CN109666060B

CN109666060B - Grinding equipment for extracting protein

Info

Publication number: CN109666060B
Application number: CN201910165221.7A
Authority: CN
Inventors: 陈俊兵; 郭鸣明
Original assignee: Fuxiang Nuoweixin Biotechnology Suzhou Co ltd
Current assignee: Fuxiang Nuoweixin Biotechnology Suzhou Co ltd
Priority date: 2019-03-05
Filing date: 2019-03-05
Publication date: 2022-03-25
Anticipated expiration: 2039-03-05
Also published as: CN109666060A

Abstract

The invention discloses grinding equipment for extracting protein, which comprises a grinding machine, wherein the top and the bottom of the grinding machine are respectively provided with a feeding hole and a discharging hole; the grinding machine is internally provided with a screen, the screen is obliquely arranged in the grinding machine, a vibrating plate is arranged above the screen, the periphery of the vibrating plate is clamped in a groove formed in the inner wall of the grinding machine, a motor is arranged on the bottom wall of the groove, and an output shaft of the motor is fixedly connected to the bottom wall of the vibrating plate; the motor comprises a motor body, a first dustproof shell, a second dustproof shell, a first placing box, a second placing box and a dustproof plate; a cooling fin is arranged outside the motor body, a first placing box is arranged on the cooling fin, and a dustproof plate is inserted in the first placing box; the second placing box is arranged in the first dustproof shell and the second dustproof shell, and a drying agent is placed in the second placing box. The grinding equipment can avoid that the protein is polluted by dust or moistened due to the operation of the motor in the processing process, thereby influencing the quality of the protein.

Description

Grinding equipment for extracting protein

Technical Field

The invention relates to the technical field of protein production equipment, in particular to grinding equipment for extracting protein.

Background

Protein is an important component for composing all cells and tissues of human body. All important components of the body require the involvement of proteins. Proteins are the material basis of life, are organic macromolecules, are basic organic matters constituting cells, and are the main players of life activities. Without proteins, no life is present. Amino acids are the basic building blocks of proteins. It is a substance that is closely related to life and to various forms of life activities. Proteins are involved in every cell and all important components of the body. The human body protein has many kinds, different properties and functions, but is formed by combining various amino acids according to different proportions, and is continuously metabolized and updated in the body.

The existing human protein sources are mainly obtained by taking protein food, and the intake amount is insufficient, so that the protein extracted by manpower needs to be additionally taken. In the prior art, protein extraction needs to be carried out after grinding a protein raw material at a low temperature to obtain a small-particle raw material. Because protein is used as food, the sanitary safety requirement is high in the processing process, the grinding effect is mainly focused in the existing grinding device, the sanitary safety in the grinding device is not concerned, and the existing grinding device is easy to pollute the protein and influence the quality of the protein.

Disclosure of Invention

The invention mainly solves the technical problem of providing the grinding equipment for extracting the protein, and has the advantages of good grinding effect and high grinding efficiency.

In order to achieve the purpose, the technical scheme adopted by the invention for solving the technical problems is as follows:

a grinding device for extracting protein comprises a grinding machine, wherein the top and the bottom of the grinding machine are respectively provided with a feed inlet and a discharge outlet, the grinding machine is internally provided with a screen, the screen is obliquely arranged inside the grinding machine, a vibration plate is arranged above the screen, the periphery of the vibration plate is clamped in a groove formed in the inner wall of the grinding machine, a motor is arranged on the bottom wall of the groove, an output shaft of the motor is fixedly connected to the bottom wall of the vibration plate, first sieve holes are uniformly distributed in the vibration plate, a sliding groove is formed in the top of the vibration plate, a lower grinding disc is slidably connected onto the sliding groove and is of a horn-shaped structure with an upward opening, a grinding cavity is formed in the lower grinding disc, two sides of the lower grinding disc are connected with the inner wall of the groove through springs, second sieve holes are uniformly distributed in the bottom of the lower grinding disc, an upper grinding disc is arranged above the lower grinding disc and is of a horn-shaped with an upward opening, the periphery of the upper grinding disc is fixedly connected with the inner wall of the grinding machine, the bottom of the upper grinding disc is positioned in the grinding cavity of the lower grinding disc, and third sieve pores are uniformly distributed at the bottom of the upper grinding disc;

