CN112825892A - Automatic change food meat ball former in batches - Google Patents

Abstract

For solving above-mentioned technical problem, an automatic change food burger batch former, including the install bin, loading attachment, forming device, receiving device, install other device through the install bin, loading attachment accomplishes the antiseized processing of drenching oil to the shaping charging tray, the material loading of minced meat and spacing to forming mechanism, forming device carries out shaping and unloading to the burger, receiving device accepts the ball after the shaping and antiseized edible oil of usefulness in order to guarantee safety and sanitation, realize the burger automatic molding's in batches function, its characterized in that: the feeding device is fixedly installed on the installation box, the forming device is fixedly installed on the installation box, and the receiving device is fixedly installed on the installation box.

Description

Automatic change food meat ball former in batches

Technical Field

The invention relates to food mechanical equipment, in particular to automatic food meatball batch forming equipment.

Background

With the progress of the development era of science and technology, more and more high-end equipment is introduced into our lives and works, in the food industry, a meat ball forming machine generally extrudes meat paste through a single station and extrudes meat balls according to the action of extruding the meat balls, so that the formed meat balls have poorer toughness compared with the manually made meat balls, and the production efficiency is not high due to the operation of a single station, so that the automatic food meat ball batch forming equipment is invented for improving the flavor and the production efficiency of machine-made meat balls.

Disclosure of Invention

The invention relates to food mechanical equipment, in particular to automatic food meatball batch forming equipment, wherein other devices are arranged through an installation box, a feeding device finishes oil spraying and anti-sticking treatment on a forming tray, feeds muddy flesh and limits a forming mechanism, the forming device forms and discharges meatballs, and a receiving device receives the formed meatballs and edible oil for sticking prevention to ensure safety and sanitation and realize the function of automatic batch forming of the meatballs.

For solving above-mentioned technical problem, an automatic change food burger is former in batches, including the install bin, loading attachment, forming device, receiving device, install other device through the install bin, loading attachment accomplishes the antiseized processing of drenching oil to the shaping charging tray, the material loading of muddy flesh and spacing to forming mechanism, forming device carries out shaping and unloading to the burger, receiving device accepts the ball after the shaping and antiseized edible oil of usefulness in order to guarantee safety and sanitation, realize the burger is automatic fashioned function in batches, its characterized in that: the feeding device is fixedly installed on the installation box, the forming device is fixedly installed on the installation box, and the receiving device is fixedly installed on the installation box.

As a further optimization of the technical scheme, the mounting box of the automatic food meatball batch forming equipment comprises a main box body, a lower end sliding plate and a forming block, wherein the lower end sliding plate is fixedly mounted on the main box body, and the forming block is fixedly mounted on the main box body.

As a further optimization of the technical scheme, the feeding device of the automatic food meatball batch forming equipment comprises a feeding mounting plate, a feeding motor, a first screw spline shaft, a first sliding gear, a first spline shaft, a second spline shaft, a feeding slide rail, a feeding slide block, a second sliding gear, a first electromagnetic block, a first shifting fork, a second electromagnetic block, a first bevel gear shaft, a second bevel gear shaft, a first transmission shaft, a third bevel gear shaft, a second transmission shaft, a third transmission shaft, a scraper mounting plate, a scraper mounting block, a limiting plate, a fourth bevel gear shaft, a spiral bevel gear shaft, a storage box mounting ring, a storage box cover, a feeding adjusting hand wheel, a first feeding port adjusting rack, a second feeding port adjusting rack, a scraper screw nut, a scraper mounting bar, a scraper, an oil spraying mounting bar, an oil spraying pipe, a spiral blade, a first feeding port, a second feeding block and a feeding port block, the feeding mounting plate is slidably mounted inside the main box body through a slide rail slider, the feeding motor is fixedly mounted on the feeding mounting plate, the first screw spline shaft is rotatably mounted on the feeding mounting plate through a bearing, the first sliding gear is slidably mounted on the first screw spline shaft, the first spline shaft is rotatably mounted on the feeding mounting plate through a bearing, the second spline shaft is rotatably mounted on the feeding mounting plate through a bearing, the feeding slide rail is fixedly mounted inside the main box body, the feeding slider is slidably mounted on the feeding slide rail, the feeding slider is fixedly mounted on the feeding mounting plate, the second sliding gear is slidably mounted on the second spline shaft, the first electromagnetic block is fixedly mounted on the feeding mounting plate, the first shifting fork is slidably mounted on the feeding mounting plate through a slide rail slider, the second electromagnetic block is fixedly mounted on the feeding mounting plate, the first conical gear shaft is rotatably mounted on the feeding mounting plate through a bearing, and the second conical gear shaft is rotatably mounted, a bevel gear shaft II is meshed with the bevel gear shaft I, a transmission shaft I is rotatably installed on an feeding installation plate through a bearing, a bevel gear shaft III is rotatably installed on the feeding installation plate through a bearing, a transmission shaft II is rotatably installed on the feeding installation plate through a bearing, a transmission shaft III is rotatably installed on the feeding installation plate through a bearing, a scraper installation plate is installed and fixed on the feeding installation plate, a scraper installation block is slidably installed on the scraper installation plate through a slide rail slider, a limiting plate installation plate is slid on the feeding installation plate through a slide rail slider, a limiting plate is installed and fixed on the limiting plate installation plate, a bevel gear shaft IV is rotatably installed on a main box body through a bearing, a spiral bevel gear shaft is meshed with the bevel gear shaft IV, the spiral bevel gear shaft is rotatably installed on a storage box through a bearing, the storage box is installed and fixed on a storage box installation ring, the storage box installation ring is installed, the material loading adjusting hand wheel is installed on the storage box through bearing rotation, a material loading port adjusting rack is slidably installed on the storage box, a scraper screw nut is installed and fixed on a scraper installation block, the scraper installation bar is installed and fixed on the scraper installation block, a scraper is installed and fixed on the scraper installation bar, an oil spraying installation bar is installed and fixed on a material loading installation plate, an oil spraying pipe is installed and fixed on the oil spraying installation bar, a spiral blade is installed and fixed on a spiral conical tooth shaft, a material loading port stop block is installed and fixed on a material loading port adjusting rack I, a material loading port stop block is installed and fixed on a material loading port adjusting rack II, and a material loading port is cut off and arranged on the.

