阅读说明：本技术 一种高效率自动豆浆机 (High-efficiency automatic soybean milk maker ) 是由 李广保 于 2020-05-25 设计创作，主要内容包括：本发明涉及家用电器技术领域,且公开了一种高效率自动豆浆机,包括外部保护使用装置和豆浆机内部装置,所述外部保护使用装置包括外壳、黄豆放置处、传输道一、传输道二、控制开关、电机固定槽和豆浆排出管,所述豆浆机内部装置内部设有搅拌装置、辅助搅拌装置、传动固定装置、过滤装置、按压装置和风扇阻挡装置,控制开关设于外壳顶端,所述黄豆放置处与传输道一相通,所述传输道一内设有传输带,所述传输道二内设有传输带,所述传输道二与豆浆机内部相通,将豆子导入黄豆放置处,按下控制开关,豆子通过传输道一、落入传输道二后受挤压输送至内部开始榨汁,榨汁结束后通过豆浆排出管用于排出内部豆浆至外部承接容器中。(The invention relates to the technical field of household appliances, and discloses a high-efficiency automatic soybean milk machine, which comprises an external protection using device and an internal device of the soybean milk machine, wherein the external protection using device comprises a shell, a soybean placing part, a first transmission channel, a second transmission channel, a control switch, a motor fixing groove and a soybean milk discharge pipe, a stirring device, an auxiliary stirring device, a transmission fixing device, a filtering device, a pressing device and a fan blocking device are arranged in the internal device of the soybean milk machine, the control switch is arranged at the top end of the shell, the soybean placing part is communicated with the first transmission channel, a transmission belt is arranged in the second transmission channel, the second transmission channel is communicated with the internal part of the soybean milk machine, beans are guided into the soybean placing part and are extruded and conveyed to the internal part to be squeezed after falling into the second transmission channel through, after the juice extraction is finished, the soybean milk discharging pipe is used for discharging the internal soybean milk to the external receiving container.)

1. The utility model provides an automatic soybean milk machine of high efficiency, includes outside protection operative installations (7) and soybean milk machine internal installation (8), 7 outside protection operative installations includes shell (701), soybean place department (702), transmission way (703), transmission way two (704), control switch (707), motor fixed slot (705) and soybean milk discharge pipe (706), its characterized in that: the control switch (707) is arranged at the top end of the shell (701), the soybean placing part (702) is communicated with the first transmission channel (703), a transmission belt is arranged in the second transmission channel (704), and the second transmission channel (704) is communicated with the inside of the soybean milk maker;

a stirring device (1) is arranged in the internal device (8) of the soybean milk machine;

an auxiliary stirring device (2) is arranged in the internal device (8) of the soybean milk machine;

a transmission fixing device (3) is arranged in the internal device (8) of the soybean milk machine;

a filtering device (4) is arranged in the internal device (8) of the soybean milk machine;

a pressing device (5) is arranged in the internal device (8) of the soybean milk machine;

the inside of the internal device (8) of the soymilk machine is provided with a fan blocking device (6).

2. The high-efficiency automatic juice extracting soymilk machine according to claim 1, characterized in that: agitating unit (1) includes motor (101), motor (101) upper end fixed surface is connected with transmission shaft (102), transmission shaft (102) upper end fixed surface is connected with conical gear (103), conical gear (103) upper end fixed surface is connected with transmission shaft two (105), transmission shaft two (105) circumference surface through connection has fixed axle one (104), fixed axle one (104) left side fixed surface is connected with dead lever one (106), fixed axle one (104) right side fixed surface is connected with dead lever two (107), transmission shaft two (105) circumference surface through connection has (mixing) shaft (108).

3. The high-efficiency automatic juice extracting soymilk machine according to claim 1, characterized in that: supplementary agitating unit (2) are including turning block (201), turning block (201) lower extreme fixed surface is connected with transmission shaft two (105), turning block (201) left surface fixedly connected with transfer line one (202), turning block (201) right surface fixedly connected with transfer line two (203), transfer line one (202) left surface fixedly connected with transmission shaft three (204), transmission shaft three (204) lower extreme fixed surface is connected with supplementary stirring gyro wheel one (205), transfer line two (203) right surface fixedly connected with transmission shaft four (206), transmission shaft four (206) lower extreme fixed surface is connected with supplementary stirring gyro wheel two (207).

