CN109431322B

CN109431322B - Large-scale soybean milk machine of multi-functional soyfood factory

Info

Publication number: CN109431322B
Application number: CN201910004487.3A
Authority: CN
Inventors: 刘素侠
Original assignee: Jiangxi Xinmengyuan Soybean Products Co ltd
Current assignee: Jiangxi xinmengyuan soybean products Co.,Ltd.
Priority date: 2019-01-03
Filing date: 2019-01-03
Publication date: 2021-06-04
Anticipated expiration: 2039-01-03
Also published as: CN109431322A

Abstract

The invention relates to a soybean milk machine, in particular to a large soybean milk machine for a multifunctional bean product factory, which can add beans at a top cover and lock the top cover through a clamping pin; gas can be supplied through the gas cylinder, so that the pressure in the shell is increased, the separation of the soybean milk and the bean dregs is accelerated, and the generation of the soybean milk is accelerated by moving the lifting knife up and down; the soybean milk can be fully separated from the bean dregs through the extrusion net; the bean dregs can be pushed out by the dreg pushing rod. The top cover is positioned at the upper part of the shell; the lifting motor is positioned at the right upper side of the shell; the slag pushing rod is fixed in the middle of the right side of the shell; the middle part of the extrusion net is in threaded fit with the shell, and the lower part of the extrusion net is meshed with the tooth column; the extrusion motor mechanism is fixed on the right lower side of the shell; the gas cylinder is fixed at the left part of the shell and communicated with the top cover; the lifting knife is positioned in the shell, the lifting knife is in sliding fit with the shell, and the lifting knife is meshed with the lifting motor; the isolation net is located in the middle of the shell.

Description

Large-scale soybean milk machine of multi-functional soyfood factory

Technical Field

The invention relates to a soybean milk machine, in particular to a large soybean milk machine for a multifunctional soybean product factory.

Background

The soybean milk is the most common food for Chinese breakfast, and is delicious by adding a fried bread stick to the hot soybean milk; soymilk makers are available in many households today, however, the packaging of instant foods like milk is rare for the purpose of factory rapid grinding of soymilk. Therefore, the large-scale soybean milk machine of the multifunctional soybean product factory is designed.

Disclosure of Invention

The invention provides a large-scale soybean milk machine of a multifunctional bean product factory, which has the beneficial effects that beans can be added at the top cover, and the top cover can be locked through a clamping pin; gas can be supplied through the gas cylinder, so that the pressure in the shell is increased, the separation of the soybean milk and the bean dregs is accelerated, and the generation of the soybean milk is accelerated by moving the lifting knife up and down; the soybean milk can be fully separated from the bean dregs through the extrusion net; the bean dregs can be pushed out by the dreg pushing rod.

In order to solve the technical problem, the invention relates to a soybean milk machine, in particular to a large soybean milk machine of a multifunctional bean product factory, which comprises a top cover, a lifting motor, a residue pushing rod, an extrusion net, an extrusion motor mechanism, a gas cylinder, a lifting knife, an isolation net, a shell and a tooth post, wherein beans can be added at the top cover, and the top cover can be locked by a clamping pin; gas can be supplied through the gas cylinder, so that the pressure in the shell is increased, the separation of the soybean milk and the bean dregs is accelerated, and the generation of the soybean milk is accelerated by moving the lifting knife up and down; the soybean milk can be fully separated from the bean dregs through the extrusion net; the bean dregs can be pushed out by the dreg pushing rod.

The top cover consists of a bayonet lock, a cover and a closed motor mechanism; the four bayonet locks are arranged and are positioned on the periphery of the cover, and the bayonet locks are in sliding fit with the closed motor mechanism; the cover is circular, the upper part of the cover is connected with the gas cylinder, and the cover is positioned at the upper part of the shell; four closed motor mechanisms are arranged, the closed motor mechanisms are fixed on the cover, and the closed motor mechanisms are in threaded fit with the middle parts of the clamping pins;

the bayonet lock consists of a sliding block, a thread groove and a pin body; the sliding block is a cuboid and is positioned on the left side of the pin body, and the sliding block is in sliding fit with the closed motor mechanism; the thread groove is positioned in the middle of the pin body and is in threaded fit with the closed motor mechanism; the pin body is a cuboid, and the right side of the pin body is inclined;

the cover consists of a hanging ring, a water hole, a positioning hole, an air hole, a sealing groove and a motor base; the hanging ring is positioned in the middle of the cover; the water hole is positioned on the right side of the upper part of the cover; two positioning holes are arranged and are positioned at the upper part of the cover; the air hole is positioned on the left side of the upper part of the cover and is connected with the air bottle through an air pipe; the sealing groove is positioned on the lower surface of the cover and is an annular groove; the motor base is positioned around the cover;

the closed motor mechanism consists of a closed motor, a connecting frame, a motor shaft and a threaded rod; the closed motor is fixed on the left side of the connecting frame; the connecting frame is a cylinder, one side of the connecting frame is fixed with the cover, a square through hole is formed in the connecting frame, a sliding groove is formed in the connecting frame, and the connecting frame is in sliding fit with the sliding block; the right side of the motor shaft is provided with a columnar groove; one end of the threaded rod is fixed on the motor shaft, and the threaded rod is in threaded fit with the bayonet;

the lifting motor consists of a sealing cover, a motor, a first helical gear, a second helical gear and a shaft; the sealing cover is a cuboid and is fixed on the right side of the shell through screws; the motor is fixed on the right side of the sealing cover; the first bevel gear is fixed on a rotating shaft of the motor; the gear is positioned on the shaft, the gear and the shaft are fixed together, and the right side of the gear is meshed with the right side of the lifting knife; the second bevel gear is fixed on the shaft and meshed with the first bevel gear; two ends of the shaft are connected with the sealing cover;

the slag pushing rod consists of a slag pushing motor, an intermittent gear, a slag pushing shell, a spring, a push plate and a rack push rod; the slag pushing motor is fixed on the upper part of the slag pushing shell; the intermittent gear is fixed on a rotating shaft of the slag pushing motor, and the lower part of the intermittent gear is meshed with the rack push rod; the slag pushing shell is a cuboid and is fixed on the right side of the shell; the left end of the spring is connected with the rack push rod, and the right side of the spring is connected with the slag pushing shell; the push plate is a cuboid and is positioned on the left side of the rack push rod; the upper part of the rack push rod is provided with teeth, and the upper part of the rack push rod is meshed with the intermittent gear;