As a further optimization of the technical scheme, the forming device of the automatic food meatball batch forming equipment comprises a forming motor, a distribution spline shaft, a transmission shaft IV, a bevel gear shaft IV, a shifting fork II, a shifting fork sliding block set, a follow-up sliding rail sliding block, a bevel gear shaft IV, a spline shaft III, a screw shaft I, a sliding gear III, a gear ring installation cover, an installation cover fixing ring, a shaft plate connecting block, a forming plate, a spline housing, a shifting screw nut, a locking nut, a sliding shaft, a sliding sleeve shaft, an eccentric installation block, an eccentric shaft, a self-rotating gear ring, a transmission shaft IV, a cam, a shifting fork IV, a sliding gear IV, a counter gear shaft, a transmission shaft IV, an incomplete duplex gear, a blanking screw rod, blanking spline shaft, a blanking sliding rail, a blanking driven spline shaft and a blanking shifting block, wherein the forming motor, the distribution spline shaft is rotationally installed on the main box body through a bearing, the transmission shaft IV is rotationally installed on the main box body through a bearing, the transmission shaft V is rotationally installed on the main box body through a bearing, the bevel gear shaft V is rotationally installed on the main box body through a bearing, the shifting fork II is slidably installed inside the main box body through a slide rail slide block, the shifting fork slide block set is installed and fixed on the main box body, the follow-up slide rail slide block is installed and fixed on a lower end slide plate, the bevel gear shaft VI is rotationally installed on the main box body through a bearing, the spline shaft III is rotationally installed on the main box body through a bearing, the screw shaft I is rotationally installed on the main box body through a bearing, the slide gear III is slidably installed on the spline shaft III, the gear is installed and fixed on the slide shaft, the gear ring installation cover is installed and fixed on the screw shaft I through, a mounting cover fixing ring is slidably mounted on a lower end sliding plate, a shaft plate connecting block is fixedly mounted on an eccentric shaft, a forming plate is fixedly mounted on a shaft plate connecting block, the forming plate is slidably mounted on a forming block, a spline sleeve is fixedly mounted on the forming plate, a poking screw nut is threadedly mounted on a screw shaft I, a locking nut is threadedly mounted on the screw shaft I, a sliding shaft is slidably and rotatably mounted on a main box body through a linear bearing, the sliding sleeve shaft is slidably mounted on the sliding shaft, an eccentric mounting block is fixedly mounted on the sliding sleeve shaft, the eccentric shaft is rotatably mounted on the eccentric mounting block through a bearing, an autorotation gear is fixedly mounted on the eccentric shaft, an autorotation gear ring is fixedly mounted on a gear ring mounting cover, the autorotation gear ring is meshed with the autorotation gear, a transmission shaft six is rotatably mounted on the main box body through a bearing, four roll installations of shift fork are on the cam, four sliding gear slidable mounting are on integral key shaft four, the counter gear shaft passes through the bearing and rotates and install on the main tank body, transmission shaft seven passes through the bearing and rotates and install on the main tank body, incomplete double gear installation is fixed on transmission shaft seven, the unloading lead screw passes through the bearing and rotates and install on the main tank body, the unloading integral key shaft passes through lead screw nut and shifting block screw thread and installs on the unloading lead screw, the installation of unloading slide rail is fixed at the lower extreme slide plate, the unloading passive spline shaft passes through lead screw nut and shifting block screw thread and installs on the unloading lead screw, the unloading shifting block passes through lead screw.

As a further optimization of the technical scheme, the material receiving device of the automatic food meatball batch forming equipment comprises a bevel gear shaft seven, a bevel gear shaft eight, a shifting gear, a shifting rack, a shifting slide rail slider, a shifting fixing plate, a material receiving box, an oil receiving box and a material blocking plate, wherein the bevel gear shaft seven is rotatably arranged on a main box body through a bearing, the bevel gear shaft eight is rotatably arranged on the main box body through the bearing, the shifting gear is fixedly arranged on the bevel gear shaft eight, the shifting rack is meshed with the shifting gear, the shifting slide rail slider is fixedly arranged on the main box body, the shifting fixing plate is fixedly arranged on the shifting rack, the shifting fixing plate is fixedly arranged on the shifting slide rail slider, the shifting fixing plate is slidably arranged on the main box body through the slide rail slider, the material receiving box is fixedly arranged on the shifting fixing plate, the oil receiving box is fixedly arranged on the material receiving box, the oil receiving, the striker plate is fixedly arranged on the material receiving box, and the striker plate is fixedly arranged on the oil receiving box.

As a further optimization of the technical scheme, the automatic food meatball batch forming equipment provided by the invention has two feeding slide rails and two feeding slide blocks of the feeding device, and twenty limiting plates have two.

As a further optimization of the technical scheme, the automatic food meatball batch forming equipment provided by the invention has two spline sleeves and two blanking shifting blocks. .

As a further optimization of the technical scheme, the automatic food meatball batch forming equipment has two material receiving devices.

The automatic food meatball batch forming equipment has the beneficial effects that:

the invention relates to food mechanical equipment, in particular to automatic food meatball batch forming equipment, which realizes the installation of other devices through an installation box, wherein the feeding device finishes oil spraying and anti-sticking treatment on a forming tray, feeding of muddy flesh and limiting of a forming mechanism, the forming device forms and discharges meatballs, and the receiving device receives the formed meatballs and edible oil for sticking prevention to ensure safety and sanitation and realize the function of automatic batch forming of the meatballs.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic view of the overall structure of the present invention.

Fig. 3 is a third schematic view of the overall structure of the present invention.

Fig. 4 is a schematic structural diagram of the installation box of the invention.

Fig. 5 is a first structural schematic diagram of the feeding device of the present invention.

Fig. 6 is a schematic structural diagram of a feeding device of the present invention.

Fig. 7 is a third schematic structural diagram of the feeding device of the present invention.

Fig. 8 is a fourth schematic structural view of the feeding device of the present invention.

FIG. 9 is a first schematic structural diagram of a molding apparatus of the present invention.

FIG. 10 is a second schematic structural diagram of a molding apparatus of the present invention.

FIG. 11 is a third schematic structural view of a molding apparatus of the present invention.

Fig. 12 is a first schematic structural diagram of the receiving device of the present invention.

Fig. 13 is a second schematic structural view of the receiving device of the present invention.

In the figure: an installation box 1; a main box body 1-1; a lower end sliding plate 1-2; 1-3 of a forming block; a feeding device 2; a feeding mounting plate 2-1; a feeding motor 2-2; 2-3 of a first screw spline shaft; 2-4 parts of a first sliding gear; 2-5 of a spline shaft I; 2-6 of a spline shaft II; 2-7 of a feeding slide rail; 2-8 of a feeding slide block; 2-9 parts of a second sliding gear; 2-10 parts of an electromagnetic block I; 2-11 of a shifting fork I; 2-12 parts of an electromagnetic block II; 2-13 of a bevel gear shaft; 2-14 parts of a bevel gear shaft II; a first transmission shaft 2-15; 2-16 parts of a bevel gear shaft; a second transmission shaft 2-17; a third transmission shaft 2-18; 2-19 of a scraper mounting plate; 2-20 parts of scraper mounting blocks; 2-21 parts of a limiting plate mounting plate; 2-22 parts of a limiting plate; 2-23 parts of a bevel gear shaft; 2-24 parts of a spiral bevel gear shaft; a material storage box 2-25; a storage box mounting ring 2-26; a storage box cover 2-27; 2-28 parts of a feeding adjusting hand wheel; a first feeding port adjusting rack 2-29; a second feeding port adjusting rack 2-30; scraper screw nuts 2-31; 2-32 parts of scraper mounting bar; 2-33 of a scraper; 2-34 parts of oil spraying mounting bar; 2-35 of oil spraying pipe; 2-36 of helical blades; a feeding port stop block I2-37; a feeding port baffle block II 2-38, wherein the feeding port is isolated by 2-39; a molding device 3; a molding motor 3-1; distributing spline shafts 3-2; a fourth transmission shaft 3-3; a fifth transmission shaft 3-4; 3-5 parts of a bevel gear shaft; 3-6 of a second shifting fork; 3-7 parts of shifting fork sliding block group; 3-8 of a follow-up slide rail slide block; a cone gear shaft six 3-9; spline shaft III 3-10; 3-11 parts of a screw shaft I; 3-12 parts of a third sliding gear; 3-13 parts of gear; a ring gear mounting cover 3-14; mounting a cover fixing ring 3-15; 3-16 parts of a shaft plate connecting block; forming plates 3-17; 3-18 parts of spline housing; 3-19 of a screw nut is pulled; 3-20 parts of a locking nut; 3-21 of a slip shaft; 3-22 of a sliding sleeve shaft; eccentric mounting blocks 3-23; 3-24 parts of an eccentric shaft; 3-25 of a self-rotating gear; rotation gear rings 3-26; six transmission shafts 3-27; spline shaft four 3-28; 3-29 of the cam; a fourth shifting fork 3-30; a fourth sliding gear 3-31; counter gear shafts 3-32; a transmission shaft seven 3-33; incomplete double gears 3-34; 3-35 parts of a blanking screw; blanking spline shafts 3-36; 3-37 parts of a blanking slide rail; 3-38 of a blanking driven spline shaft; 3-39 parts of blanking shifting blocks; a material receiving device 4; a bevel gear shaft seven 4-1; eight 4-2 of a bevel gear shaft; a shift gear 4-3; a shifting rack 4-4; 4-5 of a shifting slide rail slide block; a shifting fixing plate 4-6; 4-7 of a material receiving box; 4-8 parts of an oil receiving box; and 4-9 parts of a material baffle plate.

