CN210647289U - Special flour production facility of high school low protein - Google Patents

Abstract

The utility model discloses a special flour production facility of high school low protein relates to special flour apparatus for producing technical field of high school low protein, for solving because the screen cloth aperture size causes the screening inaccurate and because the characteristic of flour granule leads to the not thorough problem of screening when the screening. The top of base is provided with the supporting box, and supporting box and base pass through the screw connection, the top of supporting box is provided with the motor, the top of motor is provided with the agitator tank, the top of agitator tank is provided with the feeder hopper, the top of feeder hopper is provided with the storage box, one side of agitator tank is provided with one-level air classifier, one side of one-level air classifier is provided with second grade air classifier, one side of second grade air classifier is provided with cyclone collector, one side of cyclone collector is provided with pulse dust collector, one side of pulse dust collector is provided with the fan, be provided with the support between pulse dust collector and fan and the base.

Description

Special flour production facility of high school low protein

Technical Field

The utility model relates to a special flour apparatus for producing of high school low protein technical field specifically is a special flour production facility of high school low protein.

Background

With the continuous improvement of the living standard of people in China, the development of the grain and food industry is rapid, and the demand and the quality of flour are increased day by day. The flour obtained in the flour production process is mainly divided into three parts, namely large endosperm lumps, starch granules and matrix fragments, the particle size and the protein content of the three parts are different, and the functions of the parts with different protein contents are different, so that a special flour production device with high, medium and low protein is required to separate three different components in the flour respectively.

At present, when the three different protein contents are separated, a screen is usually used for separation, and the screen cannot be accurately screened during screening and cannot be screened in a large scale because the aperture size of the screen cannot meet the requirement; however, the adhesion, cohesion and electrostatic adsorption of flour particles are increased according to the particle size of the flour, and thus the flour cannot be screened completely. Therefore, special flour production equipment for high, medium and low protein is urgently needed in the market to solve the problems.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a special flour production facility of high school low protein to propose in solving above-mentioned background art because the screen cloth aperture size causes the screening inaccurate and because the characteristic of flour granule leads to the not thorough problem of screening when the screening.

In order to achieve the above object, the utility model provides a following technical scheme: a special flour production device for high, medium and low protein comprises a base, wherein a supporting box is arranged above the base and is connected with the base through screws, a controller is arranged inside the supporting box, a motor is arranged above the supporting box, an agitating box is arranged above the motor, a feeding hopper is arranged above the agitating box, one end of the feeding hopper extends into the agitating box, a storage box is arranged above the feeding hopper, a primary airflow classifier is arranged on one side of the agitating box, a secondary airflow classifier is arranged on one side of the primary airflow classifier, a cyclone collector is arranged on one side of the secondary airflow classifier, a pulse dust collector is arranged on one side of the cyclone collector, a fan is arranged on one side of the pulse dust collector, an outlet pipe is arranged outside the fan, and one end of the outlet pipe extends into the fan, be provided with the support between pulse dust collector and fan and the base, the below of one-level air current grader, second grade air current grader and cyclone collector all is provided with row's material pipe, and is three the below of arranging the material pipe is provided with high albumen collecting box, well albumen collecting box and low albumen collecting box respectively, and the three one end of arranging the material pipe extends to the inside of high albumen collecting box, well albumen collecting box and low albumen collecting box respectively.

Preferably, the top of motor output is provided with the connecting rod, and the one end of connecting rod extends to the inside of agitator tank, the outside of connecting rod is provided with the puddler, and the puddler is connected with connecting rod gas welding.

Preferably, the outside of storage box is provided with the slide, and the inside of storage box is extended to the one end of slide.

Preferably, a silica gel pad is arranged between the support box and the motor, and two ends of the silica gel pad are respectively attached to the support box and the motor.

Preferably, a discharge hole is formed in the center above the cyclone collector, and a feed inlet is formed in one side of the cyclone collector.

Preferably, a rotary valve is arranged below the pulse dust collector, two filter bags are arranged in the pulse dust collector, a gas purifying chamber is arranged above the pulse dust collector, a pulse valve is arranged on one side of the gas purifying chamber, a jetting pipe is arranged on one side of the pulse valve and is respectively in sealing connection with the pulse valve and the two filter bags, an air outlet is arranged on the other side of the gas purifying chamber, and one end of the air outlet extends into the gas purifying chamber.