the extrusion net consists of an extrusion cover, a connecting sleeve, a bearing, a screw and a lifting gear; the extrusion cover is rectangular, and a fine net is processed on the extrusion cover; the lower part of the connecting sleeve is provided with a bearing seat, and the connecting sleeve is fixed at the lower part of the extrusion cover through a screw; the bearing is positioned at the lower part of the connecting sleeve, the bearing is positioned at the upper part of the screw rod, and the bearing is in interference fit with the screw rod; the screw rod is positioned at the lower part of the shell and is in threaded fit with the shell; the lifting gear is fixed at the lower part of the screw rod, and the right side of the lifting gear is meshed with the tooth column;

the extrusion motor mechanism consists of an extrusion motor and an extrusion gear; the extrusion motor is fixed at the lower part of the right side of the shell; the extrusion gear is fixed at the lower part of the rotating shaft of the extrusion motor, and the left side of the extrusion gear is meshed with the right side of the tooth column;

the lifting knife consists of a double-layer knife, a stirring motor and a sliding frame; the upper part of the double-layer cutter is connected with a stirring motor; the stirring motor is fixed on the upper part of the sliding frame; the sliding frame is positioned inside the shell and is in sliding fit with the shell;

the double-layer cutter consists of a rotary blade, a rotating shaft, a positioning sleeve and a double-layer cutter bearing; the number of the rotary blades is two, and the rotary blades are fixed on two sides of the rotating shaft; the upper part of the rotating shaft is fixed with the stirring motor through a screw; two positioning sleeves are arranged, the positioning sleeves are positioned on the inner sides of the rotary blades, and one sides of the positioning sleeves are in contact with the double-layer cutter bearings; the double-layer cutter bearing is positioned in the middle of the rotating shaft;

the stirring motor consists of a stirring motor and a stirring motor shaft; the stirring motor is fixed on the upper part of the sliding frame through a screw; the lower part of the stirring motor shaft is semi-cylindrical, a threaded hole is processed on the stirring motor shaft, and the stirring motor shaft is fixed with the rotating shaft through a screw;

the sliding frame consists of a connecting frame, a stirring motor base, a double-layer cutter shaft bearing seat and a sliding chute; six connecting frames are arranged, and the middle parts of the connecting frames are provided with stirring motor seats; the stirring motor base is positioned at the upper part of the sliding frame; the two double-layer cutter shaft bearing seats are arranged at the lower part of the sliding frame; three sliding chutes are arranged;

the isolation net consists of a driving motor, a motor frame, a net shell, a rotating plate, a driving screw and a driving gear; the driving motor is fixed on the left side of the motor frame; the right side of the motor frame is fixed on the left side of the shell; the reticulated shell is a cuboid; the rotating plate is a cuboid, two ends of the rotating plate are cylindrical shafts, and the rotating plate is connected with the latticed shell; the left end of the driving screw is fixed with a rotating shaft of the driving motor, and the driving screw is meshed with the driving gear; the driving gear is fixed at one end of the rotating plate;

the shell consists of an inlet, a gear port, a slide rail, a filter screen, a thread lifting hole, a tooth column bearing seat, a slag discharging cover, a slag discharging port and a soybean milk outlet; the inlet is positioned at the upper part of the shell, and two positioning rods are welded at the upper part of the inlet; the gear port is positioned on the right side of the shell; three slide rails are arranged and are positioned at the upper part of the shell; the filter screen is positioned at the middle upper part of the shell; the threaded lifting hole is positioned at the middle lower part of the shell; four tooth column bearing seats are arranged and are positioned at the lower part of the shell; the slag discharging cover is positioned on the left side of the shell and is connected with the shell through a pin; the slag discharge port is positioned on the left side of the shell; the slag discharge port is positioned on the left side of the shell; the soybean milk outlet is positioned at the lower part of the residue discharge port;

the tooth column consists of a tooth column bearing and a tooth column; the two tooth column bearings are arranged and are positioned at the two ends of the tooth column, and the tooth column bearings are in interference fit with the tooth column; the middle part of the toothed column is provided with teeth, the left side of the toothed column is meshed with the extrusion net, and the right side of the toothed column is meshed with the extrusion motor mechanism;

the top cover is positioned at the upper part of the shell; the lifting motor is positioned at the right upper side of the shell; the slag pushing rod is fixed in the middle of the right side of the shell; the middle part of the extrusion net is in threaded fit with the shell, and the lower part of the extrusion net is meshed with the tooth column; the extrusion motor mechanism is fixed on the right lower side of the shell; the gas cylinder is fixed at the left part of the shell and communicated with the top cover; the lifting knife is positioned in the shell, the lifting knife is in sliding fit with the shell, and the lifting knife is meshed with the lifting motor; the isolation net is positioned in the middle of the shell; the upper part of the shell is cylindrical, and the middle lower part of the shell is a cuboid; the tooth post is equipped with two, and the tooth post meshes with extrusion motor mechanism.

As a further optimization of the technical scheme, the sealing cover of the large-scale soybean milk machine for the multifunctional soybean product factory is made of cast iron.

As a further optimization of the technical scheme, the sliding frame of the large-scale soybean milk machine for the multifunctional soybean product factory is made of aluminum alloy.

As a further optimization of the technical scheme, the shell of the large-scale soybean milk machine of the multifunctional soybean product factory is made of stainless steel.

The multifunctional large-scale soybean milk machine for a soybean product factory has the beneficial effects that:

the multifunctional large-scale soybean milk machine for the bean product factory can add beans at the top cover and lock the top cover through the clamping pin; gas can be supplied through the gas cylinder, so that the pressure in the shell is increased, the separation of the soybean milk and the bean dregs is accelerated, and the generation of the soybean milk is accelerated by moving the lifting knife up and down; the soybean milk can be fully separated from the bean dregs through the extrusion net; the bean dregs can be pushed out by the dreg pushing rod.

Drawings

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

FIG. 1 is a schematic structural diagram of a large-scale soymilk machine for a multifunctional bean product factory.

