Soybean milk processing equipment for industrial production
Technical Field
The invention relates to the technical field of soybean milk production, in particular to soybean milk processing equipment for industrial production.
Background
The soybean milk is taken as a unique food of Chinese people, is simple to prepare and rich in raw materials, simultaneously has functions of waste materials generated in the preparation process, and becomes one of favorite morning nutritional foods of Chinese people, but the conventional soybean milk is prepared and eaten by the family, some sold soybean milk is also prepared by the merchant, industrialization is not formed in the soybean milk production, or the industrialization degree is shallow due to the simple preparation, the taste and the mouthfeel of the soybean milk prepared by the family are different due to the multiple filtration, the prepared soybean milk needs to be treated by multiple filtration processes, the soybean hull and particle impurities contained in the soybean milk are reduced, but the industrialization is shallow, the time required by multiple filtration processes is long, and the simple filtration cannot ensure complete filtration of the impurities of the soybean milk in order to ensure the yield of the soybean milk, thereby affecting the taste of the soybean milk and the popularization of the soybean milk. Therefore, a soybean milk processing device for industrial production is needed.
Disclosure of Invention
Technical problem to be solved
Aiming at the defects of the prior art, the invention provides a soybean milk processing device for industrial production, which has the advantages of facilitating the industrialization of the soybean milk production, improving the production efficiency of the soybean milk and the like, and solves the problems that the soybean milk produced by a family is different in taste and mouthfeel because no industrialization is formed in the soybean milk production all the time, or the industrialization degree is low because the soybean milk is simple to produce, and the soybean milk produced by the family is required to be filtered for many times, so that the produced soybean milk needs to be treated by various filtering processes, the soybean hull and particle impurities contained in the soybean milk are reduced, but the industrialization is shallow, the time required by various filtering processes is long, and the simple filtering can not ensure the complete filtration of the impurities in the soybean milk in order to ensure the yield of the soybean milk, so that the mouthfeel of the soybean milk is influenced.
(II) technical scheme
In order to realize the purposes of facilitating the industrialization of the soybean milk production and improving the production efficiency of the soybean milk, the invention provides the following technical scheme: a soybean milk processing device for industrial production comprises a shell, wherein a material injection hole is formed in the top end of the shell, a first movable bin is formed below the material injection hole and inside the shell, the material injection hole is communicated with the first movable bin, a grinding device is movably mounted in the first movable bin, a stirring device is arranged above the grinding device, a first movable slot and a water tank are formed in the top end of the shell, a first communicating pipe is communicated with the lower portion of the first movable bin, a second movable bin is formed in the side wall of the first movable slot and below the first movable bin, a first filtering device is arranged in the second movable bin, the second movable bin is communicated with the first communicating pipe, a second communicating pipe is communicated with the lower portion of the second movable bin, a third movable bin is formed in the shell and below the second communicating pipe, the second communicating pipe is communicated with the three phases of the movable bins, a second filtering device is arranged in the third movable bin, a funnel is communicated with the lower part of the movable bin III, the movable slot I and the water tank are divided and blocked by the funnel, and the funnel extends to the lower part of the shell;
the first movable groove is designed to be of a step shape, a brake rod is movably mounted inside the first movable groove, and a brake toothed plate is fixedly mounted on one side of the brake rod.
Preferably, the grinding device comprises a lower grinding block, a supporting block is fixedly installed at the center of the lower part of the lower grinding block, the lower grinding block is movably installed at the bottom of a first movable bin through the supporting block, an upper grinding block is placed above the lower grinding block and is arranged in the first movable bin, a gap is formed between the upper grinding block and the lower grinding block, a communication hole is formed at the center of the upper grinding block and is communicated with a material injection hole, the communication hole is also communicated with the gap between the upper grinding block and the lower grinding block, and a convex block is fixedly installed at the center of the upper surface of the lower grinding block;
go up the abrasive brick and all be provided with the gear with the surface of abrasive brick down, it has the linkage fluted disc to go up the simultaneous meshing on abrasive brick and the lower abrasive brick, fixed mounting has the rotary rod on the linkage fluted disc, the rotary rod extends to the activity inslot from activity storehouse one in, just the one end fixed mounting of rotary rod in the activity inslot has the braking fluted disc, the braking fluted disc meshes with the braking fluted disc mutually.
