CN117225530A - Multi-nutrition flour processing production technology - Google Patents

Abstract

The invention discloses a multi-nutrition flour processing production process which adopts a device comprising a bottom plate, wherein the upper end of the bottom plate is fixedly connected with a grinding table, the upper end of the grinding table is rotationally connected with a grinding disc, a motor cavity is arranged in the grinding table, a first motor for driving the grinding disc to rotate is fixedly connected in the motor cavity, the upper end of the grinding disc is provided with a feeding groove, a groove hopper which is arranged along a ring shape is arranged on the feeding groove, the lower ends of the groove hoppers are all provided with feeding holes which are arranged in a penetrating way, the upper end of the bottom plate is fixedly connected with a supporting frame, a material pressing mechanism which is arranged right above the displacement grinding disc is arranged on the supporting frame, the outer wall of the grinding table is in sliding connection with a connecting sleeve, the outer side of the connecting sleeve is fixedly sleeved with a concentrically arranged annular material screening basket, and the bottom surface of the annular material screening basket is provided with an annular screen. Compared with the prior art, the invention has the advantages that the grinding and screening procedures can be concentrated on one device, and the screening can be performed immediately after the grinding is finished, thereby greatly improving the processing efficiency.

Description

Multi-nutrition flour processing production technology

Technical Field

The invention relates to the technical field of flour processing, in particular to a processing and production process of multi-nutrition flour.

Background

The term "flour" is used to refer to wheat flour, i.e. flour milled from wheat, and the term "high gluten wheat flour" is used to refer to flour as is commonly known. Wheat flour is divided into special flour (such as bread flour, dumpling flour, biscuit flour, etc.), general flour (such as standard flour, rich flour), nutrition-enhanced flour (such as calcium-enhanced flour, iron-rich flour, "7+1" nutrition-enhanced flour, etc.) according to properties and purposes; the flour is divided into special flour, standard flour, common flour and the like according to the precision; the strong or weak strength of the gluten is classified into high gluten flour, medium gluten flour and low gluten flour.

Currently, existing flours generally have the following drawbacks in the production and processing processes: the grinding and sieving procedures in the existing flour processing process are carried out separately, so that the processing efficiency is greatly reduced.

Disclosure of Invention

The technical problem to be solved by the invention is to overcome the defects, and provide a multi-nutrition flour processing production process which can concentrate grinding and screening procedures on one device, screen immediately after finishing grinding, and greatly improve the processing efficiency.

In order to solve the technical problems, the technical scheme provided by the invention is as follows: the utility model provides a many nutrition flour processing production technology, this flour production processing technology adopts following device, comprises a base plate, bottom plate upper end fixedly connected with grinding table, the grinding table upper end rotates and is connected with the grinding disc, be equipped with the motor chamber in the grinding table, motor intracavity fixedly connected with drive grinding disc pivoted first motor, the grinding disc upper end is equipped with the charging hopper, be equipped with the recess hopper of arranging along the annular on the charging hopper, the recess hopper lower extreme all is equipped with the feed port that runs through and arrange, bottom plate upper end fixedly connected with support frame, be equipped with the displacement on the support frame the swager mechanism directly over the grinding disc, grinding table outer wall sliding connection has the connecting sleeve, the annular sieve basket of concentric arrangement has been fixedly cup jointed in the connecting sleeve outside, annular sieve basket bottom surface is equipped with annular screen cloth, be equipped with the control chamber in the grinding table, be equipped with the drive the gliding vibration mechanism of connecting sleeve, the connecting hopper has been fixedly cup jointed to the grinding table lower extreme.

The flour production and processing technology comprises the following steps:

s1, cleaning: removing dust impurities adhered to the surface of the wheat in a multiple soaking mode;

s2, drying: drying the surface of the wheat cleaned in the step S1;

s3, grinding and screening: adding the wheat dried in the step S2 into a feeding tank and a groove hopper at the upper end of a grinding disc, extruding raw materials downwards through a material pressing mechanism to enable the bottom raw materials to be clung to the upper end of a grinding table, driving the grinding disc to rotate through a first motor to grind and crush the raw materials between the grinding disc and the grinding table, overflowing the ground powder from two sides and falling into an annular screening basket, driving the annular screening basket to shake up and down in a reciprocating manner through an oscillating mechanism to screen the powder, screening large-particle powder, and enabling high-quality powder to fall into a receiving hopper below;

s4, collecting: manually collecting the powder in the receiving hopper in the step S3;

s5, processing: adding nutrient substances into the collected powder, and uniformly stirring;

s6, bagging: bagging the powder processed in the step S5;

s7, warehousing: and (3) delivering the flour packaged in the step S6 into a warehouse for stacking and storing.