Detailed Description

The first embodiment is as follows:

the following combines fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13 for solving above-mentioned technical problem, an automatic change food burger batch former, including install bin 1, loading attachment 2, forming device 3, receiving device 4, install other device through install bin 1, loading attachment 2 accomplishes to drenching oily antiseized processing of shaping charging tray, the material loading of mashed meat and spacing to forming mechanism, forming device 3 carries out shaping and unloading to the burger, receiving device 4 accepts the ball after the shaping and the edible oil of antiseized usefulness in order to guarantee safety and sanitation, realize the burger batch automatic molding's function, its characterized in that: the feeding device 2 is fixedly arranged on the installation box 1, the forming device 3 is fixedly arranged on the installation box 1, and the receiving device 4 is fixedly arranged on the installation box 1.

The second embodiment is as follows:

the following describes the present embodiment with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, and 13, and the present embodiment further describes the present embodiment, in which the installation box 1 includes a main box body 1-1, a lower end sliding plate 1-2, and a forming block 1-3, the lower end sliding plate 1-2 is installed and fixed on the main box body 1-1, and the forming block 1-3 is installed and fixed on the main box body 1-1.

The third concrete implementation mode:

the first embodiment is further described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, and 13. the first embodiment is further described, where the feeding device 2 includes a feeding mounting plate 2-1, a feeding motor 2-2, a screw spline shaft I2-3, a sliding gear I2-4, a spline shaft I2-5, a spline shaft II 2-6, a feeding slide rail 2-7, a feeding slide block 2-8, a sliding gear II 2-9, an electromagnetic block I2-10, a shift fork I2-11, an electromagnetic block II 2-12, a bevel gear shaft I2-13, a bevel gear shaft II 2-14, a transmission shaft I2-15, a bevel gear shaft III 2-16, a transmission shaft II 2-17, a transmission shaft III 2-18, a scraper mounting plate 2-19, 2-20 parts of scraper mounting block, 2-21 parts of limiting plate mounting plate, 2-22 parts of limiting plate, 2-23 parts of bevel gear shaft, 2-24 parts of spiral bevel gear shaft, 2-25 parts of storage box, 2-26 parts of storage box mounting ring, 2-27 parts of storage box cover, 2-28 parts of feeding adjusting hand wheel, 2-29 parts of feeding port adjusting rack, 2-30 parts of feeding port adjusting rack, 2-31 parts of scraper screw nut, 2-32 parts of scraper mounting bar, 2-33 parts of scraper, 2-34 parts of oil spraying mounting bar, 2-35 parts of oil spraying pipe, 2-36 parts of spiral blade, 2-37 parts of feeding port stopper, 2-38 parts of feeding port stopper and 2-39 parts of feeding port partition, placing the minced meat in the storage box 2-25 through the storage box cover 2-27, starting the machine, at the moment, the feeding motor 2-2 is firstly electrified and started, the belt pulley drives the screw rod spline shaft I2-3 to rotate, the feeding mounting plate 2-1 is driven to integrally slide towards the forming device, when the oil spraying pipe 2-35 reaches the upper part of the forming device, the oil pump can supply edible oil to enable the edible oil to be sprayed onto the molding blocks 1-3 and 3-17 through the oil spraying pipe 2-35, the molding blocks 1-3 and the molding plates 3-17 are lubricated firstly, the phenomenon that the muddy flesh is adhered to equipment in the processes of injecting and forming is prevented, the sanitary problem caused by the muddy flesh accumulated on the equipment is also avoided, then the sliding gear I2-4 stirs the useless sliding gear I2-4 through the shifting fork provided with the electromagnetic block to be meshed with the gear on the spline shaft I2-5, and the spline shaft I2-5 drives the spline shaft II 2-6 to rotate through the belt pulley, then the electromagnetic block II 2-12 is electrified, so that the shifting fork I2-11 drives the sliding gear II 2-9 to be meshed with the gear on the bevel gear shaft I2-13, the bevel gear shaft II 2-14 drives the bevel gear shaft IV 2-23 to rotate through a belt pulley, the bevel gear shaft IV 2-23 is meshed with the spiral bevel gear shaft 2-24 to drive the spiral blade 2-36 to convey the muddy flesh downwards, meanwhile, the bevel gear shaft II 2-14 drives the transmission shaft II 2-17 to rotate through the belt pulley, the forward and reverse half bevel gears on the transmission shaft II 2-17 are meshed with the transmission shaft III 2-18 to enable the transmission shaft III 2-18 to generate forward and reverse rotation, the scraper screw nut 2-31 moves relative to the transmission shaft III 2-18, the scraper 2-33 reciprocates relative to the discharge hole of the storage box 2-25 and the feed hole partition 2-39 limits the muddy flesh, the extruded muddy flesh is quantitatively output, the muddy flesh reaches a forming block 1-3 and a forming plate 3-17 after being extruded, a gear on the feeding adjusting hand wheel 2-28 drives a feeding port adjusting rack I2-29 and a feeding port adjusting rack II 2-30 to be meshed through adjusting a feeding adjusting hand wheel 2-28, so that the