Preferably, a movable groove II is formed between the movable groove I and the material injection hole and above the left side of the movable bin I, the shifting device is arranged in the movable groove II and comprises a shifting rod I, one end of the shifting rod I extends into the movable groove I, the shifting rod I is meshed with the brake gear plate, a connecting rod I is fixedly installed at the center of the shifting rod I, the shifting rod I is movably installed in the movable groove II through a bearing, a spring I is fixedly installed at the right end of the shifting rod I, a shifting rod II is fixedly installed on the spring I, the shifting rod II is movably installed in the movable groove II in the same mode of the shifting rod I, the right end of the shifting rod II extends into the material injection hole, an embedded column is fixedly installed at the right end of the shifting rod II, and the embedded column is designed to be conical.
Preferably, the first filtering device comprises two limiting plates, a second spring is fixedly mounted between the two limiting plates, and a grid is movably mounted between the two limiting plates.
Preferably, the left end of the second movable bin is communicated with the first movable slot, the left side is movably mounted in the second movable bin, the size of the limiting plate is matched with that of the second movable bin, and the limiting plate is fixedly mounted on the right side wall surface of the second movable bin.
Preferably, a water distribution plate and a water collection plate are fixedly mounted on the limiting plate close to one side of the movable groove, the water distribution plate and the water collection plate are arranged between the two limiting plates, a water distribution bin is arranged inside the water distribution plate, a water inlet is formed in the top end of the water distribution plate, the water inlet is communicated with the water distribution bin, a water distribution hole is formed in the lower wall surface of the water distribution bin, the water distribution hole is communicated with the space between the water distribution bin and the two limiting plates, a water collection hole is formed in the position, matched with the water inlet, of the water collection plate, and the upper surface of the water collection plate is inclined;
the water injection pipe is fixedly installed on the left side of the water tank and communicated to the second movable bin, a water outlet pipe is fixedly installed below the second movable bin, and the water outlet pipe is communicated with the second movable bin.
Preferably, the second filtering device comprises a movable box, the movable box is placed in the third movable bin, an arc-shaped soft board is fixedly installed on the right side of the movable box, four pieces of cotton gauze are fixedly installed on the right side of the arc-shaped soft board, and the four pieces of cotton gauze are respectively installed on the wave crests and the wave troughs of the movable block;
the movable block is movably placed in the space between the movable box and the arc-shaped soft board, and a limiting block is fixedly installed at an outlet below the movable box.
Every equal fixed mounting has spring three on the cotton gauze, every spacing section of thick bamboo, four has all been cup jointed to the outside of spring three the one end setting of cotton gauze connecting spring three is in spacing section of thick bamboo, four fixed mounting has the fixed plate on the spacing section of thick bamboo, the fixed plate activity is placed in movable bin three.
(III) advantageous effects
Compared with the prior art, the invention provides soybean milk processing equipment for industrial production, which has the following beneficial effects:
1. this soybean milk processing equipment for industrial production utilizes grinder, filter equipment one and the second filter equipment of filter equipment in the casing to grind and filter, accomplishes a whole flow, until producing high-quality soybean milk, has reduced the operation waste of raw materials when carrying on transferring between each step, and the while is whole flow integration, and the industrialization of the soybean milk production of being convenient for has improved the production efficiency of soybean milk.
2. This soybean milk processing equipment for industrial production, after the soybean enters into the last abrasive brick from the intercommunicating pore, utilize the guide effect of protruding piece can lead the soybean to the gap department between last abrasive brick and the lower abrasive brick, played the effect of location and direction, improved the efficiency that the soybean ground.
3. This soybean milk processing equipment for industrial production, when the brake lever operates from top to bottom, utilize the rotation effect between abrasive brick and the lower abrasive brick, can with the downthehole soybean of intercommunication in last abrasive brick with lower abrasive brick pivoted the extrusion go up the gap between abrasive brick and the lower abrasive brick, utilize abrasive brick and lower abrasive brick antiport's grinding action, reach the effect of grinding the soybean, just go up the equal design of the face of being close to of abrasive brick and lower abrasive brick and be the slope form, in the soybean enters into the gap between abrasive brick and the lower abrasive brick, the soybean milk a after the grinding of being convenient for simultaneously flows from the gap between abrasive brick and the last abrasive brick.
