CN112244216B - Processing equipment and processing method of five-cereal soybean milk - Google Patents

Abstract

The invention discloses equipment and a method for processing coarse cereal soymilk, and aims to provide equipment and a method for processing coarse cereal soymilk, which have the advantages of high material utilization rate, no waste water and waste residue and fine and smooth slurry. The coarse grinding equipment comprises a coarse grinding pulp machine, a pulp outlet pipe arranged at the bottom of the coarse grinding pulp machine and a first pulp storage tank; the fine grinding equipment comprises a bottom frame, a first fine grinding device, a second fine grinding device, a first barrel body arranged on the bottom frame, a second barrel body fixed in the first barrel body and a third barrel body fixed in the second barrel body. The upper portion of the first barrel body is provided with a pulp inlet, the pulp outlet is connected with the pulp inlet through a conveying pipeline, and a conveying pump is arranged on the conveying pipeline.

Description

Processing equipment and processing method of five-cereal soybean milk

Technical Field

The invention relates to the field of soymilk processing, in particular to equipment and a method for processing coarse cereal soymilk.

Background

The theory of the five cereals has a long history, and the Chinese food habits mainly comprising the five cereals and grains have been kept for thousands of years. As early as in Huangdi's Canon of internal Jing and Su Wen, the principles of diet and nutrition that five cereals are used as nutrients, five fruits are used as assistants, five animals are used as benefits, five vegetables are used as supplements, and the smell is combined for taking, so as to supplement essence and qi are proposed. The five-cereal coarse cereals are rich in nutrients, wherein the cellulose and mineral substances are multiple times of those of common white rice, and the contained vitamin A, vitamin B1, vitamin B2, vitamin C, vitamin E and the like, and the trace elements such as calcium, potassium, iron, zinc and the like are more abundant in treasure; the cereals are the main sources of dietary fibers, and many cereals have a large amount of unsaturated fatty acids which can reduce cholesterol and prevent cardiovascular diseases and other diseases, so that most of nutrients necessary for human bodies can be provided, and the cereals are the food group with the highest nutritional value. Therefore, related scholars continuously research the nutrients contained in the miscellaneous grains from ancient times to present, and the miscellaneous grains are integrated into the food therapy of the traditional Chinese medicine and the modern medicine, and can be matched with other food materials and medicinal materials to enhance the benefit to human bodies.

The traditional coarse cereal soybean milk making process comprises the procedures of soybean soaking, soybean grinding, residue removing, soybean boiling and the like, and has the problems of more waste water and waste residue generated in the production process and low material utilization rate.

Disclosure of Invention

The invention aims to provide processing equipment and a processing method of coarse cereal soymilk, which have high material utilization rate, no waste water and waste residue and fine and smooth serous fluid.

The technical scheme of the invention is as follows:

the coarse grinding equipment comprises a bottom frame, a coarse grinding pulp machine arranged on the bottom frame, a pulp outlet pipe arranged at the bottom of the coarse grinding pulp machine, a pulp outlet pipe valve arranged on the pulp outlet pipe and a first pulp storage tank positioned below the coarse grinding pulp machine, wherein the pulp outlet pipe is communicated with the first pulp storage tank, and the bottom of the first pulp storage tank is provided with a pulp outlet;

the fine grinding equipment comprises a bottom frame, a first fine grinding device, a second fine grinding device, a first barrel body arranged on the bottom frame, a second barrel body fixed in the first barrel body and a third barrel body fixed in the second barrel body, wherein a pulp inlet is formed in the upper part of the first barrel body, the pulp outlet is connected with the pulp inlet through a conveying pipeline, and a conveying pump is arranged on the conveying pipeline;

a primary fine grinding cavity is formed in a space between the bottom wall of the second barrel body and the bottom wall of the first barrel body, and the first fine grinding device is used for grinding materials in the primary fine grinding cavity;

the upper part or the middle upper part of the side wall of the second barrel body is composed of a primary filter screen cylinder, a secondary fine grinding cavity is formed in a space between the bottom wall of the second barrel body and the bottom wall of the third barrel body, and the second fine grinding pulp device is used for grinding materials in the secondary fine grinding cavity into pulp;

the lateral wall upper portion or well upper portion of third staving comprises secondary filter screen cylinder, secondary filter screen cylinder's the aperture of filtering the mesh is less than primary filter screen cylinder's the aperture of filtering the mesh, primary filter screen cylinder's lower limb is higher than secondary filter screen cylinder's lower limb, the bottom of third staving is equipped with first slurry discharging pipe, and first slurry discharging pipe passes second staving and first staving in proper order, is equipped with first switch valve on the first slurry discharging pipe, and first switch valve is located the outside of first staving.

The method for processing the coarse grain soybean milk by using the processing equipment for the coarse grain soybean milk has the advantages of high utilization rate of coarse grain soybean milk materials, no waste water and waste residues, and fine and smooth slurry of the coarse grain soybean milk, and is specifically referred to the method for processing the coarse grain soybean milk hereinafter.

Preferably, the fine grinding equipment further comprises a first self-blockage-cleaning device, the first self-blockage-cleaning device comprises a first limiting block arranged at the upper part of the inner wall of the first barrel body, a first floating sleeve body positioned in the first barrel body and a plurality of first blockage-cleaning rings sequentially sleeved on the second barrel body from top to bottom,

the first blockage removing rings are connected into a whole through connecting pieces, the first blockage removing rings are connected with the inner wall of the first floating sleeve body through the connecting pieces, annular scraping teeth and a plurality of bristles extending to the outer side surface of the second barrel body are arranged on the inner wall of the first blockage removing rings,

the buoyancy of the first floating sleeve body is larger than the gravity of the first self-blockage removing device, the outer side surface of the first floating sleeve body is close to the inner side surface of the first barrel body, the first floating sleeve body is positioned above the first limiting block, when the first floating sleeve body is supported on the first limiting block, the first floating sleeve body is positioned below the pulp inlet, and at least one first blockage removing ring is positioned below the primary filter screen cylinder;

when the first floating sleeve body floats upwards under the action of slurry in the first barrel body, the first blockage removing ring moves upwards along with the first floating sleeve body, and the filter meshes of the primary filter screen cylinder are cleaned through the annular scraping teeth and the bristles;

when the first floating sleeve body floats upwards under the action of the slurry in the first barrel body and is close to or propped against the inner top surface of the first barrel body, the first floating sleeve body covers the slurry inlet.

