work is repeated, and therefore the shredded food materials are cut into shreds. Subsequently, the platform 33 continues to move beyond the position of the baffle 40, and the food material falls into the lower tray after being stopped by the baffle 40, so that one dicing operation is completed. The machine repeats the working process until the whole food material is processed.

The above description is only a preferred embodiment of the present invention, and does not limit the scope of the present invention, and the structures described in the present specification and the accompanying drawings can be directly or indirectly applied to other related technical fields, and shall be included in the scope of the present invention.

Claims (4)

1. The utility model provides a multi-functional edible material processor of intelligence which characterized in that: the food cutting and dicing device comprises a main support frame, a food material feeding device, a photoelectric sensor, a slicing device, a food cutting and dicing device, an operation panel and a controller, wherein the food material feeding device, the photoelectric sensor, the slicing device, the food cutting and dicing device, the photoelectric sensor, the operation panel and the controller are arranged on the main support frame, the photoelectric sensor and the operation panel are connected with the controller, and the controller is respectively connected with the food material feeding device, the slicing device and the food cutting and dicing device;

the main support frame comprises an upper plate, a middle plate and a lower plate, a first feed opening is formed in the middle plate, a second feed opening is formed in the right part of the lower plate, the food material feeding device comprises a feed opening and a synchronous belt clamping jaw mechanism, the feed opening is arranged on the upper plate, the first feed opening is opposite to the feed opening in a vertical direction, the synchronous belt clamping jaw mechanism is located above the first feed opening and arranged on the upper plate, the photoelectric sensor is arranged at the lower end of the feed opening, and the slicing device is close to the first feed opening and arranged on the middle plate;

the shredding and dicing device comprises a shredding and dicing mechanism, a platform for receiving slices, a conveying mechanism and a baffle for dropping food materials from the platform, the platform is rotatably arranged on a platform base and is connected with a rotary steering engine, the platform base is arranged on the conveying mechanism, the shredding and dicing mechanism is positioned above the conveying mechanism and is arranged on a middle layer plate, and the baffle is positioned above the second feed opening and is arranged on the middle layer plate;

the mode is selected through the control panel, if the slicing mode is selected, food materials are fed from the feeding hole, clamped through the synchronous belt clamping jaw mechanism and fed downwards, then cut into slices through the slicing device, fall onto the platform from the first feeding hole, are conveyed to the position above the second feeding hole through the conveying mechanism, and fall into the plate from the second feeding hole through the baffle plate; if the shredding mode is selected, after slicing is finished, the conveying mechanism conveys the platform to the position below the shredding and dicing mechanism to shred; if the dicing mode is selected, after the shredding is finished, the conveying mechanism drives the platform to retreat, the platform is rotated by 90 degrees through the rotary steering engine, dicing is carried out through the shredding and dicing mechanism, and finally food materials fall into the tray from the second feed opening through the baffle.

2. The intelligent multifunctional food material processor as claimed in claim 1, wherein: the synchronous belt clamping jaw mechanism comprises three feeding clamping jaw units, the three feeding clamping jaw units are uniformly distributed at the feed inlet in a circle, each feeding clamping jaw unit comprises a feeding motor, a feeding transmission mechanism, a synchronous belt transmission mechanism, a clamping steering engine and two groups of link mechanisms, the feeding motor is arranged between two upper side plates through a motor support, the two upper side plates are respectively connected with an upper plate of a main support frame through connecting pieces, the feeding transmission mechanism comprises a conical gear a, a conical gear b, a straight gear a, a straight gear b and a straight gear c, the conical gear a is arranged on an output shaft of the feeding motor, the conical gear b is coaxially connected with the straight gear a through a first rotating shaft, the left end and the right end of the first rotating shaft are arranged on the two upper side plates, the straight gear b is arranged on a second rotating shaft, the left end and the right end of the second rotating shaft are respectively arranged at the middle parts of two connecting rods of a group of link mechanisms positioned on the inner side, the upper ends of the two connecting rods of the group are respectively rotatably connected with the two ends of the first rotating shaft, the conical gear a is meshed with the conical gear b, the straight gear a is meshed with the straight gear b, the synchronous belt transmission mechanism comprises a synchronous belt, a synchronous belt wheel a, a synchronous belt wheel b and a synchronous belt wheel c, the synchronous belt wheel a, the synchronous belt wheel b and the synchronous belt wheel c form a triangle and are connected through the synchronous belt, the synchronous belt wheel a is coaxially connected with the straight gear c through a third rotating shaft, the two ends of the third rotating shaft are arranged at the upper ends of the two lower side plates, the two lower side plates are symmetrically arranged left and right, the lower ends of the two connecting rods of the inner group of connecting rod mechanisms are respectively rotatably connected with the two ends of the third rotating shaft, the synchronous belt wheel b is arranged on a fourth rotating shaft, the fourth rotating shaft is positioned at the inner side of the third rotating shaft, and the two ends are respectively arranged at the upper ends of the two lower side plates, the synchronous belt wheel c is arranged on a fifth rotating shaft, and two ends of the fifth rotating shaft are respectively arranged at the lower ends of the two lower side plates; the upper ends of two connecting rods of a group of connecting rod mechanisms positioned on the outer side are respectively hinged with the two upper side plates, the lower ends of the two connecting rods of the group of connecting rod mechanisms are respectively hinged with the upper ends of the two lower side plates, meanwhile, the upper end of one connecting rod of the group of connecting rod mechanisms is connected with a steering wheel of the clamping steering engine, and the clamping steering engine is arranged on the motor bracket through a steering engine bracket;

after food materials enter the food feeding port, the two groups of link mechanisms are driven by the clamping steering engines to realize clamping, and the synchronous belt transmission mechanisms are driven by the feeding motors to drive the synchronous belt transmission mechanisms to move, so that the food materials are driven to feed downwards.

3. The intelligent multifunctional food material processing machine as claimed in claim 1 or 2, wherein: the slicing device comprises a blocking cover, a cutting blade, a blade coupler, a slicing direct current motor and a lower ring cover, wherein the blocking cover is arranged around a first discharging opening and fixed on the top surface of a middle layer plate of a main support frame through bolts; cutting blade cuts into slices the edible material through section DC motor's drive turnover, and the section falls down from first feed opening, lower ring cover in proper order.

4. The intelligent multifunctional food material processor as claimed in claim 3, wherein: the shredding and dicing mechanism comprises a flat-bottom electric push rod, a knife clamping frame and a shredding and dicing blade, the shredding and dicing blade is arranged on the flat-bottom electric push rod through the knife clamping frame, the flat-bottom electric push rod is arranged on a middle layer plate of the main support frame, and the shredding and dicing blade is positioned on the left side of the baffle;

the conveying mechanism comprises a stepping motor, a left synchronous pulley, a right synchronous pulley, a stepping motor support and a synchronous belt, wherein the stepping motor is installed on the lower layer plate through the stepping motor support; the synchronous belt is driven to move by the stepping motor, so that the platform is driven to move left and right.

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