Fig. 2 is a schematic structural diagram of a top cover 1 of a large-scale soybean milk machine of a multifunctional soybean product factory.

FIG. 3 is a schematic structural view of a bayonet 1-1 of a large-scale soymilk machine for a multifunctional bean product factory.

FIG. 4 is a schematic structural view of a cover 1-2 of a large-scale soymilk machine for a multifunctional bean product factory.

FIG. 5 is a schematic structural view of a closed motor mechanism 1-3 of a large-scale soybean milk machine of a multifunctional soybean product factory.

Fig. 6 is a schematic structural view of a lifting motor 2 of a large-scale soybean milk machine of a multifunctional soybean product factory.

Fig. 7 is a schematic structural view of a residue pushing rod 3 of a large-scale soybean milk machine of a multifunctional soybean product factory.

Fig. 8 is a schematic structural view of an extrusion net 4 of a large-scale soybean milk machine of a multifunctional soybean product factory.

Fig. 9 is a schematic structural view of an extrusion motor mechanism 5 of a large-scale soybean milk machine of a multifunctional soybean product factory.

Fig. 10 is a schematic structural view of a lifting knife 7 of a large-scale soybean milk machine of a multifunctional soybean product factory.

FIG. 11 is a schematic structural view of a double-layer knife 7-1 of a large-scale soymilk machine for a multifunctional bean product factory.

FIG. 12 is a schematic structural view of a stirring motor 7-2 of a large-scale soymilk machine for a multifunctional bean product factory.

FIG. 13 is a schematic structural view of a sliding frame 7-3 of the large-sized soymilk machine of the multifunctional soymilk maker of the soymilk maker.

Fig. 14 is a schematic structural diagram of an isolation net 8 of a large-scale soybean milk machine of a multifunctional soybean product factory.

Fig. 15 is a schematic structural view of a housing 9 of a large-sized soymilk machine for a multifunctional bean product factory.

Fig. 16 is a schematic structural diagram of a tooth column 10 of a large-scale soybean milk machine of a multifunctional soybean product factory.

In the figure: a top cover 1; a bayonet 1-1; a slider 1-1-1; 1-1-2 of thread groove; 1-1-3 of the pin body; a cover 1-2; 1-2-1 of a lifting ring; water pores 1-2-2; 1-2-3 of a positioning hole; 1-2-4 of air holes; sealing grooves 1-2-5; 1-2-6 of a motor base; 1-3 of a closed motor mechanism; sealing the motor 1-3-1; connecting frames 1-3-2; 1-3-3 of a motor shaft; 1-3-4 parts of a threaded rod; a lifting motor 2; 2-1 of a sealing cover; a motor 2-2; 2-3 of a first bevel gear; 2-4 parts of gear; 2-5 parts of a second bevel gear; 2-6 of a shaft; a slag pushing rod 3; a slag pushing motor 3-1; 3-2 parts of intermittent gear; pushing 3-3 of a slag shell; 3-4 parts of a spring; 3-5 parts of a push plate; a rack push rod 3-6; the web 4 is extruded; 4-1 of a squeezing cover; 4-2 of a connecting sleeve; 4-3 of a bearing; 4-4 parts of a screw; 4-5 of a lifting gear; an extrusion motor mechanism 5; 5-1 of an extrusion motor; 5-2 parts of an extrusion gear; a gas cylinder 6; a lifting knife 7; 7-1 of a double-layer cutter; a rotary blade 7-1-1; a rotating shaft 7-1-2; 7-1-3 of a positioning sleeve; 7-1-4 of a double-layer cutter bearing; a stirring motor 7-2; a stirring motor 7-2; a stirring motor shaft 7-2-2; a sliding frame 7-3; the connecting frame 7-3-1; stirring a motor base 7-3-2; 7-3-3 parts of a double-layer cutter shaft bearing seat; 7-3-4 of a chute; an isolation net 8; a drive motor 8-1; a motor frame 8-2; 8-3 of reticulated shell; 8-4 of a rotating plate; 8-5 of a driving screw; driving gears 8-6; a housing 9; an inlet 9-1; a gear port 9-2; 9-3 of a slide rail; 9-4 parts of a filter screen; 9-5 of a threaded lifting hole; 9-6 of a tooth column bearing block; 9-7 parts of slag discharge cover; 9-8 of a slag discharge port; 9-9 parts of soybean milk outlet; a tooth post 10; a toothed column bearing 10-1; tooth post 10-2.

Detailed Description

The first embodiment is as follows:

the embodiment is described below by combining fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15 and 16, the invention relates to a soybean milk machine, in particular to a large soybean milk machine for a multifunctional soybean product factory, which comprises a top cover 1, a lifting motor 2, a residue pushing rod 3, an extrusion net 4, an extrusion motor mechanism 5, a gas cylinder 6, a lifting knife 7, an isolation net 8, a shell 9 and a tooth post 10, wherein beans can be added at the top cover, and the top cover can be locked by a clamping pin; gas can be supplied through the gas cylinder, so that the pressure in the shell is increased, the separation of the soybean milk and the bean dregs is accelerated, and the generation of the soybean milk is accelerated by moving the lifting knife up and down; the soybean milk can be fully separated from the bean dregs through the extrusion net; the bean dregs can be pushed out by the dreg pushing rod.

The top cover 1 consists of a bayonet 1-1, a cover 1-2 and a closed motor mechanism 1-3; four bayonet locks 1-1 are arranged, the bayonet locks 1-1 are positioned at the periphery of the cover 1-2, and the bayonet locks 1-1 are in sliding fit with the closed motor mechanism 1-3; the cover 1-2 is round, the upper part of the cover 1-2 is connected with the gas cylinder 6, and the cover 1-2 is positioned at the upper part of the shell 9; four closed motor mechanisms 1-3 are arranged, the closed motor mechanisms 1-3 are fixed on the cover 1-2, and the closed motor mechanisms 1-3 are in threaded fit with the middle parts of the bayonet locks 1-1;

