阅读说明：本技术 一种蛋白粉加工方法 (Protein powder processing method ) 是由 郭爽 于 2021-09-16 设计创作，主要内容包括：本发明涉及蛋白粉加工技术领域,更具体的说是一种蛋白粉加工方法。一种蛋白粉加工方法,该方法包括以下步骤：步骤一：大豆、牛奶和蛋清原料按照比例进行投放；步骤二：大豆、牛奶和蛋清进行混合挤压,大豆蛋白和乳清蛋白混合排出；步骤三：通过纱布对排出液体进行过滤；步骤四：在压榨大豆、牛奶和蛋清残渣在压榨的同时被挤出进行回收再利用。能够在进行蛋白粉制备时更加充分利用原料。(The invention relates to the technical field of protein powder processing, in particular to a protein powder processing method. A protein powder processing method comprises the following steps: the method comprises the following steps: putting raw materials of soybean, milk and egg white in proportion; step two: mixing and extruding the soybeans, the milk and the egg white, and mixing and discharging the soybean protein and the whey protein; step three: filtering the discharged liquid through gauze; step four: the residue of the pressed soybean, milk and egg white is extruded and recycled while being pressed. Can make full use of raw materials when protein powder is prepared.)

1. A protein powder processing method is characterized in that: the method comprises the following steps:

the method comprises the following steps: putting raw materials of soybean, milk and egg white in proportion;

step two: mixing and extruding the soybeans, the milk and the egg white, and mixing and discharging the soybean protein and the whey protein;

step three: filtering the discharged liquid through gauze;

step four: the soybean, milk and egg white residues are squeezed out and recycled at the same time.

2. A protein powder processing method according to claim 1, characterized in that: the protein powder processing device comprises a top layer sealing cover (11), a measuring cylinder (12), a plurality of telescopic supporting rods (13) and hydraulic rods (14), wherein the top layer sealing cover (11) is provided with the measuring cylinder (12), the bottom of the top layer sealing cover (11) is provided with the plurality of telescopic supporting rods (13), the hydraulic rods (14) are arranged at the bottom of the top layer sealing cover (11), and the bottoms of the hydraulic rods (14) and the plurality of telescopic supporting rods (13) are fixedly connected onto a supporting plate.

3. A protein powder processing method according to claim 2, characterized in that: the device still includes solid sediment pressboard (21), unloading communicating pipe (22) and slag hole (23), and a plurality of slag holes (23) all set up on solid sediment pressboard (21), and a plurality of unloading communicating pipe (22) set up respectively in the bottom of measuring cylinder (12), all are provided with the valve on a plurality of unloading communicating pipe (22).

4. A protein powder processing method according to claim 3, characterized in that: the device also comprises a threaded rod (31), a connecting shaft (32) and scattered falling pressing rods (33), wherein the connecting shaft (32) is circumferentially provided with a plurality of scattered falling pressing rods (33), the threaded rod (31) and the scattered falling pressing rods (33) are in threaded transmission, and the threaded rod (31) is fixedly connected to the bottom of the solid slag pressing plate (21).

5. A protein powder processing method according to claim 4, characterized in that: the cross section of the scattered falling pressure lever (33) is in a semi-circular arc shape.

6. A protein powder processing method according to claim 4, characterized in that: the device still includes inlayer agitator (41) and restriction curb plate (42), and the equal sliding connection of a plurality of scattered depression bars (33) that fall is on inlayer agitator (41), and the equal rigid coupling of a plurality of restriction curb plate (42) is on inlayer agitator (41), and it has one to fall scattered depression bar (33) that falls all to slide between per two restriction curb plate (42), and solid sediment pressboard (21) slide on inlayer agitator (41).

7. A protein powder processing method according to claim 6, characterized in that: the device also comprises an outer wrapping cavity (43) and a detachable bottom box (44), wherein the inner layer stirring barrel (41) is rotatably connected in the outer wrapping cavity (43), and the detachable bottom box (44) is detachably connected at the bottom of the outer wrapping cavity (43).