4. This soybean milk processing equipment for industrial production, when the brake lever function, the brake lever drives poker rod one at activity inslot internal rotation, and poker rod one stirs poker rod two at activity inslot two internal rotations this moment to make the embedding post strike the downthehole soybean of intercommunication repeatedly from top to bottom, be convenient for the soybean enter into the gap between last abrasive brick and the lower abrasive brick, improved the efficiency that the soybean ground.
5. This soybean milk processing equipment for industrial production moves pole two and can also utilize the power of holding of spring one to rotate when the poker rod one does not rotate, has improved the reciprocal rotation frequency of poker rod two simultaneously, has improved the efficiency that the embedding post knocked the soybean.
6. This soybean milk processing equipment for industrial production utilizes the toper characteristic of embedding post, and the embedding post can not totally seal the intercommunicating pore when the embedding post strikes the soybean, can make the downthehole more soybeans of notes material enter into the intercommunicating pore when the embedding post strikes the soybean, has improved the efficiency that the soybean ground.
7. This soybean milk processing equipment is used in industrial production, the soybean milk a that grinds flows into in the activity storehouse two from communicating pipe one, soybean milk a drips on spring two after, utilize spring two can cut soybean milk a and filter, can filter the skin of beancurd that contains in the soybean milk a, carry out prefilter, soybean milk a drips on the grid after spring two filters simultaneously, after the filtration of grid again, obtain soybean milk b, the soybean milk that makes after twice filtration contains grinds granule still less, the quality of soybean milk has been improved.
8. This soybean milk processing equipment for industrial production utilizes reciprocating motion's effect about the limiting plate, can change the distance between two every rings of spring, has changed the shape in the grid hole of grid simultaneously, utilizes the change effect of the distance between two every rings of spring, can improve the two cutting effect to soybean milk a of spring, has strengthened the two "grinding" effect to soybean milk a of spring.
9. This soybean milk processing equipment for industrial production utilizes the effect of limiting plate reciprocating motion about, utilizes the rotation effect of the pole on the grid, and the soybean milk makes the grinding and the crushing effect of the grid hole of receiving the grid on the grid, further grinds and smashes the dregs of large granule in the soybean milk a.
10. This soybean milk processing equipment for industrial production utilizes the cubic of grinder, spring two and grid to grind the back, guarantees the grinding effect of soybean, has still guaranteed the granule that contains in the soybean milk still less when having promoted soybean milk output, has promoted the taste and the quality of soybean milk.
11. This soybean milk processing equipment for industrial production, after the limiting plate removes left, the diversion plate will no longer enter into movable bin two communicating pipe one sealed soybean milk, until the inlet opening is linked together with the water injection pipe, the water in the activity groove enters into the diversion bin through the water injection pipe this moment, then wash spring two and grid from dividing between the hole inflow two limiting plates, then impurity and the sewage of skin of beancurd after the washing are leading-in to the outlet pipe from the water collection sheet in, from outlet pipe discharge casing, reach the effect of washing spring two and grid, the cleanness of grid and spring two and the stability of functioning have been guaranteed.
12. This soybean milk processing equipment for industrial production through being provided with the water diversion plate, can be with the even distribution of liquid on spring two and grid, has improved the processing effect of spring two and grid, has avoided impurity to pile up in a place simultaneously, inconvenient washing, and the effect of reposition of redundant personnel has promoted the cleaning performance of grid and spring two simultaneously.
13. This soybean milk processing equipment is used in industrial production, after the air enters into the movable box, the air extrusion movable block reciprocates in the movable box, utilize the arc characteristic of arc soft board, the movable block extrudees the arc soft board when removing, make the arc soft board take place deformation, thereby the degree of stretching hard of cotton gauze has been changed, when brake lever reciprocating motion, the movable block up-and-down motion in the movable box, make the cotton gauze take place to jolt, utilize the jolt effect of cotton gauze, the speed of cotton gauze filter soybean milk has been strengthened, the industrial production of being convenient for.