4. The high-efficiency automatic juice extracting soymilk machine according to claim 1, characterized in that: the transmission fixing device (3) comprises a conical gear II (301) and a conical gear III (302), the conical gear II (301) is meshed with the conical gear I (103), the conical gear III (302) is meshed with the conical gear I (103), the right side surface of the conical gear III (302) is fixedly connected with a transmission shaft V (303), the right side surface of the transmission shaft V (303) is fixedly connected with a conical gear IV (304), the right side surface of the conical gear IV (304) is fixedly connected with a transmission shaft VI (305), the right side surface of the transmission shaft VI (305) is fixedly connected with a conical gear V (306), the gear V (306) is meshed with a conical gear VI (307), the upper end surface of the conical gear VI (307) is fixedly connected with a transmission shaft VII (311), the circumferential surface of the transmission shaft VII (311) is connected with a fixed shaft II (309) in a penetrating manner, and the left side surface of the fixed shaft II (309, the right side surface of the second fixing shaft (309) is fixedly connected with a fourth fixing rod (310), the fourth conical gear (304) is meshed with a seventh conical gear (312), the upper end surface of the seventh conical gear (312) is fixedly connected with an eighth transmission shaft (316), the circumferential surface of the eighth transmission shaft (316) is connected with a third fixing shaft (314) in a penetrating mode, the left side surface of the third fixing shaft (314) is fixedly connected with a fifth fixing rod (313), and the right side surface of the third fixing shaft (314) is fixedly connected with a sixth fixing rod (315).

5. The high-efficiency automatic juice extracting soymilk machine according to claim 1, characterized in that: filter equipment (4) includes nine (401) of transmission shaft, nine (401) right flank fixedly connected with bevel gear two (301) of transmission shaft, nine (401) left flank upper end fixedly connected with fixed axle four (402) of transmission shaft, fixed axle four (402), four (402) left flank fixedly connected with dead lever seven (403) of fixed axle, dead lever seven (403) sliding connection has spout one (404), spout one (404) left flank fixedly connected with dead lever eight (405), dead lever seven (403) upper end fixed surface is connected with filter screen (406).

6. The high-efficiency automatic juice extracting soymilk machine according to claim 1, characterized in that: the pressing device (5) comprises a fifth fixing shaft (501), the lower end surface of the fifth fixing shaft (501) is fixedly connected with a seventh transmission shaft (311), the upper end surface of the fifth fixing shaft (501) is fixedly connected with an eighth bevel gear (502), the eighth bevel gear (502) is meshed with a ninth bevel gear (503), the front side surface of the ninth bevel gear (503) is fixedly connected with a fixing shaft (504), the circumferential surface of the fixing shaft (504) is connected with a seventh fixing shaft (505) in a penetrating manner, the left side surface of the seventh fixing shaft (505) is fixedly connected with a tenth fixing rod (507), the seventh fixing shaft (505) is fixedly connected with a ninth fixing rod (506) on the side surface, the front side surface of the fixing shaft (504) is fixedly connected with a first fixing block (508), the front side surface of the first fixing block (508) is fixedly connected with a third transmission rod, the front side surface of the second sliding groove (510) is fixedly connected with a fixing rod eleven (511), and the surface of the lower end of the third transmission rod (509) is fixedly connected with a squeezing plate (512).

7. The high-efficiency automatic juice extracting soymilk machine according to claim 1, characterized in that: the fan blocking device (6) comprises a fixed shaft eight (601), the lower end surface of the fixed shaft eight (601) is fixedly connected with a transmission shaft seven (311), the upper end surface of the fixed shaft eight (601) is fixedly connected with a bevel gear ten (602), the bevel gear ten (602) is meshed with a bevel gear eleven (603), the right side surface of the bevel gear eleven (603) is fixedly connected with a transmission shaft ten (604), the circumferential surface of the transmission shaft ten (604) is connected with a fixed shaft nine (605) in a penetrating manner, the front side surface of the fixed shaft nine (605) is fixedly connected with a fixed rod twelve (606), the back side surface of the fixed shaft nine (605) is fixedly connected with a fixed rod thirteen (607), the right side surface of the transmission shaft ten (604) is fixedly connected with a transmission shaft eleven (608), the top end of the right side surface of the transmission shaft eleven (608) is fixedly, the fixing rod thirteen (607) is fixedly connected with four blocking plates (609).