Preferably, the stirring box is connected with the primary airflow classifier through a conduit, the primary airflow classifier is connected with the secondary airflow classifier through a conduit, the secondary airflow classifier is connected with the cyclone collector through a conduit, and the cyclone collector is connected with the pulse dust collector through a conduit.

Preferably, the first-stage airflow classifier, the second-stage airflow classifier and the material discharge pipe below the cyclone collector are all provided with valves outside.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the utility model discloses a device is through one-level air current grading machine, second grade air current grading machine and the cyclone collector who sets up, through the operating characteristic of one-level air current grading machine, second grade air current grading machine, can filter the flour of different size granules, collects the flour of minimum granule through cyclone collector, can incessant screening. Solves the problem that the production requirement can not be met when large-scale production screening is carried out due to the self property of the screen.

2. The utility model discloses a device is through the puddler at the inside puddler that sets up of agitator tank, and the puddler can break up the inside flour that gets into the agitator tank, makes its separation, avoids agglomerating, and the influence leads to subsiding in advance because the effect of centrifugal force in one-level air classifier, second grade air classifier. Solves the problem that a plurality of particles are agglomerated and can be settled in advance under the action of centrifugal force because the flour is not scattered.

3. The utility model discloses a device is through the pulse dust collector who sets up, can be timely clear up the dust remover, and the prevention filter bag is blocked and the phenomenon that can not normally work has prolonged the life of filter bag, simultaneously, can guarantee the motion balance and the dust collection efficiency of the inside air current of pulse dust collector again. The problem of because can not clear up the filter bag in time, lead to dust removal effect not good and can influence life is solved.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the internal structure of the pulse dust collector of the present invention;

FIG. 3 is a schematic structural view of the cyclone collector of the present invention;

fig. 4 is a connection diagram of the supporting box and the motor of the present invention.

In the figure: 1. a base; 2. a support box; 3. a controller; 4. a motor; 5. a stirring box; 6. a connecting rod; 7. a stirring rod; 8. a storage box; 9. a slide plate; 10. a feed hopper; 11. a first stage air classifier; 12. a high protein collection box; 13. a secondary air classifier; 14. a middle protein collecting box; 15. a cyclone collector; 16. a low protein collection box; 17. a pulse dust collector; 18. a support; 19. a fan; 20. an air outlet pipe; 21. a conduit; 22. a pulse valve; 23. a rotary valve; 24. a blowing pipe; 25. a gas purifying chamber; 26. a filter bag; 27. a feed inlet; 28. a discharge port; 29. an air outlet; 30. a valve; 31. a silica gel pad; 32 discharge pipes.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

Referring to fig. 1-4, the present invention provides an embodiment: a kind of high, middle and low protein specialized flour production facility, including the base 1, there are supporting boxes 2 above the base 1, and the supporting box 2 is connected with base 1 through the screw, there are controllers 3 in the inside of the supporting box 2, can control the electrical machinery 4, the first-class air classifier 11, the second-class air classifier 13, the cyclone collector 15, the pulse dust collector 17, and the blower 19, there are electrical machinery 4 above the supporting box 2, there are stirring boxes 5 above the electrical machinery 4, the stirring box 5 can break up the flour dough, there are feed hoppers 10 above the stirring box 5, and one end of the feed hopper 10 extends to the inside of the stirring box 5, there are storage boxes 8 above the feed hopper 10, there are first-class air classifiers 11 on one side of the stirring box 5, at first carry on the settlement of the granule, there are second-class air classifiers 13 on one side of the first-class air classifier 11, a cyclone collector 15 is arranged on one side of the secondary airflow classifier 13, a pulse dust collector 17 is arranged on one side of the cyclone collector 15 and is used for purifying airflow with particles, a fan 19 is arranged on one side of the pulse dust collector 17, an air outlet pipe 20 is arranged outside the fan 19, one end of the air outlet pipe 20 extends into the fan 19, a support 18 is arranged between the pulse dust collector 17 and the fan 19 and the base 1, discharge pipes 32 are arranged below the primary airflow classifier 11, the secondary airflow classifier 13 and the cyclone collector 15, a high-protein collecting box 12, a medium-protein collecting box 14 and a low-protein collecting box 16 are respectively arranged below the three discharge pipes 32, and one ends of the three discharge pipes 32 respectively extend into the high-protein collecting box 12, the medium-protein collecting box 14 and the low-protein collecting box 16.

