CN116147301A

CN116147301A - Slice coarse food grain food processing equipment

Info

Publication number: CN116147301A
Application number: CN202211736708.4A
Authority: CN
Inventors: 王金亮
Original assignee: Shandong Kangbeite Food Packaging Machinery Co ltd
Current assignee: Shandong Kangbeite Food Packaging Machinery Co ltd
Priority date: 2022-12-30
Filing date: 2022-12-30
Publication date: 2023-05-23

Abstract

The invention discloses a piece-shaped coarse grain food processing device, which belongs to the technical field of food processing devices and comprises a shell (1), wherein a machine seat is fixedly arranged at the bottom of the shell (1), and a linear drying assembly (2) is arranged on the shell (1). According to the invention, the sheet coarse food enters the inner sides of the first discharging arc cover (2031) and the second discharging arc cover (2032) through the fourth discharging hole, the last drying treatment is finished on the inner sides of the second discharging arc cover (2032) and the first discharging arc cover (2031), the volume of the sheet coarse food is greatly reduced after the drying treatment for many times, the drying degree of the sheet coarse food is judged according to the shrinkage degree of the sheet coarse food, the sheet coarse food meeting the good drying effect is discharged through the fifth discharging hole after passing through the fifth discharging hole, and an arc drying production line is formed by the feeding device (202), the plurality of conveying devices (204) and the discharging device (203) under the rotating state, so that the drying efficiency and the finished product quality of the sheet coarse food can be improved on the basis of greatly shrinking the volume of equipment.

Description

Slice coarse food grain food processing equipment

Technical Field

The invention belongs to the technical field of food processing equipment, and particularly relates to flaky coarse grain food processing equipment.

Background

The production of oatmeal generally requires cooking, rough drying, tabletting and re-drying to produce the finished product.

The prior art discloses a part of invention patents in the technical field of food processing equipment, wherein chinese patent CN111288768B discloses an energy-saving drying device for mixed oatmeal, comprising: a housing having a hollow cylindrical structure; a discharge hole is formed in the bottom of the shell; the top and the bottom of the outer cylinder are respectively and fixedly connected with the inner walls of the top surface and the bottom surface of the shell in a sealing way; an annular first space is formed between the outer cylinder body and the shell; the lower part of the circumferential surface of the outer cylinder body is annularly provided with a guide hole, so that the first space is communicated with the inside of the outer cylinder body, and the technical scheme is characterized in that quartz sand is used as a heat source medium, the quartz sand is subjected to aseptic treatment before use, the quartz sand and oatmeal to be dried are added into the inner cylinder body through a feed hopper, the inner cylinder body rotates, so that the oatmeal and the quartz sand can be fully contacted, moisture in the oatmeal is quickly brought out by the quartz sand, the drying effect is better and quicker, the crisp protection of the oatmeal is facilitated, and the quality of the dried oatmeal is improved; furthermore, the invention can frequently replace quartz sand in the inner cylinder body in the drying process, ensure higher drying performance of the quartz sand, further improve drying effect and speed, fully utilize heat, avoid energy waste and achieve the technical effect of energy conservation.

In the prior art, a large amount of flaky coarse food is usually in direct contact with hot air in the processing process, and the flaky coarse food is required to be stirred by providing larger power in order to improve the uniformity of the mixing effect of the hot air and the flaky coarse food due to the large amount of the flaky coarse food, so that the flaky coarse food is easy to be crushed due to larger driving force, and the crushing rate is higher.

Based on the above, the invention designs a piece-shaped coarse food grain food processing device to solve the above problems.