the bayonet 1-1 consists of a sliding block 1-1-1, a thread groove 1-1-2 and a pin body 1-1-3; the sliding block 1-1-1 is a cuboid, the sliding block 1-1-1 is positioned on the left side of the pin body 1-1-3, and the sliding block 1-1-1 is in sliding fit with the closed motor mechanism 1-3; the thread groove 1-1-2 is positioned in the middle of the pin body 1-1-3, and the thread groove 1-1-2 is in threaded fit with the closed motor mechanism 1-3; the pin body 1-1-3 is a cuboid, and the right side of the pin body 1-1-3 is inclined;

the cover 1-2 consists of a hanging ring 1-2-1, a water hole 1-2-2, a positioning hole 1-2-3, an air hole 1-2-4, a sealing groove 1-2-5 and a motor base 1-2-6; the hanging ring 1-2-1 is positioned in the middle of the cover 1-2; the water hole 1-2-2 is positioned at the right side of the upper part of the cover 1-2; two positioning holes 1-2-3 are arranged, and the positioning holes 1-2-3 are positioned at the upper part of the cover 1-2; the air hole 1-2-4 is positioned at the left side of the upper part of the cover 1-2, and the air hole 1-2-4 is connected with the air bottle 6 through an air pipe; the sealing groove 1-2-5 is positioned on the lower surface of the cover 1-2, and the sealing groove 1-2-5 is an annular groove; the motor base 1-2-6 is positioned around the cover 1-2;

the closed motor mechanism 1-3 consists of a closed motor 1-3-1, a connecting frame 1-3-2, a motor shaft 1-3-3 and a threaded rod 1-3-4; the closed motor 1-3-1 is fixed on the left side of the connecting frame 1-3-2; the connecting frame 1-3-2 is a cylinder, one side of the connecting frame 1-3-2 is fixed with the cover 1-2, a square through hole is formed in the connecting frame 1-3-2, a sliding groove is formed in the connecting frame 1-3-2, and the connecting frame 1-3-2 is in sliding fit with the sliding block 1-1-1; the right side of the motor shaft 1-3-3 is provided with a columnar groove; one end of the threaded rod 1-3-4 is fixed on the motor shaft 1-3-3, and the threaded rod 1-3-4 is in threaded fit with the bayonet 1-1; connecting a sealing motor 1-3-1 into a circuit, starting the sealing motor 1-3-1, rotating the sealing motor 1-3-1 to drive a threaded rod 1-3-4 to rotate, matching the threaded rod 1-3-4 with a bayonet 1-1 in a threaded manner, and matching the bayonet 1-1 with a connecting frame 1-3-2 in a sliding manner, so that the threaded rod 1-3-4 rotates to drive the bayonet 1-1 to move towards the sealing motor 1-3-1;

the lifting motor 2 consists of a sealing cover 2-1, a motor 2-2, a first helical gear 2-3, a gear 2-4, a second helical gear 2-5 and a shaft 2-6; the sealing cover 2-1 is a cuboid, and the sealing cover 2-1 is fixed on the right side of the shell 9 through screws; the motor 2-2 is fixed on the right side of the sealing cover 2-1; the first helical gear 2-3 is fixed on a rotating shaft of the motor 2-2; the gear 2-4 is positioned on the shaft 2-6, the gear 2-4 is fixed with the shaft 2-6, and the right side of the gear 2-4 is meshed with the right side of the lifting knife 7; the second bevel gear 2-5 is fixed on the shaft 2-6, and the second bevel gear 2-5 is meshed with the first bevel gear 2-3; two ends of the shaft 2-6 are connected with the sealing cover 2-1; connecting a motor 2-2 into a circuit, starting the motor 2-2, driving a first helical gear 2-3 on the left side to rotate by the rotation of the motor 2-2, driving a second helical gear 2-5 to rotate by the rotation of the first helical gear 2-3, fixing the second helical gear 2-5 on a shaft 2-6, and fixing a gear 2-4 on the shaft 2-6, so that the gear 2-4 rotates along with the shaft 2-6, the left side of the gear 2-4 is meshed with the right side of a sliding frame 7-3, and the sliding frame 7-3 moves up and down along with the gear 2-4 to cut and stir beans on each layer;

the slag pushing rod 3 consists of a slag pushing motor 3-1, an intermittent gear 3-2, a slag pushing shell 3-3, a spring 3-4, a push plate 3-5 and a rack push rod 3-6; a slag pushing motor 3-1 is fixed on the upper part of the slag pushing shell 3-3; the intermittent gear 3-2 is fixed on a rotating shaft of the slag pushing motor 3-1, and the lower part of the intermittent gear 3-2 is meshed with the rack push rod 3-6; the slag pushing shell 3-3 is a cuboid, and the slag pushing shell 3-3 is fixed on the right side of the shell 9; the left end of the spring 3-4 is connected with the rack push rod 3-6, and the right side of the spring 3-4 is connected with the slag pushing shell 3-3; the push plate 3-5 is a cuboid, and the push plate 3-5 is positioned on the left side of the rack push rod 3-6; the upper part of the rack push rod 3-6 is provided with teeth, and the upper part of the rack push rod 3-6 is meshed with the intermittent gear 3-2; the principle of bean dregs elimination is as follows: connecting a slag pushing motor 3-1 into a circuit, starting the slag pushing motor 3-1, rotating the slag pushing motor 3-1 to drive an intermittent gear 3-2 to rotate, rotating the intermittent gear 3-2 to drive a rack push rod 3-6 to move leftwards, opening a slag discharging cover 9-7, and pushing bean dregs out of a slag discharging port 9-8 by a push plate 3-5;

the extrusion net 4 consists of an extrusion cover 4-1, a connecting sleeve 4-2, a bearing 4-3, a screw 4-4 and a lifting gear 4-5; the extrusion cover 4-1 is rectangular, and a fine net is processed on the extrusion cover 4-1; a bearing seat is processed at the lower part of the connecting sleeve 4-2, and the connecting sleeve 4-2 is fixed at the lower part of the extrusion cover 4-1 through a screw; the bearing 4-3 is positioned at the lower part of the connecting sleeve 4-2, the bearing 4-3 is positioned at the upper part of the screw rod 4-4, and the bearing 4-3 is in interference fit with the screw rod 4-4; the screw rod 4-4 is positioned at the lower part of the shell 9, and the screw rod 4-4 is in threaded fit with the shell 9; the lifting gear 4-5 is fixed at the lower part of the screw rod 4-4, and the right side of the lifting gear 4-5 is meshed with the toothed column 10; the lifting gear 4-5 rotates to drive the screw rod 4-4 to rotate, the screw rod 4-4 is in threaded fit with the shell 9, the screw rod 4-4 moves upwards, the screw rod 4-4 drives the squeezing cover 4-1 to move upwards, and the soybean milk leaks downwards through the filter screen of the squeezing cover 4-1 and flows out through the soybean milk outlet 9-9;