During the working process of the fine grinding equipment, slurry with fineness meeting the requirement in the first barrel flows into the second barrel through the primary filter screen cylinder, and the rest of the slurry is continuously left in the first barrel and is subjected to primary fine grinding through the first fine grinding device; in the process, the filter meshes of the primary filter screen cylinder are blocked, and when a large number of filter meshes on the primary filter screen cylinder are blocked, the liquid level of the slurry in the first barrel body rises; when the liquid level of the slurry in the first barrel body overflows to the first floating sleeve body, the first floating sleeve body floats upwards under the action of the slurry in the first barrel body, so that the first blockage removing ring is driven to move upwards together, the filter meshes of the primary filter screen cylinder are cleaned through the annular scraping teeth and the bristles, the fineness in the first barrel body meets the requirement, the slurry smoothly flows into the second barrel body through the primary filter screen cylinder, and the liquid level of the slurry in the first barrel body slowly moves downwards; in the process that the liquid level of the slurry in the first barrel body slowly moves downwards, the first floating sleeve body and the first blockage removing ring synchronously move downwards, and the filter meshes of the primary filter screen cylinder are cleaned again through the annular scraping teeth and the bristles, so that the normal work of fine grinding equipment is ensured;

if a large number of filter meshes on the primary filter screen cylinder are blocked, the liquid level of the slurry in the first barrel still continues to rise along with the process that the first floating sleeve body drives the first blocking ring to move upwards together under the action of the slurry in the first barrel, and after the first floating sleeve body moves upwards to the slurry inlet, the slurry inlet area of the slurry inlet is gradually reduced along with the upward movement of the first floating sleeve body so as to reduce the slurry inlet speed until the first floating sleeve body seals and covers the slurry inlet; thereby make the internal fineness of first barrel accord with the requirement thick liquids and flow into in the second barrel through once filtering the net section of thick bamboo to make the thick liquids in the first barrel slowly move down to the normality position, thereby guarantee the normal work of fine grinding equipment.

Preferably, the fine grinding equipment also comprises a second self-blockage-cleaning device, the second self-blockage-cleaning device comprises a second limiting block arranged at the upper part of the inner wall of the second barrel body, a second floating sleeve body positioned in the second barrel body and a plurality of second blockage-cleaning rings sequentially sleeved on the third barrel body from top to bottom,

the second blockage removing rings are connected into a whole through connecting pieces, the second blockage removing rings are connected with the inner wall of the second floating sleeve body through the connecting pieces, annular scraping teeth and a plurality of bristles extending to the outer side surface of the third barrel body are arranged on the inner wall of the second blockage removing rings,

the buoyancy of the second floating sleeve body is larger than the gravity of the second self-blockage removing device, the outer side surface of the second floating sleeve body is close to the inner side surface of the second barrel body, the second floating sleeve body is positioned above the second limiting block, and when the second floating sleeve body is supported on the second limiting block, at least one second blockage removing ring is positioned below the secondary filter screen cylinder;

when the second floating sleeve body floats upwards under the action of slurry in the second barrel body, the second blocking cleaning ring moves upwards along with the second floating sleeve body, and the filtering meshes of the secondary filtering net barrel are cleaned through the annular scraping teeth and the bristles.

Similarly, in the working process of the fine grinding equipment, slurry with the fineness meeting the requirement in the second barrel body flows into the third barrel body through the primary filter screen cylinder, and the rest slurry is continuously remained in the second barrel body and is subjected to secondary fine grinding through the first fine grinding device; in the process, the filter meshes of the secondary filter screen cylinder are blocked, and when a large number of filter meshes on the secondary filter screen cylinder are blocked, the liquid level of the slurry in the second barrel body rises; when the liquid level of the slurry in the second barrel body overflows to the second floating sleeve body, the second floating sleeve body floats upwards under the action of the slurry in the second barrel body, so that the second blockage removing rings are driven to move upwards together, the filter meshes of the secondary filter screen cylinder are cleaned through the annular scraping teeth and the bristles, the fineness in the second barrel body meets the requirement, the slurry smoothly flows into the third barrel body through the secondary filter screen cylinder, and the liquid level of the slurry in the second barrel body slowly moves downwards; in the process that the liquid level of the slurry in the second barrel body slowly moves downwards, the second floating sleeve body and the second blockage removing ring synchronously move downwards, and the filtering meshes of the secondary filtering net barrel are cleaned again through the annular scraping teeth and the bristles, so that the normal work of the fine grinding equipment is ensured.

Preferably, the soymilk cooking device comprises a soymilk cooking barrel and a spiral steam pipeline positioned in the soymilk cooking barrel, wherein one end of the spiral steam pipeline is a steam inlet end, the steam inlet end penetrates through the side wall of the soymilk cooking barrel and is positioned outside the soymilk cooking barrel, the other end of the spiral steam pipeline is a steam outlet end, and the steam outlet end penetrates through the side wall of the soymilk cooking barrel and is positioned outside the soymilk cooking barrel.

Preferably, the pulp boiling device further comprises a backflow pipeline and a third fine pulp grinding device, the third fine pulp grinding device comprises a mill shell with a closed inner cavity, the bottom of the pulp boiling barrel is connected with the mill shell through an upper connecting pipe, a discharging pipe is arranged at the bottom of the mill shell, a discharging pipe valve is arranged on the discharging pipe, one end of the backflow pipeline is communicated with the upper portion of the pulp boiling barrel, the other end of the backflow pipeline is communicated with the discharging pipe, the other end of the backflow pipeline is located between the discharging pipe valve and the mill shell, and a backflow pipeline pump body is arranged on the backflow pipeline.

Preferably, the upper end of the pulp boiling barrel is provided with a barrel opening, and the upper end of the pulp boiling barrel is also provided with a sealing end cover for sealing and covering the barrel opening.

Preferably, a second pulp discharge pipe is arranged at the bottom of the second barrel body, penetrates through the first barrel body, and is provided with a second switch valve which is positioned outside the first barrel body.

Preferably, the bottom of the first barrel body is provided with a third slurry discharge pipe, the third slurry discharge pipe is provided with a third switch valve, and the third switch valve is positioned on the outer side of the first barrel body.