8. The high-efficiency automatic juice extracting soymilk machine according to claim 1, characterized in that: and a stirring shaft (108) in the stirring device (1) of the automatic soybean milk machine, and a first auxiliary stirring roller (205) and a second auxiliary stirring roller (207) in the auxiliary stirring device (2) are provided with cutting blades.

Technical Field

The invention relates to the technical field of household appliances, in particular to a high-efficiency automatic soybean milk machine.

Background

With the increasing emphasis on health, many families choose to make soybean milk for cleanness and sanitation, and thus the market of the household microcomputer full-automatic soybean milk machine is pulled. The soybean milk has high nutritive value, and is an ideal health food. According to the introduction of experts, the soybean milk contains various high-quality proteins, various vitamins, various amino acids necessary for human bodies, various trace elements and the like. The health-care tea is suitable for adults, old people and children, and is beneficial to improving the physique and the immunity and preventing and treating diseases as long as the people insist on drinking. The soybean milk is drunk in spring and autumn, so that yin is nourished, dryness is moistened, and yin and yang are harmonized; the soybean milk is drunk in summer, so that the effects of clearing heat, preventing heatstroke, promoting fluid production and quenching thirst are achieved; the soybean milk is drunk in winter, so that the cold is removed, the stomach is warmed, and the nourishing and tonifying effects are achieved.

However, the existing soybean milk machine has lower working efficiency, so that filter residues are larger, and the soybean milk machine is not beneficial to drinking.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides a high-efficiency automatic soybean milk machine which has the advantages of high efficiency and the like and solves the problems of large filter residue and inconvenience in drinking.

(II) technical scheme

In order to achieve the high efficiency, the invention provides the following technical scheme: the utility model provides an automatic soybean milk machine of high efficiency, includes outside protection operative installations and soybean milk machine internal installation, and outside protection operative installations includes that the shell, soybean place the department, transmission way one, transmission way two, control switch, motor fixed slot and soybean milk discharge pipe, and control switch locates the shell top, and the soybean place the department and communicate with each other with transmission way one, is equipped with the transmission band in the transmission way two, and transmission way two communicates with each other with the soybean milk machine is inside.

A stirring device is arranged in the internal device of the soybean milk machine;

an auxiliary stirring device is arranged in the internal device of the soybean milk machine;

a transmission fixing device is arranged in the internal device of the soybean milk machine;

a filtering device is arranged in the internal device of the soymilk machine;

a pressing device is arranged in the internal device of the soymilk machine;

the inside of the internal device of the soymilk machine is provided with a fan blocking device.

Preferably, agitating unit includes the motor, and motor upper end fixed surface is connected with transmission shaft one, and transmission shaft one upper end fixed surface is connected with conical gear one, and conical gear one upper end fixed surface is connected with transmission shaft two, and two circumferential surfaces of transmission shaft run through and are connected with fixed axle one, and fixed axle one left side fixedly connected with dead lever one, fixed axle one right side fixedly connected with dead lever two, and two circumferential surfaces of transmission shaft run through and are connected with the (mixing) shaft.

Preferably, the auxiliary stirring device comprises a rotating block, a transmission shaft II is fixedly connected to the surface of the lower end of the rotating block, a transmission rod I is fixedly connected to the left side face of the rotating block, a transmission rod II is fixedly connected to the right side face of the rotating block, a transmission shaft III is fixedly connected to the left side face of the transmission rod I, an auxiliary stirring roller I is fixedly connected to the surface of the lower end of the transmission shaft III, a transmission shaft IV is fixedly connected to the right side face of the transmission rod II, and an auxiliary stirring roller II is fixedly.