the extrusion motor mechanism 5 consists of an extrusion motor 5-1 and an extrusion gear 5-2; the extrusion motor 5-1 is fixed at the lower part of the right side of the shell 9; the extrusion gear 5-2 is fixed at the lower part of the rotating shaft of the extrusion motor 5-1, and the left side of the extrusion gear 5-2 is meshed with the right side of the tooth column 10; the extrusion motor 5-1 is connected into a circuit to start the extrusion motor 5-1, the extrusion motor 5-1 rotates to drive the extrusion gear 5-2 to rotate, and the extrusion gear 5-2 rotates to drive the tooth column 10 to rotate;

the lifting knife 7 consists of a double-layer knife 7-1, a stirring motor 7-2 and a sliding frame 7-3; the upper part of the double-layer knife 7-1 is connected with a stirring motor 7-2; the stirring motor 7-2 is fixed on the upper part of the sliding frame 7-3; the sliding frame 7-3 is positioned inside the shell 9, and the sliding frame 7-3 is in sliding fit with the shell 9;

the double-layer cutter 7-1 consists of a rotary blade 7-1-1, a rotating shaft 7-1-2, a positioning sleeve 7-1-3 and a double-layer cutter bearing 7-1-4; two rotary blades 7-1-1 are arranged, and the rotary blades 7-1-1 are fixed on two sides of the rotating shaft 7-1-2; the upper part of the rotating shaft 7-1-2 is fixed with the stirring motor 7-2 through a screw; two positioning sleeves 7-1-3 are arranged, the positioning sleeves 7-1-3 are positioned at the inner side of the rotary blade 7-1-1, and one side of each positioning sleeve 7-1-3 is in contact with a double-layer cutter bearing 7-1-4; the double-layer knife bearing 7-1-4 is positioned in the middle of the rotating shaft 7-1-2;

the stirring motor 7-2 consists of a stirring motor 7-2 and a stirring motor shaft 7-2-2; the stirring motor 7-2 is fixed on the upper part of the sliding frame 7-3 through a screw; the lower part of the stirring motor shaft 7-2-2 is semi-cylindrical, a threaded hole is processed on the stirring motor shaft 7-2-2, and the stirring motor shaft 7-2-2 is fixed with the rotating shaft 7-1-2 through a screw; a stirring motor 7-2 is connected into a circuit, the stirring motor 7-2 rotates to drive a rotating shaft 7-1-2 to rotate, a double-layer knife 7-1 is fixed on the rotating shaft 7-1-2, so that the rotating shaft 7-1-2 drives the double-layer knife 7-1 to rotate, and the double-layer knife 7-1 rotates to cut and stir beans;

the sliding frame 7-3 consists of a connecting frame 7-3-1, a stirring motor base 7-3-2, a double-layer cutter shaft bearing base 7-3-3 and a sliding chute 7-3-4; six connecting frames 7-3-1 are arranged, and a stirring motor base 7-3-2 is arranged in the middle of each connecting frame 7-3-1; the stirring motor base 7-3-2 is positioned at the upper part of the sliding frame 7-3; two double-layer cutter shaft bearing seats 7-3-3 are arranged, and the double-layer cutter shaft bearing seats 7-3-3 are positioned at the lower part of the sliding frame 7-3; three sliding chutes 7-3-4 are arranged;

the isolation net 8 consists of a driving motor 8-1, a motor frame 8-2, a net shell 8-3, a rotating plate 8-4, a driving screw 8-5 and a driving gear 8-6; the driving motor 8-1 is fixed on the left side of the motor frame 8-2; the right side of the motor frame 8-2 is fixed on the left side of the shell 9; the reticulated shell 8-3 is a cuboid; the rotating plate 8-4 is a cuboid, cylindrical shafts are arranged at two ends of the rotating plate 8-4, and the rotating plate 8-4 is connected with the reticulated shell 8-3; the left end of the driving screw 8-5 is fixed with a rotating shaft of the driving motor 8-1, and the driving screw 8-5 is meshed with the driving gear 8-6; the driving gear 8-6 is fixed at one end of the rotating plate 8-4; the driving motor 8-1 is connected into the circuit, the driving motor 8-1 is started, and after the beans are sufficiently ground, the beans enter the upper part of the extrusion net 4 through the filter screen 9-4; the driving motor 8-1 rotates to drive the driving screw 8-5 to rotate, the driving screw 8-5 is meshed with the driving gear 8-6, the driving screw 8-5 drives the driving gear 8-6 to rotate, the driving gear 8-6 is fixed on the rotating plate 8-4, so that the rotating plate 8-4 rotates, and when the rotating plate 8-4 is in a horizontal state, the driving motor 8-1 stops rotating;

the shell 9 consists of an inlet 9-1, a gear port 9-2, a slide rail 9-3, a filter screen 9-4, a threaded lifting hole 9-5, a tooth column bearing seat 9-6, a slag discharging cover 9-7, a slag discharging port 9-8 and a soybean milk outlet 9-9; the inlet 9-1 is positioned at the upper part of the shell 9, and two positioning rods are welded at the upper part of the inlet 9-1; the gear port 9-2 is positioned on the right side of the shell 9; three sliding rails 9-3 are arranged, and the sliding rails 9-3 are positioned at the upper part of the shell 9; the filter screen 9-4 is positioned at the middle upper part of the shell 9; the threaded lifting hole 9-5 is positioned at the middle lower part of the shell 9; four tooth post bearing blocks 9-6 are arranged, and the tooth post bearing blocks 9-6 are positioned at the lower part of the shell 9; the slag discharge cover 9-7 is positioned at the left side of the shell 9, and the slag discharge cover 9-7 is connected with the shell 9 through a pin; the slag discharge port 9-8 is positioned at the left side of the shell 9; the slag discharge port 9-8 is positioned at the left side of the shell 9; the soybean milk outlet 9-9 is positioned at the lower part of the residue discharge port 9-8;