A processing method of five-cereal soybean milk is characterized by sequentially comprising the following steps:

the coarse grinding process sequentially comprises the following steps of A, putting the five-cereal soybean milk material and water into a coarse grinding machine together for grinding to obtain coarse grinding material; b, opening a pulp outlet pipe valve to enable coarse pulp grinding materials in the coarse pulp grinder to completely flow into the first pulp storage tank through the pulp outlet pipe; c, returning to the step A, and circulating in the way;

the second fine grinding process, namely continuously conveying the coarse ground pulp material in the first pulp storage tank into the first barrel through a conveying pump and a conveying pipeline, and performing primary fine grinding on the coarse ground pulp material in the primary fine grinding cavity at the bottom of the first barrel through a first fine grinding device to obtain primary fine ground pulp material; after the liquid level of the slurry in the first barrel body overflows the lower edge of the primary filter screen cylinder, the primary fine grinding material with the fineness meeting the requirement in the first barrel body flows into the second barrel body through the primary filter screen cylinder, the rest primary fine grinding material is continuously remained in the first barrel body, and primary fine grinding is carried out through the first fine grinding device;

secondly, performing secondary fine grinding on the primary fine grinding material in a secondary fine grinding cavity at the bottom of the second barrel body through a secondary fine grinding device to obtain secondary fine grinding material;

after the liquid level of the slurry in the second barrel body overflows the lower edge of the secondary filter screen cylinder, the secondary fine grinding materials with the fineness meeting the requirement in the second barrel body flow into the third barrel body through the secondary filter screen cylinder, the rest secondary fine grinding materials continue to stay in the second barrel body, and secondary fine grinding is carried out through the second fine grinding device;

discharging the secondary fine grinding slurry flowing into the third barrel through the first slurry discharge pipe to obtain a coarse cereal soymilk semi-finished product;

and (III) a pulp boiling procedure, namely, putting the coarse cereal soymilk semi-finished product into a pulp boiling device for pulp boiling.

The method for processing the coarse cereal soybean milk utilizes coarse cereal soybean milk processing equipment to process, coarse ground pulp materials are obtained through a coarse grinding process, then primary fine ground pulp materials are obtained through a first fine ground pulp device, the primary fine ground pulp materials with the fineness meeting the requirement in a first barrel body flow into a second barrel body through a primary filter screen cylinder, the rest primary fine ground pulp materials are continuously remained in the first barrel body, primary fine ground pulp is carried out through the first fine ground pulp device, primary fine ground pulp is repeatedly carried out, and the fineness of the primary fine ground pulp materials entering the second barrel body is ensured to meet the requirement; then, secondary fine grinding materials are obtained through a secondary fine grinding device, the fineness of the secondary fine grinding materials in the second barrel body meets the requirement, the secondary fine grinding materials flow into the third barrel body through the secondary filter screen cylinder, the rest secondary fine grinding materials are continuously remained in the second barrel body, secondary fine grinding is carried out through the second fine grinding device, secondary fine grinding is carried out repeatedly, and the fineness of the secondary fine grinding materials entering the third barrel body meets the requirement; the secondary fine grinding slurry material flowing into the third barrel body is discharged through the first slurry discharge pipe to obtain the coarse cereal soymilk semi-finished product, so that the fine and smooth coarse cereal soymilk semi-finished product slurry is ensured, meanwhile, no waste water and waste residue is generated, and the utilization rate of the coarse cereal soymilk material is high.

Preferably, the soybean milk cooking process comprises the following steps of closing a valve of a discharge pipe, and opening a pump body of a backflow pipeline to enable the coarse cereal soybean milk semi-finished product in the soybean milk cooking barrel to continuously flow circularly through a third fine soybean milk grinding device and the backflow pipeline; starting the third fine pulping device, and pulping the coarse cereal soymilk semi-finished product flowing through the third fine pulping device; the coarse grain soymilk semi-finished product in the soymilk boiling barrel is heated by conveying steam in the spiral steam pipeline, so that the fibers in the coarse grain soymilk semi-finished product are sheared and ground while the soymilk is boiled and swelled.

Preferably, the five-cereal soybean milk material is a kidney-tonifying black soybean milk material or a dampness-eliminating slimming soybean milk material, wherein the kidney-tonifying black soybean milk material comprises the following components in parts by mass: 20-40 parts of soybean, 20-40 parts of black soybean, 10-20 parts of black sesame, 5-10 parts of black rice, 5-10 parts of walnut, 5-10 parts of peanut, 5-10 parts of medlar and 5-10 parts of red date;

the dampness eliminating and weight reducing soymilk comprises the following materials in parts by mass: 30-60 parts of soybean, 10-20 parts of small red bean, 5-15 parts of coix seed, 5-15 parts of oat, 5-15 parts of white hyacinth bean, 5-10 parts of medlar, 5-10 parts of tuckahoe and 5-10 parts of yam.

The invention has the beneficial effects that: has the characteristics of high utilization rate of materials, no waste water and waste residue and fine and smooth slurry.

Drawings

FIG. 1 is a schematic view showing the structure of the coarse grinding device and the fine grinding device of the coarse cereal soybean milk processing device.

Fig. 2 is a schematic view showing a structure of a fine grinding apparatus of the coarse cereal soybean milk processing apparatus of the present invention.

Fig. 3 is a partial enlarged view of a portion a of fig. 2.

Fig. 4 is a schematic view showing a structure of a soybean milk cooking apparatus of a coarse cereal soybean milk processing apparatus according to the present invention.

In the figure:

the method comprises the following steps of 1, coarse grinding equipment, 1.1 of a coarse grinding pulp grinder, 1.2 of a pulp outlet pipe, 1.3 of a pulp outlet pipe valve and 1.4 of a first pulp storage tank;

the device comprises a fine grinding device 2, a first barrel body 2.1, a second barrel body 2.2, a primary filter screen cylinder 2.21, a third barrel body 2.3, a secondary filter screen cylinder 2.31, a first self-cleaning device 2.4, a first floating sleeve body 2.41, a first cleaning ring 2.42, a first limiting block 2.43, an annular scraping tooth 2.44, a plurality of bristles 2.45, a second self-cleaning device 2.5, a second floating sleeve body 2.51, a second cleaning ring 2.52, a second limiting block 2.53, a first fine grinding pulp device 2.6, a first grinding cutter 2.61, a first driving motor 2.62, a second fine grinding pulp device 2.7, a second grinding cutter 2.71, a second driving motor 2.72, a primary fine grinding cavity 2.8, a secondary fine grinding cavity 2.9, a first pulp discharge pipe 2.10, a second pulp discharge pipe 2.11 and a third pulp discharge pipe 2.12;

a delivery duct 3;

a delivery pump 4;

boil thick liquid device 5, boil thick liquid bucket 5.1, spiral steam conduit 5.2, the fine mill thick liquid device of third 5.3, go up connecting pipe 5.4, discharging pipe 5.5, discharging pipe valve 5.6, backflow pipeline 5.7, backflow pipeline pump body 5.8, feed pipeline 5.9, end cover 5.10.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions of the embodiments of the present invention are clearly explained and illustrated below with reference to the accompanying drawings, but the following embodiments are only preferred embodiments of the present invention, and not all embodiments. Based on the embodiments in the implementation, other embodiments obtained by those skilled in the art without any creative effort belong to the protection scope of the present invention.