Preferably, the transmission fixing device comprises a conical gear II and a conical gear III, the conical gear II is meshed with the conical gear I, the conical gear III is meshed with the conical gear I, the right side of the conical gear III is fixedly connected with a transmission shaft V, the right side of the transmission shaft V is fixedly connected with a conical gear IV, the right side of the conical gear IV is fixedly connected with a transmission shaft VI, the right side of the transmission shaft VI is fixedly connected with the conical gear V, the gear V is meshed with the conical gear VI, the upper end surface of the conical gear VI is fixedly connected with a transmission shaft VII, the circumferential surface of the transmission shaft VII is connected with a fixed shaft II in a penetrating way, the left side of the fixed shaft II is fixedly connected with a fixed rod III, the right side of the fixed shaft II is fixedly connected with a fixed rod IV, the conical gear IV is meshed with the conical gear VII, the upper end surface of the conical, the right side surface of the third fixed shaft is fixedly connected with a sixth fixed rod.

Preferably, the filtering device comprises a ninth transmission shaft, a second bevel gear is fixedly connected to the right side face of the ninth transmission shaft, a fourth fixed shaft is fixedly connected to the upper end of the left side face of the ninth transmission shaft, a fourth fixed shaft is fixedly connected to the fourth left side face of the fixed shaft, a seventh fixed shaft is fixedly connected to the seventh fixed shaft, the seventh fixed shaft is slidably connected with a first sliding groove, a eighth fixed shaft is fixedly connected to the left side face of the first sliding groove, and a filter screen is.

Preferably, the pressing device comprises a fifth fixing shaft, the lower end surface of the fifth fixing shaft is fixedly connected with a seventh transmission shaft, the upper end surface of the fifth fixing shaft is fixedly connected with an eighth conical gear, the eighth conical gear is meshed with a ninth conical gear, the front side surface of the ninth conical gear is fixedly connected with a fixing shaft, the circumferential surface of the fixing shaft is connected with the seventh fixing shaft in a penetrating manner, the left side surface of the seventh fixing shaft is fixedly connected with a tenth fixing rod, the seventh fixing shaft is fixedly connected with a ninth fixing rod on the side surface, the front side surface of the fixing shaft is fixedly connected with a first fixing block, the front side surface of the first fixing block is fixedly connected with a third transmission rod, the three.

Preferably, the fan blocking device comprises an eighth fixed shaft, the lower end of the eighth fixed shaft is fixedly connected with a seventh transmission shaft, the upper end of the eighth fixed shaft is fixedly connected with a tenth conical gear, the tenth conical gear is meshed with a eleventh conical gear, the eleventh conical gear is fixedly connected with a tenth transmission shaft on the right side, the ten circumferential surfaces of the tenth transmission shaft are in through connection with a ninth fixed shaft, the nine front side of the ninth fixed shaft is fixedly connected with a twelfth fixed rod, the nine back side of the ninth fixed shaft is fixedly connected with a thirteenth fixed rod, the eleventh transmission shaft is fixedly connected with a eleventh transmission shaft, the top end of the eleventh transmission shaft on the right side is fixedly connected with four fixed blocks, the four fixed blocks.

Preferably, a stirring shaft in the stirring device of the automatic soymilk machine, and a first auxiliary stirring roller and a second auxiliary stirring roller in the auxiliary stirring device are provided with cutting blades.

(III) advantageous effects

Compared with the prior art, the invention provides a high-efficiency automatic soybean milk machine, which has the following beneficial effects:

1. the high-efficiency automatic soybean milk maker is fixedly connected with the transmission shaft through the motor, so that the motor drives the transmission shaft to rotate when rotating, the transmission shaft rotates to drive the first bevel gear to rotate, the transmission shaft rotates to drive the second transmission shaft to rotate, the second transmission shaft rotates to drive the stirring shaft to rotate, the first fixed shaft, the first fixed rod and the second fixed rod play a role in fixing the second transmission shaft, the motor rotates to enable the stirring shaft to rotate at a high speed to form a vortex, water and beans on the stirring shaft are pumped to the blades, the beans passing through the blades are cut at a high speed and then return to the stirring shaft to form

2. This automatic soybean milk machine of high efficiency rotates through transmission shaft two and drives the turning block and rotate, and the turning block rotates and drives transmission pole one and transmission pole two rotatory, and transmission pole one makes transmission shaft three and transmission shaft four rotatoryly with transmission pole two rotation to drive supplementary stirring gyro wheel one and supplementary stirring gyro wheel two and rotate, supplementary stirring gyro wheel one and supplementary stirring gyro wheel two rotate and make the soybean by two supplementary stirring gyro wheels cutting at rotatory in-process, effectively accelerated work efficiency.