14. This soybean milk processing equipment is used in industrial production, when cotton gauze is jolting, utilize the power effect of holding of a spacing section of thick bamboo, can reduce the range of jolting of cotton gauze, thereby reduce the open size of mesh on the cotton gauze, stabilize the filter effect of cotton gauze, utilize the elasticity of a spacing section of thick bamboo and hold the power effect simultaneously, can make the brake lever when just entering into the hypomere of activity groove one, the pressure of an activity groove hypomere is not enough to promote the movable block when the activity incasement moves this moment, spacing section of thick bamboo drives the vibrations of cotton gauze in activity storehouse three and jolts, continuously guarantee the reinforcing effect of the filter effect of cotton gauze, the filter effect of cotton gauze has been promoted, the quality of soybean milk has been guaranteed.
15. This soybean milk processing equipment for industrial production, movable box and fixed plate all place in movable bin three, are convenient for take out whole filter equipment two and wash.
Drawings
FIG. 1 is a schematic view of the internal structure of the present invention;
FIG. 2 is an enlarged view of a of FIG. 1 according to the present invention;
FIG. 3 is an isometric view of the present invention;
FIG. 4 is a top view of the present invention;
FIG. 5 is a schematic view of a striking device according to the present invention;
FIG. 6 is a schematic view of a polishing apparatus according to the present invention;
FIG. 7 is a schematic view of a filter device according to the present invention;
FIG. 8 is an enlarged view of b of FIG. 7 in accordance with the present invention;
FIG. 9 is a schematic view of the structure of the grid of the present invention.
In the figure: 1 shell, 11 movable groove I, 12 material injection hole, 13 movable bin I, 14 water tank, 15 communicating pipe I, 16 movable bin II, 17 communicating pipe II, 18 movable bin III, 19 movable groove II, 2 toggle device, 21 toggle rod I, 22 connecting rod I, 23 bearing, 24 spring I, 25 toggle rod II, 26 embedded column, 3 grinding device, 31 upper grinding block, 32 lower grinding block, 33 communicating hole, 34 raised block, 35 rotating rod, 36 linkage fluted disc, 37 braking fluted disc, 38 supporting blocks, 4 filtering devices I, 41 limiting plates, 42 grids, 43 water distribution plates, 431 water inlet holes, 432 water distribution bins, 433 water distribution holes, 44 water collection plates, 45 water outlet pipes, 46 water injection pipes, 47 springs II, 5 braking rods, 51 braking toothed plates, 6 filtering devices II, 61 movable boxes, 62 arc-shaped soft plates, 63 limiting blocks, 64 movable blocks, 65 cotton gauzes, 66 springs III, 67 limiting cylinders, 68 fixing plates and 7 funnels.
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.
In a first embodiment, referring to fig. 1, 3 and 4, a soybean milk processing apparatus for industrial production includes a housing 1, and is characterized in that: the top end of the shell 1 is provided with a material injection hole 12, a movable bin I13 is arranged below the material injection hole 12 and inside the shell 1, the material injection hole 12 is communicated with the movable bin I13, a grinding device 3 is movably arranged in the movable bin I13, a shifting device 2 is arranged above the grinding device 3, a movable slot I11 and a water tank 14 are arranged at the top end of the shell 1, a communicating pipe I15 is communicated below the movable bin I13, a movable bin II 16 is arranged on the side wall of the movable slot I11 and below the movable bin I13, a filtering device I4 is arranged in the movable bin II 16, the movable bin II 16 is communicated with the communicating pipe I15, a communicating pipe II 17 is communicated below the movable bin II 16, a movable bin III 18 is arranged inside the shell 1 and below the communicating pipe II 17, the communicating pipe II 17 is communicated with the movable bin III 18, a filtering device II 6 is arranged in the movable bin III 18, a funnel 7 is communicated below the movable bin III 18, funnel 7 is cut apart movable groove 11 and basin 14 and is blocked, funnel 7 extends to the below of casing 1, movable groove 11 designs to the step type, the inside movable mounting of movable groove 11 has brake lever 5, one side fixed mounting of brake lever 5 has braking toothed bar 51, the top fixed connection of brake lever 5 is to the output shaft of flexible motor, flexible motor is current structure, do not describe herein repeatedly, pour into casing 1 back into from annotating material hole 12 when the soybean, utilize grinder 3 in the casing 1, filter equipment 4 and filter equipment two 6 grind and filter, accomplish a whole flow, up to producing high-quality soybean milk, it is extravagant to have reduced the operation of raw materials when carrying out the transfer between each step, simultaneously with whole flow integration, be convenient for the industrialization of soybean milk production, the production efficiency of soybean milk has been improved.