the toothed column 10 consists of a toothed column bearing 10-1 and a toothed column 10-2; two toothed column bearings 10-1 are arranged, the toothed column bearings 10-1 are positioned at two ends of the toothed column 10-2, and the toothed column bearings 10-1 are in interference fit with the toothed column 10-2; teeth are processed in the middle of the toothed column 10-2, the left side of the toothed column 10-2 is meshed with the extrusion net 4, and the right side of the toothed column 10-2 is meshed with the extrusion motor mechanism 5; the tooth column 10 rotates to drive the lifting gear 4-5 to rotate;

the top cover 1 is positioned at the upper part of the shell 9; the lifting motor 2 is positioned at the upper right side of the shell 9; the slag pushing rod 3 is fixed in the middle of the right side of the shell 9; the middle part of the extrusion net 4 is in threaded fit with the shell 9, and the lower part of the extrusion net 4 is meshed with the tooth column 10; the extrusion motor mechanism 5 is fixed at the right lower side of the shell 9; the gas bottle 6 is fixed at the left part of the shell 9, and the gas bottle 6 is communicated with the top cover 1; the lifting knife 7 is positioned inside the shell 9, the lifting knife 7 is in sliding fit with the shell 9, and the lifting knife 7 is meshed with the lifting motor 2; the isolation net 8 is positioned in the middle of the shell 9; the upper part of the shell 9 is cylindrical, and the middle lower part of the shell 9 is a cuboid; two tooth columns 10 are arranged, and the tooth columns 10 are meshed with the extrusion motor mechanism 5.

The second embodiment is as follows:

the present embodiment will be described with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, and 16, and the first embodiment will be further described, in which the seal cap 2-1 is made of cast iron.

The third concrete implementation mode:

the present embodiment will be described with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, and 16, and the present embodiment will further describe the first embodiment, in which the carriage 7-3 is made of an aluminum alloy.

The fourth concrete implementation mode:

the present embodiment will be described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, and 16, and the present embodiment further describes the first embodiment in which the housing 9 is made of stainless steel.

The working principle of the invention is as follows: filling principle of soybeans: connecting the lifting ring 1-2-1 to an external lifting device; connecting a sealing motor 1-3-1 into a circuit, starting the sealing motor 1-3-1, rotating the sealing motor 1-3-1 to drive a threaded rod 1-3-4 to rotate, matching the threaded rod 1-3-4 with a bayonet 1-1 in a threaded manner, and matching the bayonet 1-1 with a connecting frame 1-3-2 in a sliding manner, so that the threaded rod 1-3-4 rotates to drive the bayonet 1-1 to move towards the sealing motor 1-3-1, separating the bayonet 1-1 from an inlet 9-1 of a shell 9, lifting a top cover 1 upwards at the moment, and adding beans to the upper part of the shell 9; closing the top cover, rotating the closed motor 1-3-1 in the opposite direction, and fixing the top cover 1 on the shell 9 by the pin 1-1.

Stirring principle: the stirring motor 7-2 is connected into the circuit, the stirring motor 7-2 rotates to drive the rotating shaft 7-1-2 to rotate, the double-layer knife 7-1 is fixed on the rotating shaft 7-1-2, so that the rotating shaft 7-1-2 drives the double-layer knife 7-1 to rotate, and the double-layer knife 7-1 rotates to cut and stir the beans.

The principle of the double-layer cutter is as follows: the motor 2-2 is connected into a circuit, the motor 2-2 is started, the motor 2-2 rotates to drive the first helical gear 2-3 on the left side to rotate, the first helical gear 2-3 rotates to drive the second helical gear 2-5 to rotate, the second helical gear 2-5 is fixed on the shaft 2-6, and the gear 2-4 is fixed on the shaft 2-6, so that the gear 2-4 rotates along with the shaft 2-6, the left side of the gear 2-4 is meshed with the right side of the sliding frame 7-3, and the sliding frame 7-3 moves up and down along with the gear 2-4 to cut and stir beans on each layer.

Separation principle: the driving motor 8-1 is connected into the circuit, the driving motor 8-1 is started, and after the beans are sufficiently ground, the beans enter the upper part of the extrusion net 4 through the filter screen 9-4; the driving motor 8-1 rotates to drive the driving screw 8-5 to rotate, the driving screw 8-5 is meshed with the driving gear 8-6, the driving screw 8-5 drives the driving gear 8-6 to rotate, the driving gear 8-6 is fixed on the rotating plate 8-4, so that the rotating plate 8-4 rotates, and when the rotating plate 8-4 is in a horizontal state, the driving motor 8-1 stops rotating; the extrusion motor 5-1 is connected into a circuit to start the extrusion motor 5-1, the extrusion motor 5-1 rotates to drive the extrusion gear 5-2 to rotate, the extrusion gear 5-2 rotates to drive the tooth post 10 to rotate, the tooth post 10 rotates to drive the lifting gear 4-5 to rotate, the lifting gear 4-5 rotates to drive the screw rod 4-4 to rotate, the screw rod 4-4 is in threaded fit with the shell 9, the screw rod 4-4 moves upwards, the screw rod 4-4 drives the extrusion cover 4-1 to move upwards, and soybean milk leaks downwards through a filter screen of the extrusion cover 4-1 and flows out through a soybean milk outlet 9-9; the gas riding bottle 6 is opened, and compressed air enters the inside of the shell 9 through the air pipe, and the separation speed of the soybean milk and the bean dregs can be accelerated by the compressed air.

The principle of bean dregs elimination is as follows: the slag pushing motor 3-1 is connected into a circuit, the slag pushing motor 3-1 is started, the slag pushing motor 3-1 rotates to drive the intermittent gear 3-2 to rotate, the intermittent gear 3-2 rotates to drive the rack push rod 3-6 to move leftwards, the slag discharging cover 9-7 is opened, and the bean dregs are pushed out from the slag discharging port 9-8 by the push plate 3-5.