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below by referring to the drawings are exemplary only for explaining the present scheme and are not construed as limiting the scheme of the present invention.

These and other aspects of embodiments of the invention will be apparent with reference to the following description and attached drawings. In the description and drawings, particular embodiments of the invention have been disclosed in detail as being indicative of some of the ways in which the principles of the embodiments of the invention may be practiced, but it is understood that the scope of the embodiments of the invention is not limited thereby. On the contrary, the embodiments of the invention include all changes, modifications and equivalents coming within the spirit and terms of the claims appended hereto.

In the description of the present invention, it is to be understood that the terms "thickness", "upper", "lower", "horizontal", "top", "bottom", "inner", "outer", "circumferential", and the like, indicate orientations and positional relationships based on those shown in the drawings, and are used merely for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. In the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., and "a plurality" means one or more unless specifically limited otherwise.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can, for example, be fixedly connected, detachably connected, or integrally formed; may be mechanically coupled, may be electrically coupled or may be in communication with each other; they may be directly connected or indirectly connected through intervening media, or they may be interconnected within two elements or in a relationship where two elements interact with each other unless otherwise specifically limited. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

The first embodiment is as follows: as shown in fig. 1 and 2, a processing device of coarse grain soybean milk, a coarse grinding device 1, a fine grinding device 2 and a soybean milk boiling device.

The rough grinding equipment 1 comprises a base frame, a rough grinding pulp grinder 1.1 arranged on the base frame, a pulp outlet pipe 1.2 arranged at the bottom of the rough grinding pulp grinder, a pulp outlet pipe valve 1.3 arranged on the pulp outlet pipe and a first pulp storage tank 1.4 positioned below the rough grinding pulp grinder. The pulp outlet pipe is communicated with the first pulp storage tank, and the bottom of the first pulp storage tank is provided with a pulp outlet.

The fine grinding equipment 2 comprises a bottom frame, a first fine grinding device 2.6, a second fine grinding device 2.7, a first barrel body 2.1 arranged on the bottom frame, a second barrel body 2.2 fixed in the first barrel body and a third barrel body 2.3 fixed in the second barrel body. The upper part of the first barrel body is provided with a pulp inlet 2.11. The slurry outlet is connected with the slurry inlet through a conveying pipeline 3, and a conveying pump 4 is arranged on the conveying pipeline.

A gap is formed between the side wall of the second barrel body and the side wall of the first barrel body. The space between the bottom wall of the second barrel body and the bottom wall of the first barrel body forms a primary fine grinding cavity 2.8. The first fine pulp grinding device is used for grinding materials in the first fine pulp grinding cavity into pulp, in the embodiment, the first fine pulp grinding device comprises a first grinding cutter 2.61 and a first driving motor 2.62, the first grinding cutter is rotatably arranged on the bottom wall of the first barrel body through a first shaft rod, the first driving motor is used for driving the first shaft rod to rotate, the first grinding cutter is located in the first fine pulp grinding cavity, the first driving motor is located below the first barrel body, and the first shaft rod is rotatably and hermetically connected with the bottom wall of the first barrel body.

The upper part or the middle upper part of the side wall of the second barrel body is composed of a primary filter screen cylinder 2.21. A gap is formed between the side wall of the second barrel body and the side wall of the third barrel body. The space between the bottom wall of the second barrel body and the bottom wall of the third barrel body forms a secondary fine grinding cavity 2.9. The second fine pulp grinding device is used for grinding materials in the secondary fine pulp grinding cavity into pulp, in the embodiment, the second fine pulp grinding device comprises a second grinding cutter 2.71 and a second driving motor 2.72, the second grinding cutter is rotatably arranged on the bottom wall of the second barrel body through a second shaft rod, the second driving motor is used for driving the second shaft rod to rotate, and the second grinding cutter is located in the secondary fine pulp grinding cavity. The second driving motor is located below the first barrel body, the second shaft rod sequentially penetrates through the bottom wall of the second barrel body and the bottom wall of the first barrel body, the second shaft rod is connected with the bottom wall of the second barrel body in a rotating and sealing mode, and the second shaft rod is connected with the bottom wall of the first barrel body in a rotating and sealing mode.

The upper part or the middle upper part of the side wall of the third barrel body is composed of a secondary filter screen cylinder 2.31. The aperture of the filter mesh of the secondary filter screen cylinder is smaller than that of the filter mesh of the primary filter screen cylinder. The lower edge of the primary filter screen cylinder is higher than the lower edge of the secondary filter screen cylinder. The bottom of the third barrel body is provided with a first slurry discharging pipe 2.10, the first slurry discharging pipe sequentially penetrates through the second barrel body and the first barrel body, a first switch valve is arranged on the first slurry discharging pipe, and the first switch valve is located on the outer side of the first barrel body. The first slurry discharge pipe is connected with the second barrel body and the first barrel body in a sealing mode.

In this embodiment, the bottom of second staving is equipped with second row thick liquid pipe 2.11, and the first staving is passed to second row thick liquid pipe, is equipped with second ooff valve on the second row thick liquid pipe, and second ooff valve is located the outside of first staving. The bottom of the first barrel body is provided with a third slurry discharge pipe 2.12, the third slurry discharge pipe is provided with a third switch valve, and the third switch valve is positioned on the outer side of the first barrel body. The second slurry discharge pipe is connected with the first barrel body in a sealing mode.