In the second embodiment, referring to fig. 6, on the basis of the first embodiment, the grinding device 3 includes a lower grinding block 32, a supporting block 38 is fixedly installed at a lower center of the lower grinding block 32, the lower grinding block 32 is movably installed at the bottom of the movable bin 13 through the supporting block 38, an upper grinding block 31 is placed above the lower grinding block 32 and the upper grinding block 31 is disposed in the movable bin 13, a gap is formed between the upper grinding block 31 and the lower grinding block 32, a communicating hole 33 is formed at a center of the upper grinding block 31, the communicating hole 33 is communicated with the material injection hole 12, the communicating hole 33 is also communicated with the gap between the upper grinding block 31 and the lower grinding block 32, a protruding block 34 is fixedly installed at a center of an upper surface of the lower grinding block 32, gears are disposed on outer surfaces of the upper grinding block 31 and the lower grinding block 32, a linked fluted disc 36 is simultaneously engaged with the upper grinding block 31 and the lower grinding block 32, a rotating rod 35 is fixedly installed on the linked fluted disc 36, the rotating rod 35 extends from the movable bin 13 to the movable bin 11, and one end of the rotating rod 35 in the first movable groove 11 is fixedly provided with a braking fluted disc 37, the braking fluted disc 37 is meshed with a braking fluted plate 51, when soybeans enter the upper grinding block 31 from the communicating hole 33, the soybeans can be guided to a gap between the upper grinding block 31 and the lower grinding block 32 by the guiding action of the convex block 34, when the braking rod 5 operates up and down, the braking fluted disc 51 drives the braking fluted disc 37 to rotate, the linkage fluted disc 36 rotates along with the braking fluted disc 37 in the first movable bin 13 by the rotating effect of the rotating rod 35, as the linkage fluted disc 36 is meshed with the upper grinding block 31 and the lower grinding block 32, the upper grinding block 31 and the lower grinding block 32 rotate in opposite directions, and the soybeans in the communicating hole 33 can be extruded into the gap between the upper grinding block 31 and the lower grinding block 32 while the upper grinding block 31 and the lower grinding block 32 rotate by the rotating effect between the upper grinding block 31 and the lower grinding block 32, utilize last abrasive brick 31 and lower abrasive brick 32 antiport's grinding effect, reach the effect of grinding the soybean, and go up abrasive brick 31 and lower abrasive brick 32 be close to the face and all design for the slope form, in the soybean enters into the gap between last abrasive brick 31 and the lower abrasive brick 32 of being convenient for, the soybean milk a after the grinding of being convenient for simultaneously flows out from the gap between last abrasive brick 31 and the last abrasive brick 31.