relative distance between a feeding port stop block I2-37 and a feeding port stop block II 2-38 is increased or reduced, the discharge amount of the muddy flesh is controlled, the size of meatballs is controlled, when the front end of a feeding mechanism crosses the forming mechanism, an electromagnetic block I2-10 is electrified to stir a sliding gear II 2-9 to be meshed with a gear on a transmission shaft I2-15, a half bevel gear on the transmission shaft I2-15 is meshed with a bevel gear shaft III 2-16 to drive a limiting plate 2-22 positioned right above the forming block 1-3 to extrude the muddy flesh, the meat balls are easier to form in the forming process, then the meat balls are lifted for a certain distance, the muddy meat is limited in the forming process, the situation that the shapes of the meat balls are uneven is reduced, then the power of the feeding motor 2-2 is cut off, the limiting plate 2-22 is lifted by electrifying the feeding motor 2-2, the first sliding gear 2-4 is disengaged from the upper gear of the spline shaft 2-5, then the feeding motor 2-2 is reversed to reset the feeding mechanism, in the process, the oil spraying pipe 2-35 sprays a certain amount of edible oil on the forming block 1-3, the forming plate 3-17 and the formed meat balls again, on one hand, the meat balls are promoted to roll off the forming plate 3-17, on the other hand, the meat balls are prevented from falling into the receiving box 4-7 containing water to be scattered, the meat balls float on the water surface as much as possible, the feeding mounting plate 2-1 is slidably mounted inside the main box body 1-1 through the slide, a feeding motor 2-2 is fixedly arranged on a feeding mounting plate 2-1, a screw rod spline shaft I2-3 is rotatably arranged on the feeding mounting plate 2-1 through a bearing, a sliding gear I2-4 is slidably arranged on the screw rod spline shaft I2-3, a spline shaft I2-5 is rotatably arranged on the feeding mounting plate 2-1 through a bearing, a spline shaft II 2-6 is rotatably arranged on the feeding mounting plate 2-1 through a bearing, a feeding slide rail 2-7 is fixedly arranged inside a main box body 1-1, a feeding slide block 2-8 is slidably arranged on the feeding slide rail 2-7, a feeding slide block 2-8 is fixedly arranged on the feeding mounting plate 2-1, a sliding gear II 2-9 is slidably arranged on the spline shaft II 2-6, an electromagnetic block I2-10 is fixedly arranged on the feeding mounting plate 2-1, a first shifting fork 2-11 is slidably arranged on a feeding mounting plate 2-1 through a sliding rail and a sliding block, a second electromagnetic block 2-12 is fixedly arranged on the feeding mounting plate 2-1, a first bevel gear shaft 2-13 is rotatably arranged on the feeding mounting plate 2-1 through a bearing, a second bevel gear shaft 2-14 is rotatably arranged on the feeding mounting plate 2-1 through a bearing, the second bevel gear shaft 2-14 is meshed with the first bevel gear shaft 2-13, a first transmission shaft 2-15 is rotatably arranged on the feeding mounting plate 2-1 through a bearing, a third bevel gear shaft 2-16 is rotatably arranged on the feeding mounting plate 2-1 through a bearing, a second transmission shaft 2-17 is rotatably arranged on the feeding mounting plate 2-1 through a bearing, a third transmission shaft 2-18 is rotatably arranged on the feeding mounting plate 2-1 through a bearing, the scraper mounting plate 2-19 is fixedly arranged on the feeding mounting plate 2-1, the scraper mounting block 2-20 is slidably arranged on the scraper mounting plate 2-19 through a sliding rail slider, the limiting plate mounting plate 2-21 is slidably arranged on the feeding mounting plate 2-1 through a sliding rail slider, the limiting plate 2-22 is fixedly arranged on the limiting plate mounting plate 2-21, the bevel gear shaft four 2-23 is rotatably arranged on the main box body 1-1 through a bearing, the spiral bevel gear shaft 2-24 is meshed with the bevel gear shaft four 2-23, the spiral bevel gear shaft 2-24 is rotatably arranged on the storage box 2-25 through a bearing, the storage box 2-25 is fixedly arranged on the storage box mounting ring 2-6, the storage box mounting ring 2-26 is fixedly arranged on the feeding mounting plate 2-1, and the storage box cover 2-27 is hinged on the storage box 2-25, a feeding adjusting hand wheel 2-28 is rotatably arranged on a storage box 2-25 through a bearing, a feeding port adjusting rack I2-29 is slidably arranged on the storage box 2-25, a feeding port adjusting rack II 2-30 is slidably arranged on the storage box 2-25, a scraper screw nut 2-31 is fixedly arranged on a scraper mounting block 2-20, a scraper mounting bar 2-32 is fixedly arranged on the scraper mounting block 2-20, a scraper 2-33 is fixedly arranged on the scraper mounting bar 2-32, an oil spraying mounting bar 2-34 is fixedly arranged on a feeding mounting plate 2-1, an oil spraying pipe 2-35 is fixedly arranged on an oil spraying mounting bar 2-34, a helical blade 2-36 is fixedly arranged on a helical bevel gear shaft 2-24, a feeding port stopper I2-37 is fixedly arranged on the feeding port adjusting rack I2-29, the feeding port stop block II 2-38 is fixedly arranged on the feeding port adjusting rack II 2-30, and the feeding port partition 2-39 is arranged on the material storage box 2-25.

The fourth concrete implementation mode:

the second embodiment is further described with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12 and 13. the second embodiment is further described, wherein the forming device 3 comprises a forming motor 3-1, a distribution spline shaft 3-2, a transmission shaft four 3-3, a transmission shaft five 3-4, a bevel gear shaft five 3-5, a shifting fork two 3-6, a shifting fork slide block group 3-7, a follow-up slide rail slide block 3-8, a bevel gear shaft six 3-9, a spline shaft three 3-10, a screw shaft one 3-11, a sliding gear three 3-12, a gear 3-13, a gear ring mounting cover 3-14, a mounting cover fixing ring 3-15, a shaft plate connecting block 3-16, a forming plate 3-17, a spline sleeve 3-18, a shifting screw nut 3-19, 3-20 parts of locking nut, 3-21 parts of sliding shaft, 3-22 parts of sliding sleeve shaft, 3-23 parts of eccentric mounting block, 3-24 parts of eccentric shaft, 3-25 parts of self-rotating gear, 3-26 parts of self-rotating gear ring, 3-27 parts of transmission shaft six, 3-28 parts of spline shaft four, 3-29 parts of cam, 3-30 parts of shifting fork four, 3-31 parts of sliding gear four, 3-32 parts of counter gear shaft, 3-33 parts of transmission shaft seven, 3-34 parts of incomplete dual gear, 3-35 parts of blanking lead screw, 3-36 parts of blanking spline shaft, 3-37 parts of blanking slide rail, 3-38 parts of blanking passive spline shaft and 3-39 parts of blanking shifting block, wherein the forming motor 3-1 is electrified and drives the distribution spline shaft 3-2 to rotate through a belt pulley, and the sliding gear on the distribution spline shaft 3-2 can be firstly meshed with the gear on the bevel A cone gear shaft six 3-9 meshed with a cone gear shaft five 3-5 drives a spline shaft three 3-10 to rotate through a belt wheel, a screw shaft one 3-11 is firstly meshed with a sliding gear three 3-12 to drive a poking screw nut 3-19 on the screw shaft one 3-11 to poke a sliding shaft 3-21 to be inserted into a sliding sleeve shaft 3-22, then a cylindrical cam on the cone gear shaft six 3-9 controls the sliding gear three 3-12 to be meshed with a gear 3-13 to drive the sliding sleeve shaft 3-22 to rotate, simultaneously a self-rotating gear 3-25 is meshed with a self-rotating gear ring 3-26 to drive an eccentric shaft 3-24 to rotate, a forming plate 3-17 can also rotate in a small range, so that the forming plate 3-17 performs eccentric rotation in two directions relative to a forming block 1-3, and muddy flesh is gathered into pills along with the continuous rotation, finishing the batch forming action of the meat balls, meshing a sliding gear on a distribution spline shaft 3-2 with a gear on a transmission shaft five 3-4 to drive 4-1 to rotate, aligning a material receiving box 4-7 with a discharge hole of a forming plate 3-17, simultaneously, under the control of a cam on a previous bevel gear shaft six 3-9, driving a screw nut 3-19 to drive a sliding shaft 3-21 to be separated from a sliding sleeve shaft 3-22, driving a sliding gear on a sliding gear three 3-12 to be meshed with a gear on a transmission shaft four 3-3 through driving, driving a transmission shaft four 3-3 to drive a transmission shaft six 3-27 to rotate through a belt wheel, rotating a spline shaft four 3-28, meshing a sliding gear four 3-31 with a single gear in a dual gear on a transmission shaft seven 3-33 to drive an incomplete dual gear 3-34 to be meshed with a gear on a blanking screw 3-35, the blanking shifting block 3-39 shifts the blanking driven spline shaft 3-38 and the blanking spline shaft 3-36 to be inserted into the spline housing 3-18, due to the tooth shape design of the incomplete duplicate gear 3-34, when the incomplete duplicate gear 3-34 is disengaged from the gear on the blanking lead screw 3-35, the incomplete gear on the other side is engaged with the gear on the blanking spline shaft 3-36, the forming plate 3-17 is turned over for an angle, namely the forming plate 3-17 and the part transmission thereon can be inclined for a certain angle, so that the meat balls slide down from the forming plate 3-17 to the material receiving box 4-7, the forming motor 3-1 is fixedly arranged inside the main box body 1-1, the distribution spline shaft 3-2 is rotatably arranged on the main box body 1-1 through a bearing, the four transmission shafts 3-3 are rotatably arranged on the main box body 1-1 through a bearing, a transmission shaft fifth 3-4 is rotatably arranged on the main box body 1-1 through a bearing, a bevel gear shaft fifth 3-5 is rotatably arranged on the main box body 1-1 through a bearing, a shifting fork second 3-6 is slidably arranged inside the main box body 1-1 through a sliding rail slider, a shifting fork slider group 3-7 is fixedly arranged on the main box body 1-1, a shifting fork slider group 3-7 is fixedly arranged on the shifting fork second 3-6, a follow-up sliding rail slider 3-8 is fixedly arranged on a lower end sliding plate 1-2, a bevel gear shaft sixth 3-9 is rotatably arranged on the main box body 1-1 through a bearing, a spline shaft third 3-10 is rotatably arranged on the main box body 1-1 through a bearing, a screw shaft first 3-11 is rotatably arranged on the main box body 1-1 through a bearing, a sliding gear third 3-12 is slidably arranged on the spline shaft third 3-, the gear 3-13 is fixedly arranged on the slippage shaft 3-21, the gear ring mounting cover 3-14 is arranged on the first screw shaft 3-11 through screw threads of a screw nut, the mounting cover fixing ring 3-15 is fixedly arranged on the gear ring mounting cover 3-14, the mounting cover fixing ring 3-15 is slidably arranged on the slippage plate 1-2 at the lower end, the shaft plate connecting block 3-16 is fixedly arranged on the eccentric shaft 3-24, the forming plate 3-17 is fixedly arranged on the shaft plate connecting block 3-16, the forming plate 3-17 is slidably arranged on the forming block 1-3, the spline sleeve 3-18 is fixedly arranged on the forming plate 3-17, the shifting screw nut 3-19 is arranged on the first screw shaft 3-11 through screw threads, the locking nut 3-20 is arranged on the first screw shaft 3-11 through screw threads, a sliding shaft 3-21 is arranged on a main box body 1-1 in a sliding and rotating way through a linear bearing, a sliding sleeve shaft 3-22 is arranged on the sliding shaft 3-21 in a sliding way, an eccentric mounting block 3-23 is fixedly arranged on the sliding sleeve shaft 3-22, an eccentric shaft 3-24 is arranged on the eccentric mounting block 3-23 in a rotating way through a bearing, an autorotation gear 3-25 is fixedly arranged on the eccentric shaft 3-24, an autorotation gear ring 3-26 is fixedly arranged on a gear ring mounting cover 3-14, the autorotation gear ring 3-26 is meshed with the autorotation gear 3-25, a transmission shaft six 3-27 is arranged on the main box body 1-1 in a rotating way through a bearing, a spline shaft four 3-28 is arranged on the main box body 1-1 in a rotating way through a bearing, a shifting fork IV 3-30 is arranged on a cam 3-29 in a rolling way, a sliding gear IV 3-31 is arranged on a spline shaft IV 3-28 in a sliding way, a counter gear shaft 3-32 is arranged on a main box body 1-1 in a rotating way through a bearing, a transmission shaft VII 3-33 is arranged on the main box body 1-1 in a rotating way through a bearing, an incomplete duplicate gear 3-34 is arranged and fixed on the transmission shaft VII 3-33, a blanking screw rod 3-35 is arranged on the main box body 1-1 in a rotating way through a bearing, a blanking spline shaft 3-36 is arranged on the blanking screw rod 3-35 through a screw nut and a shifting block thread, a blanking slide rail 3-37 is arranged and fixed on a lower end sliding plate 1-2, a blanking driven spline shaft 3-38 is arranged on the blanking, the blanking shifting blocks 3-39 are arranged on the blanking lead screws 3-35 through lead screw nuts.

The fifth concrete implementation mode:

the embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, and 13, and the embodiment further describes the first embodiment, in which the material receiving device 4 includes a bevel gear shaft seven 4-1, a bevel gear shaft eight 4-2, a shift gear 4-3, a shift rack 4-4, a shift slide block 4-5, a shift fixing plate 4-6, a material receiving box 4-7, an oil receiving box 4-8, and a material blocking plate 4-9, the bevel gear shaft seven 4-1 rotates, the shift gear 4-3 meshes with the shift rack 4-4 while the bevel gear shaft seven 4-1 meshes with the bevel gear shaft eight 4-2, so that the shift fixing plate 4-6 slides to one side, the material receiving box 4-7 aligns with a discharge port of the forming plate 3-17, the material blocking plate 4-9 blocks meat balls falling too fast, then the shifting fixing plate 4-6 is reset, the conical gear shaft seven 4-1 is rotatably arranged on the main box body 1-1 through a bearing, the conical gear shaft eight 4-2 is rotatably arranged on the main box body 1-1 through a bearing, the shifting gear 4-3 is fixedly arranged on the conical gear shaft eight 4-2, the shifting rack 4-4 is meshed with the shifting gear 4-3, the shifting slide rail slider 4-5 is fixedly arranged on the main box body 1-1, the shifting fixing plate 4-6 is fixedly arranged on the shifting rack 4-4, the shifting fixing plate 4-6 is fixedly arranged on the shifting slide rail slider 4-5, the shifting fixing plate 4-6 is arranged on the main box body 1-1 through the slide rail slider, the material receiving box 4-7 is fixedly arranged on the shifting fixing plate 4-6, the oil receiving box 4-8 is fixedly arranged on the material receiving box 4-7, the oil receiving box 4-8 is fixedly arranged on the shifting fixing plate 4-6, the material baffle plate 4-9 is fixedly arranged on the material receiving box 4-7, and the material baffle plate 4-9 is fixedly arranged on the oil receiving box 4-8.