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

1. The utility model provides a large-scale soybean milk machine of multi-functional soyfood factory, includes top cap (1), elevator motor (2), pushes away sediment pole (3), extrudees net (4), extrusion motor mechanism (5), gas cylinder (6), lift sword (7), separation net (8), casing (9), tooth post (10), its characterized in that: the top cover (1) consists of a bayonet (1-1), a cover (1-2) and a closed motor mechanism (1-3); four bayonet locks (1-1) are arranged, the bayonet locks (1-1) are positioned around the cover (1-2), and the bayonet locks (1-1) are in sliding fit with the closed motor mechanism (1-3); the cover (1-2) is circular, the upper part of the cover (1-2) is connected with the gas cylinder (6), and the cover (1-2) is positioned at the upper part of the shell (9); four closed motor mechanisms (1-3) are arranged, the closed motor mechanisms (1-3) are fixed on the covers (1-2), and the closed motor mechanisms (1-3) are in threaded fit with the middle parts of the clamping pins (1-1);

the bayonet (1-1) consists of a sliding block (1-1-1), a thread groove (1-1-2) and a pin body (1-1-3); the sliding block (1-1-1) is a cuboid, the sliding block (1-1-1) is positioned on the left side of the pin body (1-1-3), and the sliding block (1-1-1) is in sliding fit with the closed motor mechanism (1-3); the thread groove (1-1-2) is positioned in the middle of the pin body (1-1-3), and the thread groove (1-1-2) is in threaded fit with the closed motor mechanism (1-3); the pin body (1-1-3) is cuboid, and the right side of the pin body (1-1-3) is inclined;

the cover (1-2) consists of a lifting ring (1-2-1), a water hole (1-2-2), a positioning hole (1-2-3), an air hole (1-2-4), a sealing groove (1-2-5) and a motor base (1-2-6); the hanging ring (1-2-1) is positioned in the middle of the cover (1-2); the water hole (1-2-2) is positioned on the right side of the upper part of the cover (1-2); two positioning holes (1-2-3) are arranged, and the positioning holes (1-2-3) are positioned at the upper part of the cover (1-2); the air hole (1-2-4) is positioned at the left side of the upper part of the cover (1-2), and the air hole (1-2-4) is connected with the air bottle (6) through an air pipe; the sealing groove (1-2-5) is positioned on the lower surface of the cover (1-2), and the sealing groove (1-2-5) is an annular groove; the motor base (1-2-6) is positioned around the cover (1-2);

the closed motor mechanism (1-3) consists of a closed motor (1-3-1), a connecting frame (1-3-2), a motor shaft (1-3-3) and a threaded rod (1-3-4); the closed motor (1-3-1) is fixed on the left side of the connecting frame (1-3-2); the connecting frame (1-3-2) is a cylinder, one side of the connecting frame (1-3-2) is fixed with the cover (1-2), a square through hole is processed in the connecting frame (1-3-2), a sliding groove is processed in the connecting frame (1-3-2), and the connecting frame (1-3-2) is in sliding fit with the sliding block (1-1-1); the right side of the motor shaft (1-3-3) is provided with a columnar groove; one end of the threaded rod (1-3-4) is fixed on the motor shaft (1-3-3), and the threaded rod (1-3-4) is in threaded fit with the bayonet (1-1);

the lifting motor (2) consists of a sealing cover (2-1), a motor (2-2), a first helical gear (2-3), a gear (2-4), a second helical gear (2-5) and a shaft (2-6); the sealing cover (2-1) is a cuboid, and the sealing cover (2-1) is fixed on the right side of the shell (9) through screws; the motor (2-2) is fixed on the right side of the sealing cover (2-1); the first helical gear (2-3) is fixed on a rotating shaft of the motor (2-2); the gear (2-4) is positioned on the shaft (2-6), the gear (2-4) is fixed with the shaft (2-6), and the right side of the gear (2-4) is meshed with the right side of the lifting knife (7); the second bevel gear (2-5) is fixed on the shaft (2-6), and the second bevel gear (2-5) is meshed with the first bevel gear (2-3); two ends of the shaft (2-6) are connected with the sealing cover (2-1);

the slag pushing rod (3) consists of a slag pushing motor (3-1), an intermittent gear (3-2), a slag pushing shell (3-3), a spring (3-4), a push plate (3-5) and a rack push rod (3-6); the slag pushing motor (3-1) is fixed at the upper part of the slag pushing shell (3-3); the intermittent gear (3-2) is fixed on a rotating shaft of the slag pushing motor (3-1), and the lower part of the intermittent gear (3-2) is meshed with the rack push rod (3-6); the slag pushing shell (3-3) is a cuboid, and the slag pushing shell (3-3) is fixed on the right side of the shell (9); the left end of the spring (3-4) is connected with the rack push rod (3-6), and the right side of the spring (3-4) is connected with the slag pushing shell (3-3); the push plate (3-5) is a cuboid, and the push plate (3-5) is positioned on the left side of the rack push rod (3-6); the upper part of the rack push rod (3-6) is processed with teeth, and the upper part of the rack push rod (3-6) is meshed with the intermittent gear (3-2);

the extrusion net (4) consists of an extrusion cover (4-1), a connecting sleeve (4-2), a bearing (4-3), a screw rod (4-4) and a lifting gear (4-5); the extrusion cover (4-1) is rectangular, and a fine net is processed on the extrusion cover (4-1); a bearing seat is processed at the lower part of the connecting sleeve (4-2), and the connecting sleeve (4-2) is fixed at the lower part of the extrusion cover (4-1) through a screw; the bearing (4-3) is positioned at the lower part of the connecting sleeve (4-2), the bearing (4-3) is positioned at the upper part of the screw rod (4-4), and the bearing (4-3) is in interference fit with the screw rod (4-4); the screw (4-4) is positioned at the lower part of the shell (9), and the screw (4-4) is in threaded fit with the shell (9); the lifting gear (4-5) is fixed at the lower part of the screw (4-4), and the right side of the lifting gear (4-5) is meshed with the toothed column (10);

the extrusion motor mechanism (5) consists of an extrusion motor (5-1) and an extrusion gear (5-2); the extrusion motor (5-1) is fixed at the lower part of the right side of the shell (9); the extrusion gear (5-2) is fixed at the lower part of the rotating shaft of the extrusion motor (5-1), and the left side of the extrusion gear (5-2) is meshed with the right side of the tooth column (10);