Further, as shown in fig. 2 and 3, the fine grinding device further comprises a first self-blockage removal device 2.4. The first self-blockage-cleaning device comprises a first limiting block 2.43 arranged on the upper part of the inner wall of the first barrel body, a first floating sleeve body 2.41 positioned in the first barrel body and a plurality of first blockage-cleaning rings 2.42 sequentially sleeved on the second barrel body from top to bottom. The first blockage removing rings are connected into a whole through a connecting piece, the first blockage removing rings are connected with the inner wall of the first floating sleeve body through the connecting piece, and annular scraping teeth 2.44 and a plurality of bristles 2.45 extending towards the outer side face of the second barrel body are arranged on the inner wall of the first blockage removing rings. The buoyancy of the first floating sleeve body is larger than the gravity of the first self-blockage removing device. The outer side surface of the first floating sleeve body is close to the inner side surface of the first barrel body. The first floating sleeve body is positioned above the first limiting block.

When the first floating sleeve body is supported on the first limiting block, the first floating sleeve body is positioned below the pulp inlet, and a first blockage removing ring is positioned below the primary filter screen cylinder.

When the first floating sleeve body floats upwards under the action of slurry in the first barrel body, the first blockage removing ring moves upwards along with the first floating sleeve body, and the filtering meshes of the primary filtering net barrel are cleaned through the annular scraping teeth and the bristles.

When the first floating sleeve body floats upwards under the action of the slurry in the first barrel body and is close to or propped against the inner top surface of the first barrel body, the first floating sleeve body covers the slurry inlet.

In the working process of fine grinding equipment, slurry with fineness meeting the requirement in the first barrel body flows into the second barrel body through the primary filter screen cylinder, and the rest slurry is continuously remained in the first barrel body and is subjected to primary fine grinding through the first fine grinding device; in the process, the filter meshes of the primary filter screen cylinder are blocked, and when a large number of filter meshes on the primary filter screen cylinder are blocked, the liquid level of the slurry in the first barrel body rises; when the liquid level of the slurry in the first barrel body overflows to the first floating sleeve body, the first floating sleeve body floats upwards under the action of the slurry in the first barrel body, so that the first blockage removing ring is driven to move upwards together, the filter meshes of the primary filter screen cylinder are cleaned through the annular scraping teeth and the bristles, the fineness in the first barrel body meets the requirement, the slurry smoothly flows into the second barrel body through the primary filter screen cylinder, and the liquid level of the slurry in the first barrel body slowly moves downwards; in the process that the liquid level of the slurry in the first barrel body slowly moves downwards, the first floating sleeve body and the first blockage removing ring synchronously move downwards, and the filter meshes of the primary filter screen cylinder are cleaned again through the annular scraping teeth and the bristles, so that the normal work of fine grinding equipment is ensured;

if a large number of filter meshes on the primary filter screen cylinder are blocked, the liquid level of the slurry in the first barrel still continues to rise along with the process that the first floating sleeve body drives the first blocking ring to move upwards together under the action of the slurry in the first barrel, and after the first floating sleeve body moves upwards to the slurry inlet, the slurry inlet area of the slurry inlet is gradually reduced along with the upward movement of the first floating sleeve body so as to reduce the slurry inlet speed until the first floating sleeve body seals and covers the slurry inlet; thereby make the internal fineness of first barrel accord with the requirement thick liquids and flow into in the second barrel through once filtering net section of thick bamboo to make the thick liquids in the first barrel slowly move down to the normal state position, thereby guarantee the normal work of fine grinding equipment.

Further, as shown in fig. 2, the fine grinding device further comprises a second self-blockage removing device 2.5, and the second self-blockage removing device comprises a second limiting block 2.53 arranged on the upper portion of the inner wall of the second barrel body, a second floating sleeve body 2.51 positioned in the second barrel body, and a plurality of second blockage removing rings 2.52 sequentially sleeved on the third barrel body from top to bottom. The second blockage cleaning rings are connected into a whole through connecting pieces, the second blockage cleaning rings are connected with the inner wall of the second floating sleeve body through the connecting pieces, and annular scraping teeth and a plurality of bristles extending towards the outer side face of the third barrel body are arranged on the inner wall of the second blockage cleaning rings. The buoyancy of the second floating sleeve body is larger than the gravity of the second self-blockage removing device, the outer side surface of the second floating sleeve body is close to the inner side surface of the second barrel body, the second floating sleeve body is positioned above the second limiting block, and when the second floating sleeve body is supported on the second limiting block, at least one second blockage removing ring is positioned below the secondary filter screen cylinder. When the second floating sleeve body floats upwards under the action of slurry in the second barrel body, the second blockage removing ring moves upwards along with the second floating sleeve body, and the filtering meshes of the secondary filtering net barrel are cleaned through the annular scraping teeth and the bristles.

Similarly, in the working process of the fine grinding equipment, slurry with the fineness meeting the requirement in the second barrel body flows into the third barrel body through the primary filter screen cylinder, and the rest slurry is continuously remained in the second barrel body and is subjected to secondary fine grinding through the first fine grinding device; in the process, the filter meshes of the secondary filter screen cylinder are blocked, and when a large number of filter meshes on the secondary filter screen cylinder are blocked, the liquid level of the slurry in the second barrel body rises; when the liquid level of the slurry in the second barrel body overflows to the second floating sleeve body, the second floating sleeve body floats upwards under the action of the slurry in the second barrel body, so that the second blockage removing rings are driven to move upwards together, the filter meshes of the secondary filter screen cylinder are cleaned through the annular scraping teeth and the bristles, the fineness in the second barrel body meets the requirement, the slurry smoothly flows into the third barrel body through the secondary filter screen cylinder, and the liquid level of the slurry in the second barrel body slowly moves downwards; in the process that the liquid level of the slurry in the second barrel body slowly moves downwards, the second floating sleeve body and the second blockage removing ring synchronously move downwards, and the filtering meshes of the secondary filtering net barrel are cleaned again through the annular scraping teeth and the bristles, so that the normal work of the fine grinding equipment is ensured.