As an improvement, the pressing mechanism comprises a hydraulic cylinder fixedly connected to the upper end of the supporting frame, the output end of the hydraulic cylinder is rotationally connected with a pressing plate positioned right above the grinding disc, and the lower end of the pressing plate is fixedly connected with a pressing rod matched with the feeding hole.

As an improvement, the upper end of the grinding table is fixedly connected with a conical boss, the lower end of the grinding disc is provided with a conical groove matched with the conical boss, and a gap is arranged between the conical boss and the conical groove.

As an improvement, vibrate the mechanism include both sides with the slide hole of control chamber intercommunication, fixedly connected with runs through the connecting rod in the control chamber through both sides slide hole, fixedly connected with both sides correspond the riser of arranging on the connecting rod, both sides rotate between the riser and be connected with the pivot, pivot lower extreme fixedly connected with concussion cam, riser one side fixedly connected with drive pivot pivoted second motor, control intracavity bottom surface fixedly connected with both sides correspond the spacing sleeve of arranging, the equal fixedly connected with in both sides of connecting rod are very big peg graft in spacing inserted bar in the spacing sleeve, fixedly connected with in the spacing sleeve with spacing inserted bar complex vibrating spring.

As an improvement, the outer wall of the grinding table is provided with an annular groove, and the connecting sleeve is connected in the annular groove in a sliding manner.

Compared with the prior art, the invention has the advantages that:

(1) The annular screen basket is directly arranged below the grinding table, so that the ground powder directly falls into the annular screen basket for screening, the grinding and screening procedures can be concentrated on one device, the screening is performed immediately after the grinding is finished, and the processing efficiency is greatly improved.

(2) The annular screening basket can be driven to continuously shake through the vibration mechanism, so that the screening efficiency is greatly improved.

(3) The raw materials are continuously pressed downwards through the pressing mechanism, so that the raw materials are ground into a fast speed.

Drawings

FIG. 1 is a schematic diagram of a multi-nutrient flour processing and production process according to the invention.

FIG. 2 is an exploded view of a part of the process of the multi-nutrient flour processing and production process of the invention.

Fig. 3 is a schematic diagram of the structure of a grinding table for the processing and production process of the multi-nutrient flour.

Fig. 4 is a schematic diagram of the structure of a grinding disc for the multi-nutrient flour processing production process of the invention.

Fig. 5 is a schematic diagram of an annular screening basket and a connection structure thereof in the process of processing and producing the multi-nutrient flour.

As shown in the figure: 1. a bottom plate; 2. a grinding table; 3. a grinding disc; 4. a feed tank; 5. a conical boss; 6. a conical groove; 7. a groove hopper; 8. a feed hole; 9. a support frame; 10. a hydraulic cylinder; 11. a pressing plate; 12. a compression bar; 13. an annular screening basket; 14. an annular groove; 15. a connecting sleeve; 16. a control chamber; 17. a slide hole; 18. a connecting rod; 19. a vertical plate; 20. a rotating shaft; 21. oscillating the cam; 22. a second motor; 23. a limit sleeve; 24. a limit inserted link; 25. a vibration spring; 26. a receiving hopper; 27. a first motor.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the invention; all other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

As shown in fig. 1 to 5, the multi-nutrition flour processing production process adopts the following device, and the flour processing production process comprises a base plate 1, the bottom plate 1 upper end fixedly connected with grinding table 2, grinding table 2 upper end rotation is connected with grinding disc 3, be equipped with the motor chamber in the grinding table 2, motor intracavity fixedly connected with drive grinding disc 3 pivoted first motor 27, grinding disc 3 upper end is equipped with charging tank 4, be equipped with on the charging tank 4 along annular arrangement's recess hopper 7, recess hopper 7 lower extreme all is equipped with the feed port that runs through the arrangement, bottom plate 1 upper end fixedly connected with support frame 9, be equipped with the displacement on the support frame 9 grinding table 3 pressure material mechanism directly over, grinding table 2 outer wall sliding connection has connecting sleeve 15, the annular sieve material 13 of concentric arrangement has been fixedly cup jointed in the connecting sleeve 15 outside, annular sieve basket 13 bottom surface is equipped with annular, be equipped with control chamber 16 in the grinding table 2, be equipped with the drive in the control chamber 16 connecting sleeve 15 gliding feed port, the vibration table 2 fixedly connected with support frame 26.