Further, the top of 4 outputs of motor is provided with connecting rod 6, and the one end of connecting rod 6 extends to the inside of agitator tank 5, and the outside of connecting rod 6 is provided with puddler 7, and puddler 7 is connected with 6 gas welding of connecting rod. The rotation through motor 4 drives connecting rod 6 rotatory, drives puddler 7 then and rotates, can break up the flour that gets into in agitator tank 5.

Further, the outside of the storage box 8 is provided with a slide plate 9, and one end of the slide plate 9 extends to the inside of the storage box 8. The slide 9 can be used to manually control the flow of flour from the storage box 8 into the mixing box 5.

Further, be provided with silica gel pad 31 between supporting box 2 and the motor 4, and the both ends of silica gel pad 31 are connected with supporting box 2 and the laminating of motor 4 respectively. The vibration influence caused by the working of the motor 4 can be effectively reduced.

Further, a discharge port 28 is provided at a central position above the cyclone collector 15, and a feed port 27 is provided at one side of the cyclone collector 15. The entrained flow enters through inlet 27 and the fine flow exits through outlet 28.

Further, a rotary valve 23 is arranged below the pulse dust collector 17, two filter bags 26 are arranged inside the pulse dust collector 17, a gas purifying chamber 25 is arranged above the pulse dust collector 17, a pulse valve 22 is arranged on one side of the gas purifying chamber 25, a blowing pipe 24 is arranged on one side of the pulse valve 22, the blowing pipe 24 is respectively connected with the pulse valve 22 and the two filter bags 26 in a sealing mode, an air outlet 29 is arranged on the other side of the gas purifying chamber 25, and one end of the air outlet 29 extends into the gas purifying chamber 25. The filter bag 26 filters the incoming fine air stream to filter out the fine particles therein, and the filtered air is then exhausted through the outlet 29. The filter bag 26 can be cleaned by means of the injection tube 24 via the pulse valve 22.

Further, the stirring box 5 is connected with the first-stage airflow classifier 11 through a conduit 21, the first-stage airflow classifier 11 is connected with the second-stage airflow classifier 13 through a conduit 21, the second-stage airflow classifier 13 is connected with the cyclone collector 15 through a conduit 21, and the cyclone collector 15 is connected with the pulse dust collector 17 through a conduit 21. The duct 21 can conduct gas or particles, and ensures sealing.

Further, valves 30 are arranged outside the discharge pipes 32 below the first-stage airflow classifier 11, the second-stage airflow classifier 13 and the cyclone collector 15. The settled particles can be passed into a collection tank via valve 30.

The working principle is as follows: when the flour screening machine is used, flour raw materials needing screening are placed in the storage box 8, the controller 3 is used for controlling the motor 4, the primary airflow classifier 11, the secondary airflow classifier 13, the cyclone collector 15, the pulse dust collector 17 and the fan 19 to work, the sliding plate 9 is used for controlling the flow of flour in the storage box 8 guided into the stirring box 5, the flour entering the stirring box 5 can be scattered under the action of the stirring rod 7, the next-step screening is facilitated, the scattered flour in the stirring box 5 can be sequentially extracted into the primary airflow classifier 11, the secondary airflow classifier 13, the cyclone collector 15 and the pulse dust collector 17 under the action of the fan 19, and under the action of the primary airflow classifier 11, large-particle flour can be firstly settled due to the centrifugal effect generated by circular motion; the smaller particles are sucked into the secondary air classifier 13 under the action of secondary air flowing upwards, and the flour with smaller particles is settled again; the small-particle flour rotates at a high speed and the action of the peripheral pump negative pressure airflow can force the material-carrying airflow to rotate at a high speed and move towards the central area of the impeller, the material simultaneously receives the attraction of the negative pressure airflow in the central area of the impeller and the action of self-rotating centrifugal force, the material enters the cyclone collector 15 to be collected, and the rest differential airflow is collected by the pulse dust collector 17. This allows fractions of different protein content to be screened and collected.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (8)