8. A protein powder processing method according to claim 7, characterized in that: the device also comprises a general supporting bottom frame (51), an upper supporting frame (52) and a plurality of wrapping side plates (53), wherein the upper supporting frame (52) is fixedly connected to the plurality of wrapping side plates (53), the plurality of wrapping side plates (53) are fixedly connected to the general supporting bottom frame (51), and a wrapping outer cavity (43) is fixedly connected to the plurality of wrapping side plates (53).

9. A protein powder processing method according to claim 8, characterized in that: the device still includes that the branch liquid holds a section of thick bamboo (61) and deposits case (62), and branch liquid holds a section of thick bamboo (61) and deposits case (62) rigid coupling, and a plurality of case (62) of depositing all set up on can dismantling under casing (44).

10. A protein powder processing method according to claim 9, characterized in that: and valves are arranged at the joints of the liquid separation receiving barrels (61).

Technical Field

The invention relates to the technical field of protein powder processing, in particular to a protein powder processing method.

Background

The protein powder is prepared from soybean protein, whey and lecithin, wherein the whey protein which is one of main components contains sufficient methionine, makes up the deficiency of the soybean protein, and can provide 9 amino acids necessary for human body in a balanced manner. For healthy people, this generally does not occur as long as a normal diet is adhered to. The milk, egg, meat, soybean, wheat and corn contain necessary amino acids in complete variety, sufficient amount and proper proportion. As long as the rich and various foods are adhered to, the protein powder can completely meet the needs of human bodies for protein, and protein powder does not need to be supplemented. The raw materials cannot be fully utilized when the protein powder is prepared.

Disclosure of Invention

The invention aims to provide a protein powder processing method, which can more fully utilize raw materials during protein powder preparation.

The purpose of the invention is realized by the following technical scheme:

a protein powder processing method comprises the following steps:

the method comprises the following steps: putting raw materials of soybean, milk and egg white in proportion;

step two: mixing and extruding the soybeans, the milk and the egg white, and mixing and discharging the soybean protein and the whey protein;

step three: filtering the discharged liquid through gauze;

step four: the residue of the pressed soybean, milk and egg white is extruded and recycled while being pressed.

Furthermore, the method also uses a protein powder processing device which comprises a top layer sealing cover, a plurality of measuring material cylinders, a plurality of telescopic supporting rods and a hydraulic rod, wherein the top layer sealing cover is provided with the plurality of measuring material cylinders, the bottom of the top layer sealing cover is provided with the plurality of telescopic supporting rods, the hydraulic rod is arranged at the bottom of the top layer sealing cover, and the bottoms of the hydraulic rod and the plurality of telescopic supporting rods are fixedly connected on the supporting plate.

Further, the device still includes solid sediment pressboard, unloading communicating pipe and the hole of slagging tap, and a plurality of holes of slagging tap all set up on solid sediment pressboard, and a plurality of unloads set up respectively in the bottom of feed cylinder communicating pipe, all are provided with the valve on a plurality of unloads communicating pipe.

Drawings

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

FIG. 1 is a flow chart of the present invention;

FIG. 2 is a telescopic feed assembly of the present invention;

FIG. 3 is a millboard of the present invention;

FIG. 4 is a press agitation assembly of the present invention;

FIG. 5 is a scatter drop lever of the present invention;

FIG. 6 is an inner sleeve and an outer sleeve of the present invention;

FIG. 7 is a connecting view of the press plate and press agitation assembly of the present invention;

FIG. 8 is a portion storage tank of the present invention;

FIG. 9 is a dispensing receiving cartridge of the present invention;

fig. 10 is an overall view of the present invention.

Detailed Description

A protein powder processing method comprises the following steps: the method comprises the following steps: putting the raw materials of soybean, milk and egg white in a certain proportion; step two: mixing and extruding the soybeans, the milk and the egg white, and mixing and discharging the soybean protein and the whey protein; step three: filtering the discharged liquid through gauze; step four: the residue of the pressed soybean, milk and egg white is extruded and recycled while being pressed. The protein liquid prepared by the method can be purified to obtain protein powder with higher mixing degree, the soybean, milk and egg white raw material residues extracted by the protein liquid can also be collected and utilized, and the residues contain partial components of the milk and the egg white, so that the bean dregs which can be extruded can also be utilized to prepare pet feed, and the raw materials can be more fully utilized.