In the third embodiment, referring to fig. 5, a second movable groove 19 is formed between the first movable groove 11 and the material injection hole 12 and above and to the left of the first movable bin 13, the toggle device 2 is disposed in the second movable groove 19, the toggle device 2 includes a first toggle rod 21, one end of the first toggle rod 21 extends into the first movable groove 11, the first toggle rod 21 is engaged with the brake toothed plate 51, a first connecting rod 22 is fixedly disposed at the center of the first toggle rod 21, the first toggle rod 21 is movably mounted in the second movable groove 19 by the first connecting rod 22 through a bearing 23, a first spring 24 is fixedly mounted at the right end of the first toggle rod 21, a second toggle rod 25 is fixedly mounted on the first spring 24, the second toggle rod 25 is movably mounted in the second movable groove 19 in the same manner as the first toggle rod 21, the right end of the second toggle rod 25 extends into the material injection hole 12, an embedded column 26 is fixedly mounted at the right end of the second toggle rod 25, the embedded column 26 is designed to be conical, when the brake rod 5 operates, the brake rod 5 drives the poke rod one 21 to rotate in the movable groove one 11, at the moment, the poke rod one 21 pokes the poke rod two 25 to rotate in the movable groove two 19, so that the embedded column 26 repeatedly knocks soybeans in the communicating hole 33 up and down, the soybeans can conveniently enter a gap between the upper grinding block 31 and the lower grinding block 32, the soybean grinding efficiency is improved, meanwhile, when the poke rod one 21 rotates, the poke rod one 21 firstly acts on the spring one 24, the spring one 24 acts on the poke rod two 25 by utilizing the force accumulation effect of the spring one 24, the poke rod two 25 knocks the soybeans in the communicating hole 33 by the embedded column 26, and by utilizing the force accumulation and the elastic effect of the spring one 24, the poke rod two 25 can also rotate by utilizing the force accumulation of the spring one 24 when the poke rod one 21 does not rotate, and the reciprocating rotation frequency of the poke rod two 25 is improved, the efficiency of embedding post 26 knocking soybean is improved, utilize the toper characteristic of embedding post 26 simultaneously, embedding post 26 can not totally seal the intercommunicating pore 33 when embedding post 26 knocks the soybean, can make more soybeans in the notes material hole 12 enter into the intercommunicating pore 33 when embedding post 26 knocks the soybean simultaneously, improved the efficiency that the soybean ground.
In the fourth embodiment, on the basis of the third embodiment, referring to fig. 7 and 9, the first filtering device 4 includes two limiting plates 41, a second spring 47 is fixedly installed between the two limiting plates 41, a grille 42 is movably installed between the two limiting plates 41, the grille 42 is a screen-like structure composed of a plurality of vertical plates, bearings and connecting rods and capable of moving and changing mesh sizes, which is not described herein in detail for the prior art, the ground soybean milk a flows into the second movable bin 16 from the first communicating pipe 15, the soybean milk a is cut and filtered by the second spring 47 after dropping on the second spring 47, the soybean milk a can be filtered, the soybean hulls contained in the soybean milk a can be filtered, the soybean milk a is primarily filtered, and simultaneously the soybean milk a is dropped onto the grille 42 after being filtered by the second spring 47, the soybean milk b is obtained after being filtered by the grille 42, and the soybean milk after being filtered twice contains less grinding particles, improves the quality of the soybean milk.
In the fifth embodiment, referring to fig. 7 and 9, on the basis of the fourth embodiment, the left end of the second movable bin 16 is communicated with the first movable bin 11, the left side limiting plate 41 is movably installed in the second movable bin 16, the size of the limiting plate 41 is matched with the size of the second movable bin 16, the right side limiting plate 41 is fixedly installed on the right side wall surface of the second movable bin 16, when the brake lever 5 operates up and down, after the brake lever 5 and the brake tooth plate 51 enter the lower section of the first movable bin 11, the brake lever 5 and the brake tooth plate 51 completely seal the lower section of the first movable bin 11, at this time, the brake tooth plate 51 and the brake lever 5 squeeze air in the lower section of the first movable bin 11, after the air enters the second movable bin 16, the air squeezes the left side limiting plate 41, after the brake lever 5 and the brake tooth plate 51 move out of the lower section of the first movable bin 11, the air pressure in the lower section of the first movable bin 11 is reduced, at this time, by the elastic force effect and the air pressure effect of the second spring 47, make left side limiting plate 41 remove left, utilize the effect of limiting plate 41 left and right reciprocating motion, can change the distance between every ring of two springs 47, the shape in the grid hole of grid 42 has been changed simultaneously, utilize the change effect in the distance between every ring of two springs 47, can improve the cutting effect of two springs 47 to soybean milk a, spring two 47 to the "grinding" effect of soybean milk a has been strengthened, utilize the rotation effect of the pole on grid 42 simultaneously, the soybean milk makes the grinding and the crushing action of the grid hole of receiving grid 42 on grid 42, the disintegrating slag of big granule in the soybean milk a further grinds and smashes, utilize grinder 3, the grinding effect of spring two 47 and grid 42's cubic grinding back, guarantee the grinding effect of soybean, still guarantee the granule that contains in the soybean milk when having promoted soybean milk output still less, the taste and the quality of soybean milk have been promoted.