The material pressing mechanism comprises a hydraulic cylinder 10 fixedly connected to the upper end of the supporting frame 9, a pressing plate 11 positioned right above the grinding disc 3 is rotatably connected to the output end of the hydraulic cylinder 10, and a pressing rod 12 matched with the feeding hole is fixedly connected to the lower end of the pressing plate 11.

The upper end of the grinding table 2 is fixedly connected with a conical boss 5, the lower end of the grinding disc 3 is provided with a conical groove 6 matched with the conical boss 5, and a gap is arranged between the conical boss 5 and the conical groove 6.

The vibration mechanism comprises sliding holes 17 with two sides communicated with the control cavity 16, a connecting rod 18 penetrating through the control cavity 16 through the two side sliding holes 17 is fixedly connected in the connecting sleeve 15, vertical plates 19 with two sides correspondingly arranged are fixedly connected to the connecting rod 18, rotating shafts 20 are rotatably connected between the vertical plates 19, vibration cams 21 are fixedly connected to the lower ends of the rotating shafts 20, a second motor 22 for driving the rotating shafts 20 is fixedly connected to one side of the vertical plates 19, limiting sleeves 23 with two sides correspondingly arranged are fixedly connected to the inner bottom surface of the control cavity 16, limiting inserted rods 24 are fixedly connected to two sides of the connecting rod 18 and are greatly inserted into the limiting sleeves 23, and vibrating springs 25 matched with the limiting inserted rods 24 are fixedly connected in the limiting sleeves 23.

The outer wall of the grinding table 2 is provided with an annular groove 14, and the connecting sleeve 15 is slidably connected in the annular groove 14.

The flour production and processing technology comprises the following steps:

s1, cleaning: removing dust impurities adhered to the surface of the wheat in a multiple soaking mode;

s2, drying: drying the surface of the wheat cleaned in the step S1;

s3, grinding and screening: adding the wheat dried in the step S2 into a feeding tank 4 and a groove hopper 7 at the upper end of a grinding disc 3, sliding the raw materials into the groove hopper 7 and a feeding hole, starting a hydraulic cylinder 10 to push a pressing plate 11 to move downwards, driving a pressing rod 12 to extend into the feeding hole from the groove hopper 7 to press the raw materials in the feeding hole downwards, enabling the raw materials at the lowest end to cling to the grinding surface at the upper end of a conical boss 5, driving the grinding disc 3 to rotate through a first motor 27 to enable the raw materials to continuously rub against the conical boss 5, enabling the crushed raw materials to further enter a gap between the conical boss 5 and the conical groove 6 for further grinding, finally overflowing the ground raw materials from the outer wall of the grinding table 2 and falling into an annular screening basket 13, starting a second motor 22 to drive a rotating shaft 20 to rotate, enabling a vibrating cam 21 to reciprocate to generate centrifugal force, enabling a connecting rod 18 to reciprocate upwards and downwards along the sliding hole 17 to drive a connecting sleeve 15 to reciprocate upwards and downwards along the outer wall of the annular groove 14, enabling the powder in the annular screening basket to vibrate upwards and downwards, enabling the crushed raw materials to further enter a gap between the conical boss 5 and the conical boss 6 to further grind the ground materials, and finally enabling the ground powder materials to overflow from the outer wall of the grinding material to fall into a hopper 26 below the annular screening basket;

s4, collecting: manually collecting the powder in the receiving hopper 26 in the step S3;

s5, processing: adding nutrient substances into the collected powder, and uniformly stirring;

s6, bagging: bagging the powder processed in the step S5;

s7, warehousing: and (3) delivering the flour packaged in the step S6 into a warehouse for stacking and storing.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

The invention and its embodiments have been described above with no limitation, and the actual construction is not limited to the embodiments of the invention as shown in the drawings. In summary, if one of ordinary skill in the art is informed by this disclosure, a structural manner and an embodiment similar to the technical solution should not be creatively devised without departing from the gist of the present invention.