the motor comprises a motor body, a first dustproof shell, a second dustproof shell, a first placing box, a second placing box and a dustproof plate; the motor body is connected with a rotating shaft, and a bearing is arranged at the joint of the rotating shaft and the motor body; the motor comprises a motor body, a first dustproof shell, a second dustproof shell, a connecting rod, a first fixing seat, a second fixing seat, a radiating fin, a first arranging box and a dustproof plate, wherein the first dustproof shell and the second dustproof shell are respectively arranged on two sides of the motor body; the second placing box is arranged in the first dustproof shell and the second dustproof shell, and a drying agent is placed in the second placing box.

Preferably, the aperture of the third sieve pore is larger than that of the second sieve pore, and the aperture of the first sieve pore is larger than that of the second sieve pore.

Preferably, the bottom of the upper grinding disc is uniformly distributed with upper grinding teeth, and the inner bottom wall of the lower grinding disc is provided with lower grinding teeth which are staggered with the upper grinding teeth.

Preferably, the grinding machine is provided with a circulating outlet at the position of the end of the grinding machine inclined downwards from the screen mesh, the circulating outlet is connected with a circulating pipe communicated with the feeding hole, and the circulating pipe is connected with a feeding pump.

Comparatively preferred, grind and seted up vertical through-hole on the machine, and go up the abrasive disc periphery and stretch out a piece to the evagination, this go up abrasive disc accessible prop up piece and through-hole cooperation sliding connection on grinding the machine, and prop up piece top fixedly connected with telescopic link, the other end and the telescopic cylinder output shaft that sets up on grinding the machine of this telescopic link.

Preferably, the bearing is a waterproof bearing.

Due to the application of the technical scheme, compared with the prior art, the invention has the following beneficial effects:

the utility model provides a grinding device for draw protein, first dust keeper through setting up, second dust keeper and dust guard, directly with first dust keeper, second dust keeper and dust guard are installed on the fin, and still set up the second in this grinding device and settle case and drier, it is whole to constitute a confined dust proof housing, avoid dust in the use effectively, moisture or rainwater etc. enter into the motor, reach dustproof and waterproof effect, because the motor is installed inside grinding the machine, avoid causing the protein to receive dust pollution or wet because of the motor operation in the course of working, thereby influence the quality of protein.

Drawings

FIG. 1 is a schematic configuration diagram of embodiment 1 of a milling apparatus for protein extraction according to the present invention;

fig. 2 is a schematic structural view of embodiment 2 of the milling apparatus for extracting protein of the present invention.

FIG. 3 is a schematic view showing the structure of a motor in the grinding apparatus for protein extraction according to the present invention.

FIG. 4 is a schematic view of another angle of the motor of the grinding apparatus for protein extraction according to the present invention.

FIG. 5 is a schematic view showing the structure of a first dust-proof housing in the grinding apparatus for protein extraction according to the present invention.

Description of the drawings:

the grinding machine comprises a grinding machine 1, a feeding hole 2, a discharging hole 3, a screen 4, a vibration plate 5, a groove 6, a motor 7, a motor body 701, a first dustproof shell 702, a second dustproof shell 703, a first placing box 704, a dustproof plate 705, a first fixing seat 706, a second fixing seat 707, a connecting rod 708, a cooling fin 709, a bolt 710, a rotating shaft 711, a threaded hole 712, a cooling fin slot 713, a dustproof plate slot 714, a bearing 715, a first sieve hole 8, a sliding groove 9, a lower grinding disc 10, a grinding cavity 11, a spring 12, a second sieve hole 13, an upper grinding disc 14, a third sieve hole 15, an upper grinding tooth 16, a lower grinding tooth 17, a circulating outlet 18, a circulating pipe 19, a feeding pump 20, a through hole 21, a support block 22, a telescopic rod 23 and an air cylinder 24.