In a second embodiment, the remaining structure of the present embodiment refers to the first embodiment, and the difference therebetween is that:

as shown in fig. 4, the cooking apparatus 5 comprises a cooking vessel 5.1 and a spiral steam pipe 5.2 inside the cooking vessel. One end of the spiral steam pipeline is a steam inlet end, the steam inlet end penetrates through the side wall of the pulp boiling barrel and is positioned outside the pulp boiling barrel, the other end of the spiral steam pipeline is a steam outlet end, and the steam outlet end penetrates through the side wall of the pulp boiling barrel and is positioned outside the pulp boiling barrel. The upper end of the pulp boiling barrel is provided with a barrel opening, and the upper end of the pulp boiling barrel is also provided with a sealing end cover 5.10 for sealing and covering the barrel opening. Therefore, steam can be conveyed in the spiral steam pipeline to heat the coarse cereal soymilk semi-finished product in the soymilk boiling barrel.

Furthermore, the pulp boiling device also comprises a return pipeline 5.7 and a third fine grinding device 5.3. The third fine pulping device comprises a mill shell with a closed inner cavity and a pulping mechanism positioned in the closed inner cavity of the mill shell. The bottom of the pulp boiling barrel is connected with the mill shell through an upper connecting pipe 5.4, and the bottom of the mill shell is provided with a discharge pipe 5.5. A discharge pipe valve 5.6 is arranged on the discharge pipe. One end of the backflow pipeline is communicated with the upper part of the pulp boiling barrel, the other end of the backflow pipeline is communicated with the discharge pipe, the other end of the backflow pipeline is located between a valve of the discharge pipe and the shell of the mill, and the backflow pipeline is provided with a backflow pipeline pump body 5.8. Therefore, during the process of heating the coarse cereal soymilk semi-finished product in the soymilk boiling barrel through the spiral steam pipeline, the fibers in the coarse cereal soymilk semi-finished product are cut and milled while the soymilk is boiled and swelled; meanwhile, the heat generated by the refining of the third fine refining device is beneficial to saving the heat consumed by the pulp boiling.

The whole grain soybean milk processing equipment in the embodiment further comprises a second milk storage tank (not shown in the figure). The first soybean milk discharging pipe is positioned above the notch of the second soybean milk storage tank, and the coarse cereal soybean milk semi-finished product discharged by the first soybean milk discharging pipe flows into the second soybean milk storage tank. Store up through feed pipeline 5.9 intercommunication between the upper portion of dressing trough and boil the thick liquid bucket, be equipped with feed pump (not shown in the figure) on the feed pipeline, store up the automatic input of five cereals soybean milk semi-manufactured goods in the dressing trough with the second through feed pump and feed pipeline and boil the thick liquid bucket.

In the third specific embodiment, the processing method of the coarse cereal soybean milk utilizes the processing equipment of the coarse cereal soybean milk in the first specific embodiment to process. The grain and coarse cereal soymilk processing method sequentially comprises the following steps:

the coarse grinding process sequentially comprises the following steps of A, putting the five-cereal soybean milk material and water into a coarse grinding machine together for grinding to obtain coarse grinding material; b, opening a valve of a pulp outlet pipe to enable coarse pulp grinding materials in the coarse pulp grinder to completely flow into a first pulp storage tank through the pulp outlet pipe; c, returning to the step A, and circulating in the way;

the second fine grinding process, namely continuously conveying the coarse ground pulp material in the first pulp storage tank into the first barrel body through a conveying pump and a conveying pipeline, and performing primary fine grinding on the coarse ground pulp material in the primary fine grinding cavity at the bottom of the first barrel body through a first fine grinding device to obtain primary fine ground pulp material; after the liquid level of the slurry in the first barrel body overflows the lower edge of the primary filter screen cylinder, the primary fine grinding material with the fineness meeting the requirement in the first barrel body flows into the second barrel body through the primary filter screen cylinder, the rest primary fine grinding material is continuously remained in the first barrel body, and primary fine grinding is carried out through the first fine grinding device;

secondly, performing secondary fine grinding on the primary fine grinding material in a secondary fine grinding cavity at the bottom of the second barrel body through a secondary fine grinding device to obtain secondary fine grinding material;

after the liquid level of the slurry in the second barrel body overflows the lower edge of the secondary filter screen cylinder, the secondary fine grinding materials with the fineness meeting the requirement in the second barrel body flow into the third barrel body through the secondary filter screen cylinder, the rest secondary fine grinding materials continue to stay in the second barrel body, and secondary fine grinding is carried out through the second fine grinding device;

discharging the secondary fine grinding slurry flowing into the third barrel through the first slurry discharge pipe to obtain a coarse cereal soymilk semi-finished product;

and (III) a pulp boiling procedure, namely, putting the coarse cereal soymilk semi-finished product into a pulp boiling device for pulp boiling.

The method for processing the coarse grain soybean milk utilizes coarse grain soybean milk processing equipment to process, coarse grinding materials are obtained through a coarse grinding process, then primary fine grinding materials are obtained through a first fine grinding device, the fineness of the primary fine grinding materials in a first barrel body meets the requirement, the primary fine grinding materials flow into a second barrel body through a primary filter screen cylinder, the rest primary fine grinding materials continue to stay in the first barrel body, primary fine grinding is carried out through the first fine grinding device, and once fine grinding is repeatedly carried out, so that the fineness of the primary fine grinding materials entering the second barrel body meets the requirement; then, secondary fine grinding materials are obtained through a secondary fine grinding device, the fineness of the secondary fine grinding materials in the second barrel body meets the requirement, the secondary fine grinding materials flow into a third barrel body through a secondary filter screen cylinder, the rest secondary fine grinding materials continue to stay in the second barrel body, secondary fine grinding is carried out through the second fine grinding device, secondary fine grinding is carried out repeatedly in this way, and the fineness of the secondary fine grinding materials entering the third barrel body is ensured to meet the requirement; the secondary fine grinding slurry material flowing into the third barrel body is discharged through the first slurry discharge pipe to obtain the coarse cereal soymilk semi-finished product, so that the fine and smooth coarse cereal soymilk semi-finished product slurry is ensured, meanwhile, no waste water and waste residue is generated, and the utilization rate of the coarse cereal soymilk material is high.

In the embodiment, the coarse cereal soybean milk material is a kidney-tonifying black soybean milk material or a dampness-eliminating slimming soybean milk material, wherein the kidney-tonifying black soybean milk material comprises the following components in parts by mass: 20-40 parts of soybean, 20-40 parts of black soybean, 10-20 parts of black sesame, 5-10 parts of black rice, 5-10 parts of walnut, 5-10 parts of peanut, 5-10 parts of wolfberry fruit and 5-10 parts of red date;

the dampness eliminating and weight reducing soymilk comprises the following materials in parts by mass: 30-60 parts of soybean, 10-20 parts of small red bean, 5-15 parts of coix seed, 5-15 parts of oat, 5-15 parts of white hyacinth bean, 5-10 parts of medlar, 5-10 parts of tuckahoe and 5-10 parts of yam.