Disclosure of Invention

The invention aims at: in order to solve the problems that in the prior art, a large amount of flaky coarse food is usually in direct contact with hot air in the processing process, and the flaky coarse food is required to be stirred by providing larger power in order to improve the uniformity of the mixing effect of the hot air and the flaky coarse food due to the large amount, the flaky coarse food is easy to be crushed due to larger driving force, and the crushing rate is higher, the flaky coarse food processing equipment is provided.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

the utility model provides a slice coarse food grain food processing equipment, includes shell (1), the bottom fixed mounting of shell (1) has the frame, be provided with linear drying assembly (2) on shell (1), the inside of linear drying assembly (2) is inlayed and is equipped with antiseized subassembly (3), antiseized subassembly (3) rotate and connect at the side terminal surface of linear drying assembly (2), be connected through linkage subassembly (4) transmission between linear drying assembly (2) and antiseized subassembly (3);

the linear drying assembly (2) comprises a main mixing shaft (201), bearings are sleeved at two ends of the main mixing shaft (201), the two bearings are respectively clamped at two end faces of the inner side of the outer shell (1), an inner shell (6) is embedded in the outer shell (1), and the inner shell (6) is fixedly sleeved on the outer surface of the main mixing shaft (201);

the inner side wall fixedly connected with pan feeding device (202) of inner shell (6), the opposite face fixed connection of pan feeding device (202) and main compounding axle (201), the inside wall of inner shell (6) uses pan feeding device (202) to be reference along anticlockwise fixedly connected with discharging device (203), the opposite face fixed connection of discharging device (203) and main compounding axle (201), be provided with feeding device (204) between discharging device (203) and pan feeding device (202), the opposite face fixed connection of feeding device (204) and main compounding axle (201).

As a further description of the above technical solution:

the end part of the main mixing shaft (201) is fixedly connected with a driven gear (206), the tooth surface of the driven gear (206) is meshed with a driving gear (207), the driving gear (207) is fixedly sleeved on the outer surface of a transmission shaft (208), the outer surface of the transmission shaft (208) is rotationally connected to the side end surface of the shell (1) through a bearing, the end part of the transmission shaft (208) is fixedly provided with an industrial motor (205), and the opposite surface of the body of the industrial motor (205) and the shell (1) is fixedly connected through a frame.

As a further description of the above technical solution:

the number of the material conveying devices (204) is multiple, and the material conveying devices (204), the material feeding devices (202) and the material discharging devices (203) are arranged in an annular array.

As a further description of the above technical solution:

the feeding device (202) comprises a first feeding arc-shaped cover (2021) and a second feeding arc-shaped cover (2022), a first discharging hole is formed in the outer arc surface of the first feeding arc-shaped cover (2021), the opposite surfaces of the first feeding arc-shaped cover (2021) and the second feeding arc-shaped cover (2022) are fixedly connected, the outer arc surfaces of the second feeding arc-shaped cover (2022) and the first feeding arc-shaped cover (2021) are fixedly connected with the inner side wall of the inner shell (6), and the opposite surfaces of the first feeding arc-shaped cover (2021) and the second feeding arc-shaped cover (2022) and the main mixing shaft (201) are fixedly connected through a feeding pipe (2023).

As a further description of the above technical solution:

the discharging device (203) comprises a first discharging arc-shaped cover (2031) and a second discharging arc-shaped cover (2032), a fourth discharging hole is formed in the outer cambered surface of the second discharging arc-shaped cover (2032), a fifth discharging hole is formed in the outer cambered surface of the first discharging arc-shaped cover (2031), and the aperture of the fifth discharging hole is larger than that of the fourth discharging hole;

the first arc discharging cover (2031) and the second arc discharging cover (2032) are fixedly connected on opposite surfaces, the second arc discharging cover (2032) and the first arc discharging cover (2031) are fixedly connected with the inner side wall of the inner shell (6), and the first arc discharging cover (2031) and the second arc discharging cover (2032) are fixedly connected with the opposite surfaces of the main mixing shaft (201) through an air inlet pipe (2033).

As a further description of the above technical solution:

the material conveying device (204) comprises a first material conveying arc-shaped cover (2041) and a second material conveying arc-shaped cover (2042), a third discharging hole is formed in the outer cambered surface of the second material conveying arc-shaped cover (2042), a second discharging hole is formed in the outer cambered surface of the first material conveying arc-shaped cover (2041), and the aperture of the second discharging hole is smaller than that of the third discharging hole;

the second material conveying arc cover (2042) is fixedly connected with the opposite surface of the first material conveying arc cover (2041), the outer cambered surfaces of the first material conveying arc cover (2041) and the second material conveying arc cover (2042) are fixedly connected with the inner side wall of the inner shell (6), and the opposite surfaces of the second material conveying arc cover (2042) and the first material conveying arc cover (2041) are fixedly connected with the opposite surface of the main mixing shaft (201).