The telescopic feed assembly part can be operated in an exemplary manner with reference to fig. 1 and 10:

in order to purify the soybean protein, the method also uses a protein powder processing device, the device comprises a top layer cover 11, a measuring cylinder 12, a telescopic supporting rod 13 and a hydraulic rod 14, the top layer cover 11 is fixedly connected with a plurality of measuring cylinders 12, the plurality of measuring cylinders 12 are provided with scales which can regulate the addition of egg white and milk according to the scales, and soybeans with determined weight are cooperatively added together, the bottom of the top layer cover 11 is fixedly connected with a plurality of telescopic supporting rods 13, the hydraulic rod 14 is fixedly connected to the bottom of the top layer cover 11, the bottoms of the hydraulic rod 14 and the plurality of telescopic supporting rods 13 are fixedly connected to a supporting plate, the distance between the supporting plate and the top layer cover 11 can be adjusted by driving the length of the hydraulic rod 14, and the top layer cover 11 is controlled to move downwards so as to perform squeezing work.

The press plate section may be operated in an exemplary manner with reference to FIG. 3:

in order to further squeeze and take out bean dregs with less water after the soybean is squeezed by the device, the device is also provided with a solid dreg pressing plate 21, a blanking communicating pipe 22 and a dreg discharging hole 23, the dreg discharging holes 23 are all arranged on the solid dreg pressing plate 21, the blanking communicating pipes 22 are respectively arranged at the bottom of the measuring cylinder 12, valves are all arranged on the blanking communicating pipes 22, when materials are added, the valves on the blanking communicating pipes 22 are kept in a closed state, and the dreg discharging holes 23 are blocked by using gauze, so that when the length of the hydraulic rod 14 is shortened, the materials can be fully compacted by the solid dreg pressing plate 21, when the materials are squeezed, the complete valve on the blanking communicating pipe 22 at the lower part of the measuring cylinder 12 where the soybean is placed is opened firstly, the valve is closed after the whole soybean descends, and then the length of the hydraulic rod 14 is gradually shortened, at the same time, the valves provided in the feed connection pipes 22 corresponding to the measuring cylinders 12 in which milk and albumen are placed, respectively, are opened. Make the speed ratio of milk and albumen whereabouts be 2 to 1, can guarantee that albumen adheres and milk permeates gradually when the soybean is crushed, guarantee to crush in-process soybean gradually, albumen and milk carry out the intensive mixing, make soybean protein and lactalbumin carry out the intensive mixing in the liquid of squeezing out, after milk and albumen complete addition finishes, the mixture is again through squeezing of a period, take off the gauze on a plurality of slag hole 23, make hydraulic stem 14 shorten fast again, it can discharge along a plurality of slag hole 23 to be located the "soft" part on mixed material upper strata, it is strip discharge easier to collect to extrude, can directly utilize as pet food after air-dry processing.

The press agitation assembly portion may be operated in an exemplary manner with reference to fig. 4 and 7:

because the soybeans are only in a crushed state in the pressing process and gaps among crushed soybeans in the pressing process cannot be filled during stirring, the device is provided with a threaded rod 31, a connecting shaft 32 and scattered pressing rods 33, the connecting shaft 32 is circumferentially and fixedly connected with a plurality of scattered pressing rods 33, the threaded rod 31 and the scattered pressing rods 33 are in threaded transmission, the threaded rod 31 is fixedly connected with the bottom of the solid slag pressing plate 21, when the solid slag pressing plate 21 moves downwards, the threaded rod 31 is pushed, the connecting shaft 32 is rotated and drives the scattered pressing rods 33 to rotate under the pushing of the threads, the connecting shaft 32 consists of an upper sleeve and a lower cylinder rod, the lower cylinder rod is fixedly connected with the bottom of the upper sleeve, the upper sleeve is in threaded transmission with the threaded rod 31, the threaded rod 31 is continuously pressed down until the threaded rod 31 completely enters the upper sleeve, and then the hydraulic rod 14 continuously moves downwards, the lower part cylinder rod shortens a plurality of scattered depression bars 33 that fall and pushes down the material that lies in under it and is further squeezed, and when hydraulic stem 14 extension, lower part cylinder rod reconversion drives a plurality of scattered depression bars 33 that fall and moves upward, and the space that appears after the suppression is filled up to the dregs of beans, later makes hydraulic stem 14 shorten again and suppresses, through repeated above-mentioned operation, can make the material of suppression mix more fully.