3. This automatic soybean milk machine of high efficiency, the filter screen is the up-and-down motion form, and the disintegrating slag of beans is more difficult to stop on the filter screen surface, prevents the jam phenomenon.

4. This automatic soybean milk machine of high efficiency can extrude beans through the stripper plate during up-and-down motion, and the inside juice of discharge beans makes the weight reduction of beans more easily driven by the swirl simultaneously, has improved work efficiency.

5. This automatic soybean milk machine of high efficiency, through when four blocks stop plate rotate the beans can the spaced drop to the extrusion area of extruded sheet in, make beans can not block up under the extrusion area of extruded sheet, guaranteed press device's stability, improved work efficiency.

6. According to the high-efficiency automatic soybean milk machine, the control switch is pressed, beans are squeezed and conveyed to the inside through the first transmission channel and the second transmission channel and begin to be squeezed into juice, and the soybean milk is discharged into the external receiving container through the soybean milk discharge pipe after the juice is squeezed, so that the high-efficiency automatic soybean milk machine is a full-automatic facility and reduces manual labor.

Drawings

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

FIG. 2 is a schematic structural view of the internal device of the soymilk machine of the invention;

FIG. 3 is an enlarged view of a portion of the structure A of the present invention;

FIG. 4 is an enlarged view of a portion of the structure B of the present invention;

FIG. 5 is an enlarged view of a portion of the structure C of the present invention;

fig. 6 is a partially enlarged view of the structure D of the present invention.

In the figure: 1 stirring device, 2 auxiliary stirring device, 3 transmission fixing device, 4 filtering device, 5 pressing device, 6 fan blocking device, 7 external protection using device, 8 internal device of soybean milk machine, 101 motor, 102 transmission shaft I, 103 conical gear I, 104 fixing shaft I, 105 transmission shaft II, 106 fixing rod I, 107 fixing rod II, 108 stirring shaft, 201 rotating block, 202 transmission shaft I, 203 transmission shaft II, 204 transmission shaft III, 205 auxiliary stirring roller I, 206 transmission shaft IV, 207 auxiliary stirring roller II, 301 conical gear II, 302 conical gear III, 303 transmission shaft V, 304 conical gear IV, 305 transmission shaft VI, 306 conical gear V, 307 conical gear VI, 308 fixing rod III, 309 fixing shaft II, 310 fixing rod IV, 311 transmission shaft VII, 312 conical gear VII, 313 fixing rod V, 314 fixing shaft III, 315 fixing rod VI, 316 transmission shaft eight, 401 transmission shaft nine, nine conical gear V, 307 conical gear III, 308 fixing rod III, 309 fixing shaft II, 310 fixing rod IV, 311 transmission, 402 fixed shaft four, 403 fixed shaft seven, 404 fixed shaft one, 405 fixed shaft eight, 406 filter screen, 501 fixed shaft five, 502 conical gear eight, 503 conical gear nine, 504 fixed shaft six, 505 fixed shaft seven, 506 fixed shaft nine, 507 fixed shaft ten, 508 fixed block one, 509 drive rod three, 510 sliding groove two, 511 fixed shaft eleven, 512 extrusion plate, 601 fixed shaft eight, 602 conical gear ten, 603 conical gear eleven, 604 drive shaft ten, 605 fixed shaft nine, 606 fixed shaft twelve, 607 fixed shaft thirteen, 608 drive shaft eleven, 609 block plate, 610 fixed block, 701 shell, 702 soybean placing position, 703 transmission channel one, 704 transmission channel two, 705 motor fixed groove, 706 soybean milk discharge pipe, 707 control switch.