As a further description of the above technical solution:

the aperture of the first discharging hole is larger than that of the second discharging hole, the aperture of the second discharging hole is larger than that of the third discharging hole, the aperture of the third discharging hole is larger than that of the fourth discharging hole, and the aperture of the fourth discharging hole is larger than that of the fifth discharging hole.

As a further description of the above technical solution:

the anti-sticking component (3) is a plurality of, and a plurality of anti-sticking components (3) are respectively embedded in a feeding device (202), a discharging device (203) or a conveying device (204), the anti-sticking components (3) comprise auxiliary mixing shafts (301), the end parts of the auxiliary mixing shafts (301) are rotationally connected with the side end surfaces of the feeding device (202), the discharging device (203) or the conveying device (204) through bearings, a plurality of scraping plates (302) are fixedly connected with the outer surface of the main mixing shaft (201), the plurality of scraping plates (302) are arranged in an annular array, an arc-shaped base (303) is embedded between every two adjacent scraping plates (302), and the arc-shaped base (303) is fixedly connected with the opposite surfaces of the auxiliary mixing shafts (301).

As a further description of the above technical solution:

the linkage assembly (4) comprises a plurality of first driven wheels (403), the plurality of first driven wheels (403) are respectively and fixedly connected to the end parts of the plurality of auxiliary mixing shafts (301), the plurality of first driven wheels (403) gradually reduce in diameter along the clockwise direction by taking the feeding device (202) as a reference, a first driving wheel (405) is fixedly sleeved on the outer surface of the main mixing shaft (201), and the first driving wheel (405) is in transmission connection with the plurality of first driven wheels (403) through a first transmission belt (402);

the outer surface activity of main compounding axle (201) has cup jointed first from driving wheel (403), first from driving wheel (403) are connected through second drive belt (404) and second from driving wheel (401) transmission, the fixed cover of second from driving wheel (401) is at the surface of transmission shaft (208), the inside wall fixed mounting of inner shell (6) has electric heating rod (5), electric heating rod (5) are located between discharging device (203) and feeding device (204).

As a further description of the above technical solution:

discharge gate (9) have been seted up to the extrados of inner shell (6), discharge gate (9) are located between pan feeding device (202) and discharging device (203), pan feeding groove (8) have been seted up to the one end of main compounding axle (201), pan feeding groove (8) are put through with pan feeding pipe (2023), go into wind groove (7) have been seted up to the other end of main compounding axle (201), go into wind groove (7) and air-supply line (2033) switch-on.

In summary, due to the adoption of the technical scheme, the beneficial effects of the invention are as follows:

1. in the invention, the flaky coarse food moves circularly along with the main mixing shaft (201) at the inner sides of the first feeding arc cover (2021) and the second feeding arc cover (2022), the flaky coarse food can be turned over in the circular movement process by utilizing the change of the orientation of the first feeding arc cover (2021) and the second feeding arc cover (2022) and the gravity action of the flaky coarse food, so that the volume of the flaky coarse food which completes the primary drying treatment can shrink by the drying airflow flowing through the flaky coarse food, the flaky coarse food conforming to the quality of the primary drying treatment flows to the direction of the material conveying device (204) through the first discharging hole, and then the flaky coarse food sequentially flows through a plurality of material conveying devices (204), the flaky coarse grain food is subjected to multiple drying treatments sequentially in the process of flowing through a plurality of conveying devices (204), after the flaky coarse grain food is subjected to multiple drying treatments in the plurality of conveying devices (204), the flaky coarse grain food enters the inner sides of a first discharging arc cover (2031) and a second discharging arc cover (2032) through a fourth discharging hole, the last drying treatment is finished on the inner sides of the second discharging arc cover (2032) and the first discharging arc cover (2031), the volume of the flaky coarse grain food is greatly reduced after the multiple drying treatments, the dryness of the flaky coarse grain food is judged according to the shrinkage degree of the flaky coarse grain food, the flaky coarse grain food meeting the good drying effect is discharged through the discharging hole after passing through a fifth discharging hole, and the flaky coarse grain food is discharged through the feeding device (202) in a rotating state, A plurality of material conveying devices (204) and discharging devices (203) form an arc-shaped drying production line, and the drying efficiency and the finished product quality of the flaky coarse food grain food can be improved on the basis of greatly shrinking the volume of equipment.