The scatter-down ram portion may be operated in an exemplary manner with reference to FIG. 5:

the cross section of the plurality of scattering pressing rods 33 is in a semi-circular arc shape, and when the plurality of scattering pressing rods 33 rotate, the compression of the lower cylinder rod is gradually downward, so that the motion trail of the scattering pressing rods 33 is actually spiral downward, and the materials wrapped by the semi-circular arc can be pressed while being stirred.

The inner drum portion may be operated in an exemplary manner with reference to fig. 6 and 10:

because a plurality of scattered depression bars 33 that fall down need reciprocate at the in-process that squeezes, consequently the device still is provided with inlayer agitator 41 and restriction curb plate 42, the equal sliding connection of a plurality of scattered depression bars 33 that fall down is on inlayer agitator 41, the equal rigid coupling of a plurality of restriction curb plates 42 is on inlayer agitator 41, it has one scattered depression bar 33 that falls to all slide between per two restriction curb plates 42, gu the sediment pressboard 21 slides on inlayer agitator 41, the space between per two restriction curb plates 42 when squeezing the in-process provides the slide for a plurality of scattered depression bars 33 that fall down, the material all falls into inlayer agitator 41, be provided with a plurality of tiny holes in inlayer agitator 41 bottom, can effectually carry out in time discharging with the liquid that squeezes the production, and laid the one deck filter cloth in inlayer agitator 41 bottom before the use, be used for preventing the whereabouts of solid material.

The outer sleeve portion may be operated in an exemplary manner with reference to fig. 6:

inner layer agitator 41 squeezes the phenomenon that the process can take place rotatoryly at the device, therefore the device still is provided with parcel exocoel 43 and can dismantle under casing 44, and inner layer agitator 41 rotates to be connected in parcel exocoel 43, can dismantle under casing 44 and can dismantle the bottom of connecting at parcel exocoel 43, through a period of use, can change the filter cloth wherein through unloading can dismantle under casing 44, also conveniently surveys inner layer agitator 41 bottom.

The overall holder portion may be operated in an exemplary manner with reference to fig. 8 and 10:

the device still includes always supporting chassis 51, go up support 52 and parcel curb plate 53, go up support 52 rigid coupling on a plurality of parcel curb plates 53, the equal rigid coupling of a plurality of parcel curb plates 53 is on always supporting chassis 51, parcel exocoel 43 rigid coupling is on a plurality of parcel curb plates 53, a plurality of parcel curb plates 53 are provided with the rubber pad with parcel exocoel 43 contact position, a plurality of rubber pads that set up can effectual reduction by the vibrations that inlayer agitator 41 rotated and produced, play certain cushioning effect.

The portion of the dispensing storage tank may be operated in an exemplary manner with reference to fig. 9 and 10:

after the liquid generated by squeezing flows into the detachable bottom case 44, because the components in the liquid generated at different periods are different, the device is provided with a liquid separation receiving cylinder 61 and a storage case 62, the liquid separation receiving cylinder 61 and the storage case 62 are fixedly connected, a plurality of storage cases 62 can be detachably connected to the detachable bottom case 44, when only soybeans are added for squeezing at the beginning, the liquid which flows out is rich in grease, the liquid flows into the liquid separation receiving cylinder 61 and is stored in the corresponding storage case 62, the ratio of soybean protein and whey protein in the liquid which flows out is the same, the liquid flows into the corresponding storage case 62, the soybean protein in the last liquid is less than the whey protein, and the liquid separation storage is completed when the soybean protein flows into the corresponding storage case 62.

The liquid separation receiving cylinder part can carry out an exemplary working process by referring to fig. 9:

a plurality of divide liquid and hold a section of thick bamboo 61 kneck and all be provided with the valve, the operation is through the valve that divides liquid to hold a section of thick bamboo 61 kneck and all set up respectively to control the liquid material and get into.