The sixth specific implementation mode:

the third embodiment is further described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, and 13, where the number of the feeding slide rails 2 to 7 and the number of the feeding slide blocks 2 to 8 of the feeding device 2 are two, and the number of the limiting plates 2 to 22 is twenty.

The seventh embodiment:

the fourth embodiment will be further described with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, and 13, where the forming device 3 includes two spline housings 3-18 and two blanking shifting blocks 3-39.

The specific implementation mode is eight:

the present embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, and 13, and the fifth embodiment further describes that there are two slide blocks 4-5 of the material receiving device 4.

The working principle of the invention is as follows:

an automatic food meat ball batch forming device has the working principle that before use, whether the connection condition between the devices meets requirements is checked, minced meat which is well twisted and proportioned is placed in a storage box 2-25 through a storage box cover 2-27, a machine is started, at the moment, a feeding motor 2-2 is electrified and started, a screw rod spline shaft 2-3 is driven to rotate through a belt wheel, a feeding mounting plate 2-1 is driven to slide towards a forming device integrally, when an oil spraying pipe 2-35 reaches the upper part of the forming device, an oil pump can supply edible oil to enable the edible oil to be sprayed onto 1-3 and 3-17 through the oil spraying pipe 2-35, a forming block 1-3 and a forming plate 3-17 are lubricated firstly, the condition that the minced meat is adhered to the device in the processes of injecting and forming is prevented, and the sanitation problem that the minced meat is accumulated on the device is also avoided, then the first sliding gear 2-4 is shifted by a shifting fork provided with an electromagnetic block to engage with a gear on a first spline shaft 2-5, the first spline shaft 2-5 drives a second spline shaft 2-6 to rotate by a belt pulley, then the second electromagnetic block 2-12 is electrified, so that the shifting fork 2-11 shifts the second sliding gear 2-9 to be engaged with a gear on a first bevel gear shaft 2-13, the second bevel gear shaft 2-14 drives a fourth bevel gear shaft 2-23 to rotate by the belt pulley, the engagement of the fourth bevel gear shaft 2-23 and a spiral bevel gear shaft 2-24 drives a spiral blade 2-36 to convey muddy meat downwards, meanwhile, the second bevel gear shaft 2-14 drives a second transmission shaft 2-17 to rotate by the belt pulley, a positive and negative rotating half bevel gear on the second transmission shaft 2-17 is engaged with a third transmission shaft 2-18, the driving shaft III 2-18 is rotated positively and negatively, the scraper 2-33 can do reciprocating motion relative to the discharge hole of the storage box 2-25 and the feeding hole partition 2-39 limits the meat mud when the scraper lead screw nut 2-31 moves relative to the driving shaft III 2-18, the extruded meat mud is quantitatively output and reaches the forming block 1-3 and the forming plate 3-17 after being extruded, the gear on the feeding adjusting hand wheel 2-28 drives the feeding hole adjusting rack I2-29 and the feeding hole adjusting rack II 2-30 to be meshed by adjusting the feeding adjusting hand wheel 2-28, so that the relative distance between the feeding hole block I2-37 and the feeding hole block II 2-38 is increased or reduced, the discharge amount of the meat mud is controlled, the size of the meat balls is controlled, and when the front end of the feeding mechanism passes over the forming mechanism, the electromagnetic block I2-10 is electrified to shift the sliding gear II 2-9 to be meshed with the gear on the transmission shaft I2-15, the half bevel gear on the transmission shaft I2-15 is meshed with the bevel gear shaft III 2-16 to drive the limiting plate 2-22 positioned right above the forming block 1-3 to extrude muddy flesh, so that muddy flesh is easier to form in the forming process, then the semi bevel gear on the transmission shaft I2-15 is meshed with the bevel gear shaft III 2-16 to drive the limiting plate 2-22 positioned right above the forming block 1-3 to extrude the muddy flesh in a certain distance to limit the muddy flesh in the forming process, the uneven shape of the muddy flesh is reduced, then the feeding motor 2-2 is powered off, the forming motor 3-1 is electrified and drives the distribution spline shaft 3-2 to rotate through a belt wheel, the sliding gear on the distribution spline shaft 3-2 is firstly meshed with the gear on the bevel gear shaft V3-5 through the attraction of the electromagnetic block to the shifting fork sliding block The first screw shaft 3-11 is firstly meshed with the third sliding gear 3-12 to drive the shifting screw nut 3-19 on the first screw shaft 3-11 to shift the sliding shaft 3-21 to be inserted into the sliding sleeve shaft 3-22, then the cylindrical cam on the cone gear shaft six 3-9 controls the sliding gear three 3-12 to be meshed with the gear 3-13 to drive the sliding sleeve shaft 3-22 to rotate, meanwhile, the self-rotating gear 3-25 is meshed with the self-rotating gear ring 3-26 to drive the eccentric shaft 3-24 to rotate, the forming plate 3-17 can also rotate in a small range to enable the forming plate 3-17 to eccentrically rotate in two directions relative to the forming block 1-3, the meat mud is continuously rotated to form pills along with the rotation, the batch forming action of the meat pills is finished, the feeding motor 2-2 is electrified to lift the limiting plate 2-22, and the sliding gear one 2-4 and the gear on the sliding gear shaft 2-5 are separated from the spline shaft 2 Meshing is started, then the feeding motor 2-2 rotates reversely to reset the feeding mechanism, in the process, the oil spraying pipe 2-35 sprays a certain amount of edible oil on the forming block 1-3, the forming plate 3-17 and the formed meatballs again, on one hand, the meatballs are promoted to roll down the forming plate 3-17, on the other hand, the meatballs are prevented from falling into the water containing receiving box 4-7 to be scattered, and the meatballs float on the water surface as much as possible, at the moment, the oil receiving box 4-8 is positioned at the material receiving opening of the forming plate 3-17, the edible oil flows into the oil receiving box 4-8 to wait for treatment or secondary utilization, after the spraying action is finished, the sliding gear on the distribution spline shaft 3-2 is meshed with the gear on the transmission shaft five 3-4 to drive the bevel gear shaft seven 4-1 to rotate, the shifting gear 4-3 is meshed with the shifting rack 4-4 while the bevel gear seven 4-1 is meshed with the bevel gear shaft eight 4-2, so that the shifting fixing plate 4-6 slides to one side, the material receiving box 4-7 is aligned with the discharge hole of the forming plate 3-17, simultaneously, as the cam on the previous conical gear shaft six 3-9 is controlled, the shifting lead screw nut 3-19 shifts the sliding shaft 3-21 to be separated from the sliding sleeve shaft 3-22, the sliding gear on the sliding gear three 3-12 is shifted to be engaged with the gear on the transmission shaft four 3-3, the transmission shaft four 3-3 drives the transmission shaft six 3-27 to rotate through a belt pulley, the spline shaft four 3-28 also rotates along with the sliding shaft, the sliding gear four 3-31 is engaged with the single gear in the dual gears on the transmission shaft seven 3-33 to drive the incomplete dual gears 3-34 to be engaged with the gear on the blanking lead screw 3-35, and the blanking shifting block 3-39 shifts the blanking driven spline shaft 3-38 and the blanking spline shaft 3-36 to be inserted into In the process, due to the tooth shape design of the incomplete duplicate gear 3-34, when the incomplete duplicate gear 3-34 is disengaged from the gear on the feeding screw rod 3-35, the incomplete gear on the other side is engaged with the gear on the feeding spline shaft 3-36, so that the forming plate 3-17 is turned over at an angle, the forming plate 3-17 and part of transmission on the forming plate can be inclined at a certain angle, so that the meat balls slide down from the forming plate 3-17 to the receiving box 4-7, the baffle plate 4-9 can block the meat balls falling too fast, and then the fixed plate 4-6 is shifted to reset to complete single action.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (8)