Detailed Description

The following detailed description of the preferred embodiments of the present invention, taken in conjunction with the accompanying drawings, will make the advantages and features of the invention easier to understand by those skilled in the art, and thus will clearly and clearly define the scope of the invention.

The grinding apparatus for extracting protein according to the present invention will be further described with reference to the accompanying drawings and embodiments.

Referring to the attached drawings, the grinding apparatus of the present invention for extracting protein includes a grinder 1, a feed inlet 2 and a discharge outlet 3 are respectively disposed at the top and bottom of the grinder 1, a screen 4 is disposed inside the grinder 1, the screen 4 is disposed in an inclined manner inside the grinder 1, a vibration plate 5 is disposed above the screen 4, the periphery of the vibration plate 5 is clamped in a groove 6 formed on the inner wall of the grinder 1, a motor 7 is mounted on the bottom wall of the groove 6, an output shaft of the motor 7 is fixedly connected to the bottom wall of the vibration plate 5, and first sieve pores 8 are uniformly distributed on the vibration plate 5, so that the vibration plate 5 can be driven by the motor 7 to vibrate up and down in the grinder 1, meanwhile, a chute 9 is disposed at the top of the vibration plate 5, a lower grinding plate 10 is slidably connected to the chute 9, the lower grinding plate 10 is of a horn-shaped structure with an upward opening, and has grinding cavity 11, and both sides of lower grinding disk 10 are connected with inner wall of recess 6 through spring 12, the bottom of the lower grinding disk 10 is uniformly distributed with second sieve pore 13, so that when motor 7 is worked, the lower grinding disk 10 can be vibrated up and down in grinding machine 1, and because lower grinding disk 10 is slidably connected on vibration plate 5, so that when the lower grinding disk 10 is vibrated up and down, it can be slided left and right in slideway 9.

In addition, an upper grinding disk 14 is arranged above the lower grinding disk 10, the upper grinding disk 14 is in a horn shape with an upward opening, the periphery of the upper grinding disk 14 is fixedly connected with the inner wall of the grinding machine 1, the bottom of the upper grinding disk 14 is positioned in the grinding cavity 11 of the lower grinding disk 10, and third sieve holes 15 are uniformly distributed at the bottom of the upper grinding disk 14, so that when the protein raw material needs to be ground, the motor 7 is started, the protein raw material to be ground is put into the grinding machine 1 through the feed inlet 2, enters the upper grinding disk 10, enters a gap between the upper grinding disk 14 and the lower grinding disk 10 through the third sieve holes 15 on the upper grinding disk 10, the lower grinding disk 10 vibrates up and down to extrude the protein raw material to be ground between the upper grinding disk 14 and the lower grinding disk 10 to form a positive impact force, meanwhile, the lower grinding disk 10 can move left and right at the same time of the up and down vibration, the protein raw material to be ground is acted by the lower grinding disk 10, the upper grinding disc 14 rolls to form lateral shearing force to the protein raw material to be ground, so that the protein raw material to be ground is ground and crushed under the action of positive impact force and the lateral shearing force, the crushed protein raw material enters the screen 4 through the second screen hole 13 and the first screen hole 8, enters the bottom of the grinding machine 1 after being filtered by the screen 4 and is discharged from the discharge hole 3, and the grinding process of the protein raw material is completed.

The motor comprises a motor body 701, a first dustproof shell 702, a second dustproof shell 703, a first placing box 704, a second placing box and a dustproof plate 705; the motor comprises a motor body 701, a first dustproof shell 702 and a second dustproof shell 703, wherein the first dustproof shell 702 and the second dustproof shell 703 are respectively arranged on two sides of the motor body 701, a first fixed seat 706 is installed at the right end of the first dustproof shell 702, a second fixed seat 707 is installed at the left end of the second dustproof shell 703, the first fixed seat 706 is connected with the second fixed seat 707 through a connecting rod 708, two ends of the connecting rod 708 are fixedly arranged on the first fixed seat 706 and the second fixed seat 707 through bolts 710, a radiating fin 709 is arranged outside the motor body 701, a first placing box 704 is arranged on the radiating fin 709, and a dustproof plate 705 is inserted in the first placing box 704; a second housing box is provided in the first dust-proof housing 702 and the second dust-proof housing 703, and a desiccant is placed in the second housing box.