Detailed Description

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

2. Referring to fig. 1-6, the present invention provides the following technical solutions: an automatic high-efficiency soybean milk maker comprises an external protection using device 7 and an internal device 8 of the soybean milk maker, wherein the external protection using device 7 of 7 comprises a shell 701, a soybean placing part 702, a first transmission channel 703, a second transmission channel 704, a control switch 707, a motor fixing groove 705 and a soybean milk discharging pipe 706, the control switch 707 is arranged at the top end of the shell 701, the soybean placing part 702 is communicated with the first transmission channel 703, a transmission belt is arranged in the second transmission channel 704, and the second transmission channel 704 is communicated with the inside of the soybean milk maker.

The stirring device 1 is arranged in the internal device 8 of the soybean milk machine;

an auxiliary stirring device 2 is arranged in the internal device 8 of the soymilk machine;

the transmission fixing device 3 is arranged in the internal device 8 of the soybean milk machine;

the inside of the internal device 8 of the soymilk machine is provided with a filtering device 4;

the pressing device 5 is arranged in the internal device 8 of the soymilk machine;

the inside of the internal device 8 of the soymilk machine is provided with a fan blocking device 6.

The stirring device 1 comprises a motor 101, a first transmission shaft 102 is fixedly connected to the upper end surface of the motor 101, a first conical gear 103 is fixedly connected to the upper end surface of the first transmission shaft 102, a second transmission shaft 105 is fixedly connected to the upper end surface of the first conical gear 103, a first fixed shaft 104 is connected to the circumferential surface of the second transmission shaft 105 in a penetrating manner, a first fixed rod 106 is fixedly connected to the left side surface of the first fixed shaft 104, a second fixed rod 107 is fixedly connected to the right side surface of the first fixed shaft 104, a stirring shaft 108 is connected to the circumferential surface of the second transmission shaft 105 in a penetrating manner, the second transmission shaft 105 is driven to rotate by the rotation of the motor 101, the stirring shaft 108 is driven to rotate by the rotation of the second transmission shaft 105, the first fixed shaft 104, the first fixed rod 106 and the second fixed rod 107 play a role, the right side surface of the rotating block 201 is fixedly connected with a second transmission rod 203, the left side surface of the first transmission rod 202 is fixedly connected with a third transmission shaft 204, the lower end surface of the third transmission shaft 204 is fixedly connected with a first auxiliary stirring roller 205, the right side surface of the second transmission rod 203 is fixedly connected with a fourth transmission shaft 206, the lower end surface of the fourth transmission shaft 206 is fixedly connected with a second auxiliary stirring roller 207, the first transmission rod 202 and the second transmission rod 203 rotate to enable the third transmission shaft 204 and the fourth transmission shaft 206 to rotate so as to drive the first auxiliary stirring roller 205 and the second auxiliary stirring roller 207 to rotate, the transmission fixing device 3 comprises a second conical gear 301 and a third conical gear 302, the second conical gear 301 is meshed with the first conical gear 103, the third conical gear 302 is meshed with the first conical gear 103, the right side surface of the third conical gear 302 is fixedly connected with a fifth transmission shaft 303, a bevel gear five 306 is fixedly connected to the right side surface of the transmission shaft six 305, a bevel gear six 307 is meshed with the gear five 306, a transmission shaft seven 311 is fixedly connected to the upper end surface of the bevel gear six 307, a fixed shaft two 309 is connected to the circumferential surface of the transmission shaft seven 311 in a penetrating manner, a fixed rod three 308 is fixedly connected to the left side surface of the fixed shaft two 309, a fixed rod four 310 is fixedly connected to the right side surface