In a fourth specific embodiment, the specific processing method of the coarse cereal soybean milk in the embodiment refers to a third specific embodiment, and the differences are as follows: in the embodiment, the coarse grain soybean milk processing method is implemented by using the coarse grain soybean milk processing equipment in the second embodiment.

The pulp boiling procedure in the processing method of the coarse grain soybean milk comprises the following steps,

closing the valve of the discharge pipe;

the coarse grain soymilk semi-finished product in the second soymilk storage tank is automatically conveyed into the soymilk boiling barrel through the feeding pump and the feeding pipeline;

opening the pump body of the backflow pipeline to enable the coarse cereal soymilk semi-finished product in the soymilk boiling barrel to continuously flow circularly through the third fine soymilk grinding device and the backflow pipeline;

starting a third fine pulping device, and grinding the semi-finished product of the coarse grain soybean milk flowing through the third fine pulping device; the coarse grain soymilk semi-finished product in the soymilk boiling barrel is heated by conveying steam in the spiral steam pipeline, so that the fibers in the coarse grain soymilk semi-finished product are sheared and ground while the soymilk is boiled and swelled.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and any simple modifications, alterations and equivalent changes made to the above embodiment according to the technical spirit of the present invention still belong to the protection scope of the technical solution of the present invention.

Claims (9)

1. The coarse cereal soybean milk processing equipment is characterized by comprising a bottom frame, a coarse milk grinding machine arranged on the bottom frame, a milk outlet pipe arranged at the bottom of the coarse milk grinding machine, a milk outlet pipe valve arranged on the milk outlet pipe and a first milk storage tank positioned below the coarse milk grinding machine, wherein the milk outlet pipe is communicated with the first milk storage tank, and the bottom of the first milk storage tank is provided with a milk outlet;

the fine grinding equipment comprises a bottom frame, a first fine grinding device, a second fine grinding device, a first barrel body arranged on the bottom frame, a second barrel body fixed in the first barrel body and a third barrel body fixed in the second barrel body, wherein a pulp inlet is formed in the upper part of the first barrel body, the pulp outlet is connected with the pulp inlet through a conveying pipeline, and a conveying pump is arranged on the conveying pipeline;

a primary fine grinding cavity is formed in a space between the bottom wall of the second barrel body and the bottom wall of the first barrel body, and the first fine grinding device is used for grinding materials in the primary fine grinding cavity;

the upper part or the middle upper part of the side wall of the second barrel body is composed of a primary filter screen cylinder, a secondary fine grinding cavity is formed in a space between the bottom wall of the second barrel body and the bottom wall of the third barrel body, and the second fine grinding pulp device is used for grinding materials in the secondary fine grinding cavity into pulp;

the upper part or the middle upper part of the side wall of the third barrel body is composed of a secondary filter screen cylinder, the aperture of the filter screen hole of the secondary filter screen cylinder is smaller than that of the filter screen hole of the primary filter screen cylinder, the lower edge of the primary filter screen cylinder is higher than that of the secondary filter screen cylinder, the bottom of the third barrel body is provided with a first pulp discharge pipe, the first pulp discharge pipe sequentially penetrates through the second barrel body and the first barrel body, the first pulp discharge pipe is provided with a first switch valve, and the first switch valve is positioned on the outer side of the first barrel body;

the fine grinding equipment also comprises a first self-blockage clearing device, the first self-blockage clearing device comprises a first limiting block arranged at the upper part of the inner wall of the first barrel body, a first floating sleeve body positioned in the first barrel body and a plurality of first blockage clearing rings sequentially sleeved on the second barrel body from top to bottom,

the first blockage removing rings are connected into a whole through connecting pieces, the first blockage removing rings are connected with the inner wall of the first floating sleeve body through the connecting pieces, annular scraping teeth and a plurality of bristles extending towards the outer side surface of the second barrel body are arranged on the inner wall of the first blockage removing rings,

the buoyancy of the first floating sleeve body is larger than the gravity of the first self-blockage removing device, the outer side surface of the first floating sleeve body is close to the inner side surface of the first barrel body, the first floating sleeve body is positioned above the first limiting block, when the first floating sleeve body is supported on the first limiting block, the first floating sleeve body is positioned below the pulp inlet, and at least one first blockage removing ring is positioned below the primary filter screen cylinder;

in the working process of the fine grinding equipment, when a large number of filter meshes on the primary filter screen cylinder are blocked, the liquid level of the slurry in the first barrel body rises; when the liquid level of the slurry in the first barrel body overflows to the first floating sleeve body, the first floating sleeve body floats upwards under the action of the slurry in the first barrel body; when the first floating sleeve body floats upwards under the action of slurry in the first barrel body, the first blockage removing ring moves upwards along with the first floating sleeve body, and the filter meshes of the primary filter screen cylinder are cleaned through the annular scraping teeth and the bristles;

when a large number of filter meshes on the primary filter screen cylinder are blocked, the liquid level of the slurry in the first barrel body still continues to rise along with the process that the first floating sleeve body drives the first blocking ring to move upwards together under the action of the slurry in the first barrel body, and after the first floating sleeve body moves upwards to the slurry inlet, the slurry inlet area of the slurry inlet is gradually reduced along with the upward movement of the first floating sleeve body so as to reduce the slurry inlet speed; when the first floating sleeve body floats upwards under the action of the slurry in the first barrel body and is close to or propped against the inner top surface of the first barrel body, the first floating sleeve body covers the slurry inlet; therefore, the fineness in the first barrel body meets the requirement, and the slurry flows into the second barrel body through the primary filter screen cylinder, so that the slurry in the first barrel body slowly moves downwards.