The rotating shaft 711 is installed on the right side of the motor body 701, the right side of the rotating shaft 711 extends to the outside through the second dustproof shell 703, the rotating shaft 711 and the second dustproof shell 703 are rotatably connected through a bearing 715, and the bearing 715 can be a waterproof bearing 715. The first fixing seat 706 and the second fixing seat 707 are both provided with threaded holes 712. The right side of the first fixing seat 706 is provided with a heat sink slot 713 and a dust guard slot 714, and the heat sink slot 713 and the dust guard slot 714 are annularly distributed on the first fixing seat 706; the right side of the second fixing seat 707 is provided with a heat sink slot 713 and a dust guard slot 714, and the heat sink slot 713 and the dust guard slot 714 are annularly distributed on the second fixing seat 707.

When the motor is used, the dust-proof plate 705 is firstly inserted into the first placement groove on the heat radiating fin 709, after the dust-proof plate 705 is installed, the first dust-proof housing 702 is inserted into the left ends of the heat radiating fin 709 and the dust-proof plate 705 through the heat radiating fin slot 713 and the dust-proof plate slot 714 on the right side of the first fixing seat 706, the second dust-proof housing 703 is inserted into the right ends of the heat radiating fin 709 and the dust-proof plate 705 through the heat radiating fin slot 713 and the dust-proof plate slot 714 on the right side of the second fixing seat 707, and then the first dust-proof housing 702 and the second dust-proof housing 703 are fixedly connected onto the heat radiating fin 709 and the dust-proof plate 705 through the bolts 710.

In addition, the aperture of third sieve mesh 15 is greater than the aperture of second sieve mesh 13, and the aperture of first sieve mesh 8 is greater than the aperture of second sieve mesh, and like this, treat that the ground protein raw materials can pass third sieve mesh 13, but can not pass second sieve mesh 13, just can pass second sieve mesh 13 after needing to pass through grinder grinding, and the aperture of first sieve mesh 8 is greater than the aperture of second sieve mesh 13, and the protein raw materials after conveniently grinding can enter into screen cloth 4 fast.

Preferably, the upper grinding teeth 16 are uniformly distributed at the bottom of the upper grinding disk 14, the lower grinding teeth 17 which are staggered with the upper grinding teeth 16 are arranged on the inner bottom wall of the lower grinding disk 10, and the grinding effect of the protein raw material can be improved through the interaction of the upper grinding teeth 16 and the lower grinding teeth 17.

In order to grind the protein raw material which does not pass through the screen again, a circulating outlet 18 is arranged at the position of the inclined downward end of the grinder 1 and the screen 4, the circulating outlet 18 is connected with a circulating pipe 19 communicated with the feed port 2, and the circulating pipe 19 is connected with a feeding pump 20, so that the protein raw material which is not filtered out by the screen 4 can be conveyed to the feed port 2 through the circulating pipe 19 for grinding again, thereby ensuring the grinding effect of the grinding device of the invention.

In order to adjust the gap between the bottom of the upper grinding disk 14 and the inner bottom wall of the lower grinding disk 10 and meet the grinding requirements of different proteins, a vertical through hole 21 is formed in the grinding machine 1, a supporting block 22 protrudes outwards from the periphery of the upper grinding disk 14, the upper grinding disk 14 can be in sliding connection with the through hole 21 in a matching mode through the supporting block 22, a telescopic rod 23 is fixedly connected to the top of the supporting block 22, the other end of the telescopic rod 23 is connected with an output shaft of a telescopic cylinder 24 arranged on the grinding machine 1, and therefore the gap between the upper grinding disk 14 and the lower grinding disk 10 is adjusted through the telescopic cylinder 24, and the grinding requirements of different proteins are met.