Claims (5)

1. The processing technology of the multi-nutrition flour adopts the following devices and is characterized in that: including bottom plate (1), bottom plate (1) upper end fixedly connected with grinding table (2), grinding table (2) upper end rotates and is connected with grinding disc (3), be equipped with the motor chamber in grinding table (2), motor intracavity fixedly connected with drive grinding disc (3) pivoted first motor (27), grinding disc (3) upper end is equipped with charging tank (4), be equipped with on charging tank (4) along annular arrangement's recess hopper (7), recess hopper (7) lower extreme all is equipped with feed port (8) that run through and arrange, bottom plate (1) upper end fixedly connected with support frame (9), be equipped with the displacement on support frame (9) grinding disc (3) pressure material mechanism directly over, grinding table (2) outer wall sliding connection has connecting sleeve (15), connecting sleeve (15) outside has fixedly cup jointed annular sieve basket (13) of concentric arrangement, annular sieve basket (13) bottom surface is equipped with annular screen cloth, be equipped with control chamber (16) in grinding table (2), control chamber (16) upper end fixedly connected with support frame (9) is equipped with displacement in grinding table (9) grinding table (2) outer wall sliding connection (15).

The flour production and processing technology comprises the following steps:

s1, cleaning: removing dust impurities adhered to the surface of the wheat in a multiple soaking mode;

s2, drying: drying the surface of the wheat cleaned in the step S1;

s3, grinding and screening: adding the wheat dried in the step S2 into a feeding tank (4) and a groove hopper (7) at the upper end of a grinding disc (3), extruding raw materials downwards through a material pressing mechanism to enable the bottom raw materials to cling to the upper end of a grinding table (2), driving the grinding disc (3) to rotate through a first motor (27) to grind and crush the raw materials between the grinding disc (3) and the grinding table (2), overflowing the ground powder to fall into an annular material screening basket (13) from two sides, driving the annular material screening basket (13) to shake up and down through an oscillating mechanism, screening the powder, screening out large-particle powder, and enabling high-quality powder to fall into a receiving hopper (26) below;

s4, collecting: manually collecting the powder in the receiving hopper (26) in the step S3;

s5, processing: adding nutrient substances into the collected powder, and uniformly stirring;

s6, bagging: bagging the powder processed in the step S5;

s7, warehousing: and (3) delivering the flour packaged in the step S6 into a warehouse for stacking and storing.

2. The multi-nutrient flour processing and producing process according to claim 1, wherein: the material pressing mechanism comprises a hydraulic cylinder (10) fixedly connected to the upper end of the supporting frame (9), a pressing plate (11) located right above the grinding disc (3) is rotatably connected to the output end of the hydraulic cylinder (10), and a pressing rod (12) matched with the feeding hole (8) is fixedly connected to the lower end of the pressing plate (11).

3. The multi-nutrient flour processing and producing process according to claim 1, wherein: the grinding table (2) upper end fixedly connected with toper boss (5), grinding disc (3) lower extreme be equipped with toper boss (5) complex toper recess (6), be equipped with the gap between toper boss (5) and toper recess (6).

4. The multi-nutrient flour processing and producing process according to claim 1, wherein: the vibration mechanism comprises sliding holes (17) with two sides communicated with a control cavity (16), a connecting rod (18) penetrating through the control cavity (16) through the two side sliding holes (17) is fixedly connected in the connecting sleeve (15), vertical plates (19) with two sides correspondingly arranged are fixedly connected on the connecting rod (18), rotating shafts (20) are connected between the vertical plates (19) at two sides, vibration cams (21) are fixedly connected to the lower ends of the rotating shafts (20), a second motor (22) for driving the rotating shafts (20) is fixedly connected to one side of the vertical plates (19), limiting sleeves (23) with two sides correspondingly arranged are fixedly connected to the inner bottom surface of the control cavity (16), limiting inserted rods (24) are fixedly connected to two sides of the connecting rod (18) and are greatly inserted into the limiting sleeves (23), and vibrating springs (25) matched with the limiting inserted rods (24) are fixedly connected in the limiting sleeves (23).

5. The multi-nutrient flour processing and producing process according to claim 1, wherein: the outer wall of the grinding table (2) is provided with an annular groove (14), and the connecting sleeve (15) is connected in the annular groove (14) in a sliding mode.