1. The utility model provides an automatic change food burger batch forming equipment, includes install bin (1), loading attachment (2), forming device (3), receiving device (4), its characterized in that: the feeding device (2) is fixedly installed on the installation box (1), the forming device (3) is fixedly installed on the installation box (1), and the receiving device (4) is fixedly installed on the installation box (1).

2. An automated food pellet batch forming apparatus as claimed in claim 1, wherein: the mounting box (1) comprises a main box body (1-1), a lower end sliding plate (1-2) and a forming block (1-3), wherein the lower end sliding plate (1-2) is fixedly mounted on the main box body (1-1), and the forming block (1-3) is fixedly mounted on the main box body (1-1).

3. An automated food pellet batch forming apparatus as claimed in claim 1, wherein: the feeding device (2) comprises a feeding mounting plate (2-1), a feeding motor (2-2), a screw spline shaft I (2-3), a sliding gear I (2-4), a spline shaft I (2-5), a spline shaft II (2-6), a feeding slide rail (2-7), a feeding slider (2-8), a sliding gear II (2-9), an electromagnetic block I (2-10), a shifting fork I (2-11), an electromagnetic block II (2-12), a bevel gear shaft I (2-13), a bevel gear shaft II (2-14), a transmission shaft I (2-15), a bevel gear shaft III (2-16), a transmission shaft II (2-17), a transmission shaft III (2-18), a scraper mounting plate (2-19), a scraper mounting block (2-20), A limiting plate mounting plate (2-21), a limiting plate (2-22), a bevel gear shaft four (2-23), a spiral bevel gear shaft (2-24), a storage box (2-25), a storage box mounting ring (2-26), a storage box cover (2-27), a feeding adjusting hand wheel (2-28), a feeding port adjusting rack I (2-29), a feeding port adjusting rack II (2-30), a scraper screw nut (2-31), a scraper mounting bar (2-32), a scraper (2-33), an oil spraying mounting bar (2-34), an oil spraying pipe (2-35), a spiral blade (2-36), a feeding port block I (2-37), a feeding port block II (2-38) and a feeding port partition (2-39), wherein the feeding mounting plate (2-1) is slidably mounted inside a main box body (1-1) through a slide rail slide block, a feeding motor (2-2) is fixedly arranged on a feeding mounting plate (2-1), a screw spline shaft I (2-3) is rotatably arranged on the feeding mounting plate (2-1) through a bearing, a sliding gear I (2-4) is slidably arranged on the screw spline shaft I (2-3), a spline shaft I (2-5) is rotatably arranged on the feeding mounting plate (2-1) through a bearing, a spline shaft II (2-6) is rotatably arranged on the feeding mounting plate (2-1) through a bearing, a feeding slide rail (2-7) is fixedly arranged in a main box body (1-1), a feeding slide block (2-8) is slidably arranged on the feeding slide rail (2-7), a feeding slide block (2-8) is fixedly arranged on the feeding mounting plate (2-1), a sliding gear II (2-9) is slidably arranged on the spline shaft II (2-6), the electromagnetic block I (2-10) is fixedly arranged on the feeding mounting plate (2-1), the shifting fork I (2-11) is slidably arranged on the feeding mounting plate (2-1) through a sliding rail slider, the electromagnetic block II (2-12) is fixedly arranged on the feeding mounting plate (2-1), the bevel gear shaft I (2-13) is rotatably arranged on the feeding mounting plate (2-1) through a bearing, the bevel gear shaft II (2-14) is meshed with the bevel gear shaft I (2-13), the transmission shaft I (2-15) is rotatably arranged on the feeding mounting plate (2-1) through a bearing, the bevel gear shaft III (2-16) is rotatably arranged on the feeding mounting plate (2-1) through a bearing, a second transmission shaft (2-17) is rotatably arranged on the feeding mounting plate (2-1) through a bearing, a third transmission shaft (2-18) is rotatably arranged on the feeding mounting plate (2-1) through a bearing, the scraper mounting plate (2-19) is fixedly arranged on the feeding mounting plate (2-1), a scraper mounting block (2-20) is slidably arranged on the scraper mounting plate (2-19) through a sliding rail sliding block, a limiting plate mounting plate (2-21) is slidably arranged on the feeding mounting plate (2-1) through a sliding rail sliding block, a limiting plate (2-22) is fixedly arranged on the limiting plate mounting plate (2-21), a fourth bevel gear shaft (2-23) is rotatably arranged on the main box body (1-1) through a bearing, a spiral bevel gear shaft (2-24) is meshed with the fourth bevel gear shaft (2-23), the spiral bevel gear shaft (2-24) is rotatably arranged on the storage box (2-25) through a bearing, the storage box (2-25) is fixedly arranged on a storage box mounting ring (2-6), the storage box mounting ring (2-26) is fixedly arranged on a feeding mounting plate (2-1), a storage box cover (2-27) is hinged on the storage box (2-25), a feeding adjusting hand wheel (2-28) is rotatably arranged on the storage box (2-25) through a bearing, a feeding port adjusting rack I (2-29) is slidably arranged on the storage box (2-25), a feeding port adjusting rack II (2-30) is slidably arranged on the storage box (2-25), a scraper lead screw nut (2-31) is fixedly arranged on a scraper mounting block (2-20), and a scraper mounting bar (2-32) is fixedly arranged on a scraper mounting block (2-20), the scraper (2-33) is fixedly arranged on the scraper mounting bar (2-32), the oil spraying mounting bar (2-34) is fixedly arranged on the feeding mounting plate (2-1), the oil spraying pipe (2-35) is fixedly arranged on the oil spraying mounting bar (2-34), the spiral blade (2-36) is fixedly arranged on the spiral conical gear shaft (2-24), the feeding port stop block I (2-37) is fixedly arranged on the feeding port adjusting rack I (2-29), the feeding port stop block II (2-38) is fixedly arranged on the feeding port adjusting rack II (2-30), and the feeding port partition (2-39) is arranged on the material storage box (2-25).