of the fixed shaft two 309, a bevel gear seven 312 is meshed with the bevel gear four 304, a transmission shaft eight 316 is fixedly connected to the upper end surface of the bevel gear seven 312, a fixed shaft three 314 is connected to the circumferential surface of the transmission shaft eight 316 in a penetrating manner, a fixed rod five 313 is fixedly connected to the left side surface of the fixed shaft three 314, a fixed rod six 315 is fixedly connected to the right side surface of the fixed shaft three 314, when the transmission, the filtering device 4 comprises a transmission shaft nine 401, the right side surface of the transmission shaft nine 401 is fixedly connected with a bevel gear II 301, the upper end of the left side surface of the transmission shaft nine 401 is fixedly connected with a fixed shaft IV 402, the fixed shaft IV 402 is fixedly connected with a fixed rod VII 403, the fixed rod VII 403 is slidably connected with a chute I404, the left side surface of the chute I404 is fixedly connected with a fixed rod VIII 405, the upper end surface of the fixed rod VII 403 is fixedly connected with a filter screen 406, the transmission shaft nine 401 is driven to rotate when the bevel gear II 301 rotates, the transmission shaft nine 401 rotates to drive the fixed shaft IV 402 to rotate, the filter screen 406 moves up and down when the fixed shaft IV 402 rotates through the fixed rod VII 403, the pressing device 5 comprises a fixed shaft five 501, the lower end surface of the fixed shaft five 501 is fixedly connected with a transmission shaft VII 311, the upper end surface of, the front side surface of the conical gear nine 503 is fixedly connected with a fixed shaft 504, the circumferential surface of the fixed shaft 504 is connected with a fixed shaft seven 505 in a penetrating way, the left side surface of the fixed shaft seven 505 is fixedly connected with a fixed rod ten 507, the side surface of the fixed shaft seven 505 is fixedly connected with a fixed rod nine 506, the front side surface of the fixed shaft 504 is fixedly connected with a fixed block one 508, the front side surface of the fixed block one 508 is fixedly connected with a transmission rod three 509, the surface of the transmission rod three 509 is connected with a sliding groove two 510 in a sliding way, the front side surface of the sliding groove two 510 is fixedly connected with a fixed rod eleven 511, the lower end surface of the transmission rod three 509 is fixedly connected with a squeezing plate 512, when the transmission shaft eight 316 rotates, the fixed shaft five 501 rotates, the conical gear eight 502 and the conical gear nine 503 are driven to, the fan blocking device 6 comprises a fixed shaft eight 601, the lower end surface of the fixed shaft eight 601 is fixedly connected with a transmission shaft seven 311, the upper end surface of the fixed shaft eight 601 is fixedly connected with a bevel gear ten 602, the bevel gear ten 602 is engaged with a bevel gear eleven 603, the right side surface of the bevel gear eleven 603 is fixedly connected with a transmission shaft ten 604, the circumferential surface of the transmission shaft ten 604 is connected with a fixed shaft nine 605 in a penetrating way, the front side surface of the fixed shaft nine 605 is fixedly connected with a fixed rod twelve 606, the back side surface of the fixed shaft nine 605 is fixedly connected with a fixed rod thirteen 607, the right side surface of the transmission shaft ten 604 is fixedly connected with a transmission shaft eleven 608, the top end of the right side surface of the transmission shaft eleven 608 is fixedly connected with four fixed blocks 610, the four fixed rods 609 are respectively and fixedly connected with the four blocking plates 609, when, the eleventh bevel gear 603 rotates to drive the tenth transmission shaft 604 to rotate so that the eleventh transmission shaft 608 rotates, the eleventh transmission shaft 608 rotates to drive the four fixed blocks 610 to rotate so as to drive the four blocking plates 609 to rotate, and the stirring shaft 108 in the stirring device 1 of the automatic soymilk grinder and the first auxiliary stirring roller 205 and the second auxiliary stirring roller 207 in the auxiliary stirring device 2 are provided with cutting blades.