the lifting knife (7) consists of a double-layer knife (7-1), a stirring motor (7-2) and a sliding frame (7-3); the upper part of the double-layer knife (7-1) is connected with a stirring motor (7-2); the stirring motor (7-2) is fixed on the upper part of the sliding frame (7-3); the sliding frame (7-3) is positioned inside the shell (9), and the sliding frame (7-3) is in sliding fit with the shell (9);

the double-layer cutter (7-1) consists of a rotary blade (7-1-1), a rotating shaft (7-1-2), a positioning sleeve (7-1-3) and a double-layer cutter bearing (7-1-4); two rotary blades (7-1-1) are arranged, and the rotary blades (7-1-1) are fixed on two sides of the rotating shaft (7-1-2); the upper part of the rotating shaft (7-1-2) is fixed with the stirring motor (7-2) through a screw; two positioning sleeves (7-1-3) are arranged, the positioning sleeves (7-1-3) are positioned at the inner side of the rotary blade (7-1-1), and one side of each positioning sleeve (7-1-3) is in contact with the double-layer cutter bearing (7-1-4); the double-layer cutter bearing (7-1-4) is positioned in the middle of the rotating shaft (7-1-2);

the stirring motor (7-2) consists of a stirring motor (7-2) and a stirring motor shaft (7-2-2); the stirring motor (7-2) is fixed on the upper part of the sliding frame (7-3) through a screw; the lower part of the stirring motor shaft (7-2-2) is semi-cylindrical, a threaded hole is processed on the stirring motor shaft (7-2-2), and the stirring motor shaft (7-2-2) is fixed with the rotating shaft (7-1-2) through a screw;

the sliding frame (7-3) consists of a connecting frame (7-3-1), a stirring motor base (7-3-2), a double-layer cutter shaft bearing base (7-3-3) and a sliding chute (7-3-4); six connecting frames (7-3-1) are arranged, and the middle part of each connecting frame (7-3-1) is provided with a stirring motor base (7-3-2); the stirring motor base (7-3-2) is positioned at the upper part of the sliding frame (7-3); two double-layer cutter shaft bearing seats (7-3-3) are arranged, and the double-layer cutter shaft bearing seats (7-3-3) are positioned at the lower part of the sliding frame (7-3); three sliding chutes (7-3-4) are arranged;

the isolation net (8) consists of a driving motor (8-1), a motor frame (8-2), a net shell (8-3), a rotating plate (8-4), a driving screw (8-5) and a driving gear (8-6); the driving motor (8-1) is fixed on the left side of the motor frame (8-2); the right side of the motor frame (8-2) is fixed on the left side of the shell (9); the latticed shell (8-3) is a cuboid; the rotating plate (8-4) is a cuboid, two ends of the rotating plate (8-4) are cylindrical shafts, and the rotating plate (8-4) is connected with the reticulated shell (8-3); the left end of the driving screw rod (8-5) is fixed with a rotating shaft of the driving motor (8-1), and the driving screw rod (8-5) is meshed with the driving gear (8-6); the driving gear (8-6) is fixed at one end of the rotating plate (8-4);

the shell (9) consists of an inlet (9-1), a gear port (9-2), a slide rail (9-3), a filter screen (9-4), a threaded lifting hole (9-5), a tooth column bearing seat (9-6), a slag discharging cover (9-7), a slag discharging port (9-8) and a soybean milk outlet (9-9); the inlet (9-1) is positioned at the upper part of the shell (9), and two positioning rods are welded at the upper part of the inlet (9-1); the gear port (9-2) is positioned on the right side of the shell (9); three sliding rails (9-3) are arranged, and the sliding rails (9-3) are positioned at the upper part of the shell (9); the filter screen (9-4) is positioned at the middle upper part of the shell (9); the thread lifting hole (9-5) is positioned at the middle lower part of the shell (9); four tooth column bearing blocks (9-6) are arranged, and the tooth column bearing blocks (9-6) are positioned at the lower part of the shell (9); the slag discharging cover (9-7) is positioned at the left side of the shell (9), and the slag discharging cover (9-7) is connected with the shell (9) through a pin; the slag discharge port (9-8) is positioned at the left side of the shell (9); the slag discharge port (9-8) is positioned at the left side of the shell (9); the soybean milk outlet (9-9) is positioned at the lower part of the residue discharge port (9-8);

the toothed column (10) consists of a toothed column bearing (10-1) and a toothed column (10-2); two toothed column bearings (10-1) are arranged, the toothed column bearings (10-1) are positioned at two ends of the toothed column (10-2), and the toothed column bearings (10-1) are in interference fit with the toothed column (10-2); teeth are processed in the middle of the toothed column (10-2), the left side of the toothed column (10-2) is meshed with the extrusion net (4), and the right side of the toothed column (10-2) is meshed with the extrusion motor mechanism (5);

the top cover (1) is positioned at the upper part of the shell (9); the lifting motor (2) is positioned at the right upper side of the shell (9); the slag pushing rod (3) is fixed in the middle of the right side of the shell (9); the middle part of the extrusion net (4) is in threaded fit with the shell (9), and the lower part of the extrusion net (4) is meshed with the tooth column (10); the extrusion motor mechanism (5) is fixed at the right lower side of the shell (9); the gas cylinder (6) is fixed at the left part of the shell (9), and the gas cylinder (6) is communicated with the top cover (1); the lifting knife (7) is positioned inside the shell (9), the lifting knife (7) is in sliding fit with the shell (9), and the lifting knife (7) is meshed with the lifting motor (2); the isolation net (8) is positioned in the middle of the shell (9); the upper part of the shell (9) is cylindrical, and the middle lower part of the shell (9) is a cuboid; two tooth columns (10) are arranged, and the tooth columns (10) are meshed with the extrusion motor mechanism (5).

2. The large-scale soybean milk machine of the multifunctional bean product factory according to claim 1, which is characterized in that: the sealing cover (2-1) is made of cast iron.

3. The large-scale soybean milk machine of the multifunctional bean product factory according to claim 1, which is characterized in that: the sliding frame (7-3) is made of aluminum alloy.

4. The large-scale soybean milk machine of the multifunctional bean product factory according to claim 1, which is characterized in that: the shell (9) is made of stainless steel.