4. An automated food pellet batch forming apparatus as claimed in claim 1, wherein: the forming device (3) comprises a forming motor (3-1), a distribution spline shaft (3-2), a transmission shaft four (3-3), a transmission shaft five (3-4), a bevel gear shaft five (3-5), a shifting fork two (3-6), a shifting fork sliding block group (3-7), a follow-up sliding rail sliding block (3-8), a bevel gear shaft six (3-9), a spline shaft three (3-10), a screw shaft one (3-11), a sliding gear three (3-12), a gear (3-13), a gear ring mounting cover (3-14), a mounting cover fixing ring (3-15), a shaft plate connecting block (3-16), a forming plate (3-17), a spline sleeve (3-18), a shifting screw nut (3-19), a locking nut (3-20), A slip shaft (3-21), a slip sleeve shaft (3-22), an eccentric mounting block (3-23), an eccentric shaft (3-24), a self-rotating gear (3-25), a self-rotating gear ring (3-26), a transmission shaft six (3-27), a spline shaft four (3-28), a cam (3-29), a shifting fork four (3-30), a slip gear four (3-31), a reversing gear shaft (3-32), a transmission shaft seven (3-33), an incomplete duplicate gear (3-34), a blanking lead screw (3-35), a blanking spline shaft (3-36), a blanking slide rail (3-37), a blanking passive spline shaft (3-38) and a blanking shifting block (3-39), wherein a forming motor (3-1) is fixedly arranged in a main box body (1-1), the distribution spline shaft (3-2) is rotatably arranged on the main box body (1-1) through a bearing, the transmission shaft IV (3-3) is rotatably arranged on the main box body (1-1) through a bearing, the transmission shaft V (3-4) is rotatably arranged on the main box body (1-1) through a bearing, the bevel gear shaft V (3-5) is rotatably arranged on the main box body (1-1) through a bearing, the shifting fork II (3-6) is slidably arranged in the main box body (1-1) through a sliding rail sliding block, the shifting fork sliding block group (3-7) is fixedly arranged on the main box body (1-1), the shifting fork sliding block group (3-7) is fixedly arranged on the shifting fork II (3-6), the follow-up sliding rail sliding block (3-8) is fixedly arranged on the sliding plate (1-2) at the lower end, the bevel gear shaft VI (3-9) is rotatably arranged on the main box body (1-1), a third spline shaft (3-10) is rotationally arranged on a main box body (1-1) through a bearing, a first lead screw shaft (3-11) is rotationally arranged on the main box body (1-1) through a bearing, a third sliding gear (3-12) is slidably arranged on the third spline shaft (3-10), a gear (3-13) is fixedly arranged on a sliding shaft (3-21), a gear ring mounting cover (3-14) is arranged on the first lead screw shaft (3-11) through a lead screw nut thread, a mounting cover fixing ring (3-15) is fixedly arranged on the gear ring mounting cover (3-14), a mounting cover fixing ring (3-15) is slidably arranged on a lower end sliding plate (1-2), a shaft plate connecting block (3-16) is fixedly arranged on an eccentric shaft (3-24), and a forming plate (3-17) is fixedly arranged on the shaft plate connecting block (3-16), the forming plate (3-17) is slidably arranged on the forming block (1-3), the spline sleeve (3-18) is fixedly arranged on the forming plate (3-17), the screw rod shifting nut (3-19) is threadedly arranged on the screw rod shaft I (3-11), the locking nut (3-20) is threadedly arranged on the screw rod shaft I (3-11), the sliding shaft (3-21) is slidably and rotatably arranged on the main box body (1-1) through a linear bearing, the sliding sleeve shaft (3-22) is slidably arranged on the sliding shaft (3-21), the eccentric mounting block (3-23) is fixedly arranged on the sliding sleeve shaft (3-22), the eccentric shaft (3-24) is rotatably arranged on the eccentric mounting block (3-23) through a bearing, and the self-rotating gear (3-25) is fixedly arranged on the eccentric shaft (3-24), the rotation gear ring (3-26) is fixedly arranged on the gear ring mounting cover (3-14), the rotation gear ring (3-26) is meshed with the rotation gear (3-25), the transmission shaft six (3-27) is rotatably arranged on the main box body (1-1) through a bearing, the spline shaft four (3-28) is rotatably arranged on the main box body (1-1) through a bearing, the cam (3-29) is fixedly arranged on the transmission shaft six (3-27), the shifting fork four (3-30) is rotatably arranged on the cam (3-29), the sliding gear four (3-31) is slidably arranged on the spline shaft four (3-28), the counter gear shaft (3-32) is rotatably arranged on the main box body (1-1) through a bearing, the transmission shaft seven (3-33) is rotatably arranged on the main box body (1-1) through a bearing, the incomplete dual gear (3-34) is fixedly arranged on a transmission shaft seven (3-33), a blanking lead screw (3-35) is rotatably arranged on a main box body (1-1) through a bearing, a blanking spline shaft (3-36) is arranged on the blanking lead screw (3-35) through a lead screw nut and a shifting block thread, a blanking slide rail (3-37) is fixedly arranged on a lower end sliding plate (1-2), a blanking driven spline shaft (3-38) is arranged on the blanking lead screw (3-35) through the lead screw nut and the shifting block thread, and a blanking shifting block (3-39) is arranged on the blanking lead screw (3-35) through the lead screw nut thread.

5. An automated food pellet batch forming apparatus as claimed in claim 1, wherein: the material receiving device (4) comprises a bevel gear shaft seven (4-1), a bevel gear shaft eight (4-2), a shifting gear (4-3), a shifting rack (4-4), a shifting slide rail slider (4-5), a shifting fixing plate (4-6), a material receiving box (4-7), an oil receiving box (4-8) and a material blocking plate (4-9), wherein the bevel gear shaft seven (4-1) is rotatably installed on the main box body (1-1) through a bearing, the bevel gear shaft eight (4-2) is rotatably installed on the main box body (1-1) through a bearing, the shifting gear (4-3) is installed and fixed on the bevel gear shaft eight (4-2), the shifting rack (4-4) is meshed with the shifting gear (4-3), the shifting slide rail slider (4-5) is installed and fixed on the main box body (1-1), the shifting fixing plate (4-6) is fixedly arranged on the shifting rack (4-4), the shifting fixing plate (4-6) is fixedly arranged on the shifting sliding rail sliding block (4-5), the shifting fixing plate (4-6) is arranged on the main box body (1-1) through the sliding rail sliding block, the material receiving box (4-7) is fixedly arranged on the shifting fixing plate (4-6), the oil receiving box (4-8) is fixedly arranged on the material receiving box (4-7), the oil receiving box (4-8) is fixedly arranged on the shifting fixing plate (4-6), the material blocking plate (4-9) is fixedly arranged on the material receiving box (4-7), and the material blocking plate (4-9) is fixedly arranged on the oil receiving box (4-8).

6. An automated food pellet batch forming apparatus as claimed in claim 3, wherein: the number of the feeding slide rails (2-7) and the number of the feeding slide blocks (2-8) of the feeding device (2) are two, and the number of the limiting plates (2-22) is twenty.

7. An automated food pellet batch forming apparatus as claimed in claim 4, wherein: the forming device (3) is provided with two spline sleeves (3-18) and two blanking shifting blocks (3-39).

8. An automated food pellet batch forming apparatus as claimed in claim 5, wherein: the number of the material receiving devices (4) is two, and the number of the sliding rail sliding blocks (4-5) is two.

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