When in use:

the first step is as follows: because the motor 101 and the transmission shaft 102 are fixedly connected, the transmission shaft 102 is driven to rotate when the motor 101 rotates, the transmission shaft 102 rotates to drive the first conical gear 103 to rotate, the transmission shaft 102 rotates to drive the second transmission shaft 105 to rotate, the second transmission shaft 105 rotates to drive the stirring shaft 108 to rotate, the first fixed shaft 104, the first fixed rod 106 and the second fixed rod 107 play a role of fixing the second transmission shaft 105, the motor rotates to enable the stirring shaft 108 to rotate at a high speed to form a vortex, so that water and beans on the stirring shaft are pumped to the blades, the beans passing through the blades are cut at a high speed and then return to the upper side to form circulation, and.

The second step is that: the second transmission shaft 105 rotates to drive the rotating block 201 to rotate, the rotating block 201 rotates to drive the first transmission rod 202 and the second transmission rod 203 to rotate, the first transmission rod 202 and the second transmission rod 203 rotate to drive the third transmission shaft 204 and the fourth transmission shaft 206 to rotate, so that the first auxiliary stirring roller 205 and the second auxiliary stirring roller 207 are driven to rotate, the first auxiliary stirring roller 205 and the second auxiliary stirring roller 207 rotate to enable soybeans to be cut by the two auxiliary stirring rollers in the rotating process, and the working efficiency is effectively accelerated.

The third step: when the first bevel gear 103 rotates, the second bevel gear 301 and the third bevel gear 302 are driven to rotate, when the third bevel gear 302 rotates, the fifth transmission shaft 303 rotates, when the fifth transmission shaft 303 rotates, the fourth bevel gear 304 and the sixth transmission shaft 305 rotate, the sixth transmission shaft 305 rotates, the fifth bevel gear 306 rotates, the sixth bevel gear 307 rotates, when the sixth bevel gear 307 rotates, the seventh transmission shaft 311 rotates, the second fixing shaft 309, the third fixing rod 308 and the fourth fixing rod 310 function to fix the seventh transmission shaft 311, the fourth bevel gear 304 rotates to drive the seventh bevel gear 312 to rotate, when the seventh bevel gear 312 rotates, the eighth transmission shaft 316 rotates, and when the third fixing shaft 314, the fifth fixing rod 313 and the sixth fixing rod 315 function to fix the eighth transmission shaft 316.

The fourth step: when the second bevel gear 301 rotates, the ninth transmission shaft 401 is driven to rotate, the ninth transmission shaft 401 rotates to drive the fourth fixed shaft 402 to rotate, when the fourth fixed shaft 402 rotates, the filter screen 406 moves up and down through the first fixed rod seven 403, the first chute 404 is used for fixing the seventh fixed rod 403, and the eighth fixed rod 405 is used for fixing the first chute 404.

The fifth step: when the driving shaft eight 316 rotates, the fixing shaft five 501 is driven to rotate, the fixing shaft five 501 rotates to drive the bevel gear eight 502 to rotate, the bevel gear eight 502 rotates to drive the bevel gear nine 503 to rotate, the bevel gear nine 503 rotates to enable the fixing shaft six 504 to rotate so as to drive the fixing block one 508 to rotate, the fixing block one 508 rotates to drive the extrusion plate 512 to move up and down through the transmission rod three 509, the sliding groove two 510 is used for fixing the transmission rod three 509, the fixing rod eleven 511 is used for fixing the sliding groove two 510, the fixing shaft seven 505, the fixing rod nine 506 and the fixing rod ten 507 are used for fixing the fixing shaft six 504, when the extrusion plate 512 moves up and down, beans can be extruded, juice in the beans is discharged, meanwhile, the weight of the beans is reduced.

And a sixth step: when the seven 311 rotating transmission shaft drives the eight 601 rotating fixed shaft, the eight 601 rotating fixed shaft drives the ten 602 rotating bevel gear, the ten 602 rotating bevel gear drives the eleven 603 rotating bevel gear, the eleven 603 rotating bevel gear drives the ten 604 rotating transmission shaft to rotate the eleven 608 rotating transmission shaft, the eleven 608 rotating transmission shaft drives the four fixed blocks 610 to rotate so as to drive the four blocking plates 609 to rotate, the nine 605 fixed shaft, the twelve fixed rod 606 and the thirteen fixed rod 607 fixed shaft are used for fixing the ten 604 rotating transmission shaft, when the four blocking plates 609 rotating, beans fall into the extrusion area of the extrusion plate 512 at intervals, so that the beans do not block the extrusion area of the extrusion plate 512, and the stability of the pressing device 5 is ensured.

The seventh step: the motor fixing groove 705 is used for fixing the motor 101, the first transmission channel 703 and the second transmission channel 704 are used for conveying beans, the control switch 707 is used for controlling the equipment to be opened and closed, the soybean milk discharging pipe 706 is used for discharging the soybean milk inside, the beans are guided into the soybean placing position 702, the control switch 707 is pressed, the beans fall into the second transmission channel 704 through the first transmission channel 703 and then are squeezed and conveyed to the inside to be squeezed, and the soybean milk inside is discharged into an external receiving container through the soybean milk discharging pipe 706 after the juice squeezing is finished.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.