Sixth embodiment, referring to fig. 8, on the basis of the fifth embodiment, a water diversion plate 43 and a water collection plate 44 are fixedly installed on a limiting plate 41 close to one side of a first movable trough 11, the water diversion plate 43 and the water collection plate 44 are both arranged between the two limiting plates 41, a water diversion bin 432 is arranged inside the water diversion plate 43, a water inlet 431 is arranged at the top end of the water diversion plate 43, the water inlet 431 is communicated with the water diversion bin 432, a water diversion hole 433 is arranged on the lower wall surface of the water diversion bin 432, the water diversion hole 433 is communicated with the space between the water diversion bin 432 and the two limiting plates 41, a water collection hole is arranged at a position on the water collection plate 44, which is matched with the water inlet 431, the upper surface of the water collection plate 44 is inclined, a water injection pipe 46 is fixedly installed on the left side of the water tank 14, the water injection pipe 46 is communicated with a second movable bin 16, a water outlet pipe 45 is further fixedly installed below the second movable bin 16, the water outlet pipe 45 is communicated with the second movable bin 16, when the soybean milk a enters the second movable bin 16 from a communication pipe 15, the bottom end of the communicating pipe I15 is communicated with the water inlet hole 431 in an initial state, the soybean milk a is processed by the grating 42 and the spring II 47, the soybean hulls and impurities contained in the soybean milk a are filtered on the spring II 47 and the grating 42, after the limiting plate 41 moves leftwards, the water distribution plate 43 prevents the sealed soybean milk of the communicating pipe I15 from entering the movable bin II 16 until the water inlet hole 431 is communicated with the water injection pipe 46, the water in the movable bin I11 enters the water distribution bin 432 through the water injection pipe 46, then flows into the space between the two limiting plates 41 from the water distribution hole 433 to clean the spring II 47 and the grating 42, the impurities and the sewage of the soybean hulls after cleaning are guided into the water outlet pipe 45 from the water collection plate 44, the shell 1 is discharged out of the shell body 45 to achieve the effect of cleaning the spring II 47 and the grating 42, the cleaning and the operation stability of the grating 42 and the spring II 47 are ensured, and simultaneously the deformation and the moving effect of the grating 42 and the spring II 47 are utilized, the cleaning effect on the second spring 47 and the grid 42 can be enhanced, after the limiting plates 41 move rightwards, the water distribution plate 43 seals the water injection pipe 46, water in the water injection pipe 46 is prevented from entering between the two limiting plates 41 until the water inlet 431 is communicated with the first communicating pipe 15, at the moment, soybean milk a enters between the two limiting plates 41 from the first communicating pipe 15 to be processed, after liquid (soybean milk and water) enters the water distribution bin 432 from the water inlet 431, the liquid flows out of the water distribution hole 433, the water inlet 431, the water distribution bin 432 and the water distribution hole 433 are utilized to distribute the flow distribution effect, the liquid can be uniformly distributed on the second spring 47 and the grid 42, the processing effect of the second spring 47 and the grid 42 is improved, meanwhile, impurities are prevented from being accumulated in one place, the cleaning is inconvenient, and the flow distribution effect is achieved simultaneously, and the cleaning effect of the second spring 42 and the second spring 47 is improved.
Seventh embodiment, referring to fig. 1 and 2 on the basis of sixth embodiment, a second filtering device 6 includes a movable box 61, the movable box 61 is placed in the third movable bin 18, an arc-shaped soft board 62 is fixedly installed on the right side of the movable box 61, four pieces of cotton gauze 65 are fixedly installed on the right side of the arc-shaped soft board 62, the four pieces of cotton gauze 65 are respectively installed on the wave crests and the wave troughs of the movable block 64, a movable block 64 is movably placed in the space between the movable box 61 and the arc-shaped soft board 62, a limit block 63 is fixedly installed at the lower outlet of the movable box 61, soybean milk b flows into the third movable bin 18 from the communicating pipe second 17 and drops on the cotton gauze 65, after the brake lever 5 and the brake tooth board 51 enter the lower section of the first movable slot 11, the brake lever 5 and the brake tooth board 51 completely seal the lower section of the first movable slot 11, at this time, the brake lever 51 and the tooth board 5 squeeze air of the lower section of the first movable slot 11, after the air entered into the movable box 61, the air extrusion movable block 64 reciprocated in the movable box 61, utilize the arc characteristic of arc soft board 62, the movable block 64 extrudes arc soft board 62 in the removal, make the deformation of arc soft board 62 take place, thereby the degree of stretching tightly of cotton gauze 65 has been changed, when brake lever 5 reciprocating motion, movable block 64 reciprocating motion from top to bottom in the movable box 61, make cotton gauze 65 take place to jolt, utilize the jolt effect of cotton gauze 65, the speed that cotton gauze 65 filtered the soybean milk has been strengthened, the industrial production of being convenient for.