2. The processing equipment of the coarse cereal soymilk according to claim 1, characterized in that the fine grinding equipment further comprises a second self-blockage-cleaning device, the second self-blockage-cleaning device comprises a second limiting block arranged at the upper part of the inner wall of the second barrel body, a second floating sleeve body positioned in the second barrel body and a plurality of second blockage-cleaning rings sequentially sleeved on the third barrel body from top to bottom,

the second blockage cleaning rings are connected into two bodies through connecting pieces, the second blockage cleaning rings are connected with the inner wall of the second floating sleeve body through the connecting pieces, annular scraping teeth and a plurality of bristles extending to the outer side surface of the third barrel body are arranged on the inner wall of the second blockage cleaning rings,

the buoyancy of the second floating sleeve body is greater than the gravity of the second self-blockage-cleaning device, the outer side surface of the second floating sleeve body is close to the inner side surface of the second barrel body, the second floating sleeve body is positioned above the second limiting block, and when the second floating sleeve body is supported on the second limiting block, at least one second blockage-cleaning ring is positioned below the secondary filter screen cylinder;

when the second floating sleeve body floats upwards under the action of slurry in the second barrel body, the second blockage removing ring moves upwards along with the second floating sleeve body, and the filtering meshes of the secondary filtering net barrel are cleaned through the annular scraping teeth and the bristles.

3. The equipment for processing the coarse grain soybean milk according to claim 1 or 2, wherein the soybean milk boiling device comprises a soybean milk boiling barrel and a spiral steam pipeline positioned in the soybean milk boiling barrel, one end of the spiral steam pipeline is a steam inlet end, the steam inlet end penetrates through the side wall of the soybean milk boiling barrel and is positioned outside the soybean milk boiling barrel, the other end of the spiral steam pipeline is a steam outlet end, and the steam outlet end penetrates through the side wall of the soybean milk boiling barrel and is positioned outside the soybean milk boiling barrel.

4. The cereal grain soymilk processing equipment according to claim 3, wherein the soymilk boiling device further comprises a backflow pipeline and a third fine soymilk grinding device, the third fine soymilk grinding device comprises a mill shell with a closed inner cavity, the bottom of the soymilk boiling barrel is connected with the mill shell through an upper connecting pipe, a discharge pipe is arranged at the bottom of the mill shell, a discharge pipe valve is arranged on the discharge pipe, one end of the backflow pipeline is communicated with the upper part of the soymilk boiling barrel, the other end of the backflow pipeline is communicated with the discharge pipe, the other end of the backflow pipeline is positioned between the discharge pipe valve and the mill shell, and a backflow pipeline pump body is arranged on the backflow pipeline.

5. The equipment for processing the coarse cereal soymilk as claimed in claim 3, wherein the upper end of the soymilk boiling barrel is provided with a barrel opening, and the upper end of the soymilk boiling barrel is also provided with a sealing end cover for sealing the barrel opening.

6. The equipment for processing the coarse cereal soymilk according to claim 1 or 2, characterized in that a third soymilk discharging pipe is arranged at the bottom of the first barrel body, a third switch valve is arranged on the third soymilk discharging pipe, and the third switch valve is positioned outside the first barrel body.

7. A method for processing coarse grain soybean milk by using the coarse grain soybean milk processing equipment according to any one of claims 1 to 6, which is characterized by comprising the following steps in sequence:

the coarse grinding process sequentially comprises the following steps of A, putting the five-cereal soybean milk material and water into a coarse grinding machine together for grinding to obtain coarse grinding material; b, opening a pulp outlet pipe valve to enable coarse pulp grinding materials in the coarse pulp grinder to completely flow into the first pulp storage tank through the pulp outlet pipe; c, returning to the step A, and circulating in the way;

the second fine grinding process, namely continuously conveying the coarse ground pulp material in the first pulp storage tank into the first barrel body through a conveying pump and a conveying pipeline, and performing primary fine grinding on the coarse ground pulp material in the primary fine grinding cavity at the bottom of the first barrel body through a first fine grinding device to obtain primary fine ground pulp material; after the liquid level of the slurry in the first barrel body overflows the lower edge of the primary filter screen cylinder, the primary fine grinding material with the fineness meeting the requirement in the first barrel body flows into the second barrel body through the primary filter screen cylinder, the rest primary fine grinding material is continuously remained in the first barrel body, and primary fine grinding is carried out through the first fine grinding device;

secondly, performing secondary fine grinding on the primary fine grinding material in a secondary fine grinding cavity at the bottom of the second barrel body through a secondary fine grinding device to obtain secondary fine grinding material;

after the liquid level of the slurry in the second barrel body overflows the lower edge of the secondary filter screen cylinder, the secondary fine grinding material with the fineness meeting the requirement in the second barrel body flows into the third barrel body through the secondary filter screen cylinder, and the rest secondary fine grinding material is continuously remained in the second barrel body and is subjected to secondary fine grinding through a second fine grinding device;

discharging the secondary fine grinding slurry material flowing into the third barrel body through the first slurry discharge pipe to obtain a semi-finished product of the coarse cereal soymilk;

and (III) a pulp boiling procedure, namely, putting the semi-finished product of the coarse grain soybean milk into a pulp boiling device for boiling the pulp.

8. The method for processing the coarse grain soymilk according to claim 7, wherein the soymilk boiling process comprises the steps of closing a discharge pipe valve, opening a reflux pipeline pump body, and enabling the semi-finished coarse grain soymilk in the soymilk boiling barrel to continuously flow circularly through a third fine soymilk grinding device and the reflux pipeline; starting the third fine pulping device, and pulping the coarse cereal soymilk semi-finished product flowing through the third fine pulping device; the coarse grain soymilk semi-finished product in the soymilk boiling barrel is heated by conveying steam in the spiral steam pipeline, so that the fibers in the coarse grain soymilk semi-finished product are sheared and ground while the soymilk is boiled and swelled.

9. The processing method of the five-cereal soybean milk as claimed in claim 7, wherein the five-cereal soybean milk material is a kidney-tonifying black soybean milk material or a dampness-eliminating slimming soybean milk material, and the kidney-tonifying black soybean milk material comprises the following components in parts by mass: 20-40 parts of soybean, 20-40 parts of black soybean, 10-20 parts of black sesame, 5-10 parts of black rice, 5-10 parts of walnut, 5-10 parts of peanut, 5-10 parts of medlar and 5-10 parts of red date;

the dampness eliminating and weight reducing soymilk comprises the following materials in parts by mass: 30-60 parts of soybean, 10-20 parts of small red bean, 5-15 parts of coix seed, 5-15 parts of oat, 5-15 parts of white hyacinth bean, 5-10 parts of medlar, 5-10 parts of tuckahoe and 5-10 parts of yam.

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