1. The utility model provides a special flour production facility of high well low protein, includes base (1), its characterized in that: the dust collector is characterized in that a supporting box (2) is arranged above the base (1), the supporting box (2) is connected with the base (1) through screws, a controller (3) is arranged inside the supporting box (2), a motor (4) is arranged above the supporting box (2), an agitating box (5) is arranged above the motor (4), a feeding hopper (10) is arranged above the agitating box (5), one end of the feeding hopper (10) extends into the agitating box (5), a storage box (8) is arranged above the feeding hopper (10), a primary air flow classifier (11) is arranged on one side of the agitating box (5), a secondary air flow classifier (13) is arranged on one side of the primary air flow classifier (11), a cyclone collector (15) is arranged on one side of the secondary air flow classifier (13), a pulse dust collector (17) is arranged on one side of the cyclone collector (15), one side of pulse dust collector (17) is provided with fan (19), the outside of fan (19) is provided with outlet duct (20), and the one end of outlet duct (20) extends to the inside of fan (19), be provided with support (18) between pulse dust collector (17) and fan (19) and base (1), the below of one-level air current grader (11), second grade air current grader (13) and cyclone collector (15) all is provided with row material pipe (32), and is three arrange the below of material pipe (32) and be provided with high protein collecting box (12), well protein collecting box (14) and low protein collecting box (16) respectively, and the one end of three row material pipe (32) extends to the inside of high protein collecting box (12), well protein collecting box (14) and low protein collecting box (16) respectively.

2. The special high, medium and low protein flour production equipment as claimed in claim 1, wherein the special high, medium and low protein flour production equipment comprises: the top of motor (4) output is provided with connecting rod (6), and the one end of connecting rod (6) extends to the inside of agitator tank (5), the outside of connecting rod (6) is provided with puddler (7), and puddler (7) and connecting rod (6) gas welding are connected.

3. The special high, medium and low protein flour production equipment as claimed in claim 1, wherein the special high, medium and low protein flour production equipment comprises: the outside of storage box (8) is provided with slide (9), and the inside of one end extension to storage box (8) of slide (9).

4. The special high, medium and low protein flour production equipment as claimed in claim 1, wherein the special high, medium and low protein flour production equipment comprises: a silica gel pad (31) is arranged between the support box (2) and the motor (4), and two ends of the silica gel pad (31) are respectively attached to the support box (2) and the motor (4).

5. The special high, medium and low protein flour production equipment as claimed in claim 1, wherein the special high, medium and low protein flour production equipment comprises: a discharge hole (28) is formed in the center above the cyclone collector (15), and a feed hole (27) is formed in one side of the cyclone collector (15).

6. The special high, medium and low protein flour production equipment as claimed in claim 1, wherein the special high, medium and low protein flour production equipment comprises: the rotary valve (23) is arranged below the pulse dust collector (17), the filter bags (26) are arranged inside the pulse dust collector (17), the number of the filter bags (26) is two, the air purifying chamber (25) is arranged above the pulse dust collector (17), the pulse valve (22) is arranged on one side of the air purifying chamber (25), the injection pipe (24) is arranged on one side of the pulse valve (22), the injection pipe (24) is respectively connected with the pulse valve (22) and the two filter bags (26) in a sealing mode, the air outlet (29) is arranged on the other side of the air purifying chamber (25), and one end of the air outlet (29) extends to the inside of the air purifying chamber (25).

7. The special high, medium and low protein flour production equipment as claimed in claim 1, wherein the special high, medium and low protein flour production equipment comprises: the stirring box (5) is connected with the first-stage airflow classifier (11) through a guide pipe (21), the first-stage airflow classifier (11) is connected with the second-stage airflow classifier (13) through the guide pipe (21), the second-stage airflow classifier (13) is connected with the cyclone collector (15) through the guide pipe (21), and the cyclone collector (15) is connected with the pulse dust collector (17) through the guide pipe (21).

8. The special high, medium and low protein flour production equipment as claimed in claim 1, wherein the special high, medium and low protein flour production equipment comprises: and valves (30) are arranged outside the discharge pipes (32) below the first-stage airflow classifier (11), the second-stage airflow classifier (13) and the cyclone collector (15).

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