In the eighth embodiment, on the basis of the seventh embodiment, referring to fig. 2, each cotton gauze 65 is fixedly provided with a third spring 66, the exterior of each third spring 66 is sleeved with a limiting cylinder 67, one end of each of the four cotton gauzes 65, which is connected with the third spring 66, is arranged in the limiting cylinder 67, the four limiting cylinders 67 are fixedly provided with fixing plates 68, the fixing plates 68 are movably arranged in the movable bin third 18, when the cotton gauze 65 bumps, the bumping amplitude of the cotton gauze 65 can be reduced by utilizing the force accumulation effect of the limiting cylinders 67, so that the opening size of meshes on the cotton gauze 65 is reduced, the filtering effect of the cotton gauze 65 is stabilized, and meanwhile, by utilizing the elastic force and the force accumulation effect of the limiting cylinders 67, when the brake lever 5 just enters the lower section of the movable slot first 11, the pressure of the lower section of the movable slot first 11 is not enough to push the movable block 64 to move in the movable box 61, the limiting cylinders 67 drive the cotton gauzes 65 to vibrate and bump in the movable bin third 18, the reinforcing effect of the filtering action of the cotton gauze 65 is continuously ensured, the filtering effect of the cotton gauze 65 is improved, the quality of the soybean milk is ensured, and meanwhile, the movable box 61 and the fixed plate 68 are both placed in the movable bin III 18, so that the whole filtering device II 6 can be conveniently taken out and cleaned.
When in use, after the soybeans are injected into the shell 1 from the material injection hole 12, the soybeans in the communication hole 33 can be extruded into a gap between the upper grinding block 31 and the lower grinding block 32 while the upper grinding block 31 and the lower grinding block 32 rotate by utilizing the rotating effect between the upper grinding block 31 and the lower grinding block 32, and the soybeans in the communication hole 33 are repeatedly knocked up and down by the embedded column 26 by utilizing the grinding effect of the reverse rotation of the upper grinding block 31 and the lower grinding block 32, so that the soybeans can enter the gap between the upper grinding block 31 and the lower grinding block 32, the ground soybean milk a flows out from the gap between the upper grinding block 31 and the upper grinding block 31, the ground soybean milk a flows into the movable bin two 16 from the first communication pipe 15, and the soybean milk a drops onto the second spring 47, and then the soybean milk a can be cut and filtered by utilizing the second spring 47, the soybean milk a can be filtered to carry out primary filtration, meanwhile, the soybean milk a is filtered by the spring II 47 and then drops on the grating 42, and is filtered by the grating 42 to obtain soybean milk b, the soybean milk b flows into the movable bin III 18 from the communicating pipe II 17 and then drops on the cotton gauze 65, the brake tooth plate 51 and the brake rod 5 squeeze the air at the lower section of the movable slot I11, when the air enters the movable box 61, the air squeezes the movable block 64 to move up and down in the movable box 61, by utilizing the arc characteristic of the arc-shaped flexible plate 62, the movable block 64 squeezes the arc-shaped flexible plate 62 while moving, so that the arc-shaped flexible plate 62 is deformed, the tightness degree of the cotton gauze 65 is changed, when the brake rod 5 reciprocates, the movable block 64 reciprocates up and down in the movable box 61, so that the cotton gauze 65 bumps, and the soybean milk b can be further filtered by utilizing the bumping effect of the cotton gauze 65, and finally, the finished soybean milk flows out of the funnel 7 and is collected.
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.