When the grinding device is used, firstly, the motor 7 is started, protein raw materials to be ground are put into the grinding machine 1 through the feeding hole 2, enter the upper grinding disc 14 and enter a gap between the upper grinding disc 14 and the lower grinding disc 10 through the third sieve hole 15 on the upper grinding disc 14, the lower grinding disc 10 vibrates up and down to extrude the protein raw materials to be ground entering the gap between the upper grinding disc 14 and the lower grinding disc 10 to form forward impact force, meanwhile, the lower grinding disc 10 can move left and right while vibrating up and down, the protein raw materials to be ground roll relative to the upper grinding disc 14 under the action of the lower grinding disc 10 to form lateral shearing force of the protein raw materials to be ground, therefore, the protein raw materials to be ground are ground and crushed under the action of the forward impact force and the lateral shearing force, the crushed protein raw materials enter the screen 4 through the second sieve hole 13 and the first sieve hole 8, the protein raw material filtered by the screen 4 enters the bottom of the grinding machine 1 and is discharged from the discharge port 3, and the protein raw material which is not filtered by the screen 4 can be conveyed to the feed port 2 through the circulating pipe 19 for grinding again, so that the grinding effect of the grinding device of the invention is ensured.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims

1. A grinding apparatus for extracting proteins, characterized by: the device comprises a grinding machine, wherein the top and the bottom of the grinding machine are respectively provided with a feeding hole and a discharging hole; the grinding machine is internally provided with a screen, the screen is obliquely arranged inside the grinding machine, a vibration plate is arranged above the screen, the periphery of the vibration plate is clamped in a groove formed in the inner wall of the grinding machine, a motor is installed on the bottom wall of the groove, the output shaft of the motor is fixedly connected to the bottom wall of the vibration plate, first sieve meshes are uniformly distributed on the vibration plate, a sliding groove is formed in the top of the vibration plate, a lower grinding disc is connected onto the sliding groove in a sliding mode and is of a horn-shaped structure with an upward opening and provided with a grinding cavity, the two sides of the lower grinding disc are connected with the inner wall of the groove through springs, second sieve meshes are uniformly distributed at the bottom of the lower grinding disc, an upper grinding disc is arranged above the lower grinding disc, the upper grinding disc is of a horn-shaped structure with an upward opening, the periphery of the upper grinding disc is fixedly connected with the inner wall of the grinding machine, and the bottom of the upper grinding disc is positioned in the grinding cavity of the lower grinding disc, third sieve pores are uniformly distributed at the bottom of the upper grinding disc;

2. The grinding apparatus for extracting proteins as claimed in claim 1, wherein: the aperture of the third sieve pore is larger than that of the second sieve pore, and the aperture of the first sieve pore is larger than that of the second sieve pore.

3. The grinding apparatus for extracting proteins as claimed in claim 1, wherein: the bottom of the upper grinding disc is uniformly distributed with upper grinding teeth, and the inner bottom wall of the lower grinding disc is provided with lower grinding teeth which are distributed in a staggered manner with the upper grinding teeth.

4. The grinding apparatus for extracting proteins as claimed in claim 1, wherein: the grinding machine is provided with a circulating outlet at the position of one end of the grinding machine which is inclined downwards to the screen, the circulating outlet is connected with a circulating pipe communicated with the feeding hole, and the circulating pipe is connected with a feeding pump.

5. The grinding apparatus for extracting proteins as claimed in claim 1, wherein: the grinding machine is provided with a vertical through hole, the periphery of the upper grinding disc extends outwards to form a supporting block, the upper grinding disc can be connected to the grinding machine through the supporting block and the through hole in a matched sliding mode, a telescopic rod is fixedly connected to the top of the supporting block, and the other end of the telescopic rod is connected with a telescopic cylinder output shaft arranged on the grinding machine.

6. The grinding apparatus for extracting proteins as claimed in claim 1, wherein: the bearing is a waterproof bearing.