2. According to the invention, in the process of rapid rotation of the feeding device (202), the plurality of feeding devices (204) and the discharging device (203), normal-temperature air flow is injected into the air inlet groove (7) through the air guide pipes, the normal-temperature air flow carries out low-temperature drying treatment on the flaky coarse grain food inside the first feeding arc cover (2041) and the second feeding arc cover (2042), the normal-temperature air absorbs heat carried by the flaky coarse grain food and then flows in the anticlockwise direction, the air flow carries out heating treatment at the electric heating rod (5) arranged between the feeding device (204) and the discharging device (203), and the flowing direction of the hot air flow is in the reciprocal direction with the rotating direction of the feeding device (202), the plurality of feeding devices (204) and the discharging device (203), so that the quality of the flaky coarse grain food surface can be improved, and the appearance of the flaky coarse grain food is prevented from being influenced by shrinkage caused by overhigh heating of the flaky coarse grain food surface layer.

3. In the invention, the transmission shaft (208) rotates to apply torsion force to the second driven wheel (401) by using the second driving wheel (406), the second transmission belt (404) and the second driven wheel (401), the second driven wheel (401) respectively applies torsion force to the plurality of first driven wheels (403) through the first transmission belt (402), and then the plurality of anti-sticking components (3) are driven to rotate rapidly, the plurality of anti-sticking components (3) take the feeding device (202) as a reference to accelerate along the clockwise rotating speed component, and the feeding device (202) and the feeding device (204) close to the feeding device (202) are prevented from increasing the breakage rate of flaky coarse food due to the too high rotating speed of the scraping plate (302).

Drawings

FIG. 1 is a schematic diagram of the overall structure of a piece-shaped coarse food grain food processing device according to the present invention;

FIG. 2 is a schematic view of a sheet-like coarse food grain processing device according to the present invention from another perspective;

fig. 3 is a schematic structural view of a linear drying assembly (2) of a slice-shaped coarse food grain food processing device according to the present invention;

fig. 4 is a schematic structural view of a linkage assembly (4) in a slice-shaped coarse food grain food processing device according to the present invention;

FIG. 5 is an enlarged schematic view of the structure of the processing device for coarse food grains in sheet form shown in FIG. 4;

fig. 6 is a schematic structural view of an anti-sticking component (3) in a slice-shaped coarse food grain food processing device according to the present invention;

fig. 7 is a schematic structural diagram of a linkage assembly (4) and an anti-sticking assembly (3) in a piece-shaped coarse food grain food processing device.

Legend description:

1. a housing (1); 2. a linear drying assembly (2); 201. a main mixing shaft (201); 202. a feeding device (202); 2021. a first feed arc hood (2021); 2022. a second feed arc hood (2022); 2023. a feed tube (2023); 203. a discharging device (203); 2031. a first discharge arc cover (2031); 2032. a second discharge arc cover (2032); 2033. an air inlet pipe (2033); 204. a feeding device (204); 2041. a first material conveying arc cover (2041); 2042. a second material conveying arc cover (2042); 2043. a connecting frame (2043); 205. an industrial motor (205); 206. a driven gear (206); 207. a drive gear (207); 208. a drive shaft (208); 3. -a release assembly (3); 301. a secondary mixing shaft (301); 302. a scraper plate (302); 303. an arc-shaped base (303); 4. a linkage assembly (4); 401. a second driven wheel (401); 402. a first belt (402); 403. a first driven wheel (403); 404. a second belt (404); 405. a first capstan (405); 406. a second drive wheel (406); 5. an electric heating rod (5); 6. an inner case (6); 7. a wind inlet groove (7); 8. a feeding groove (8); 9. and a discharge hole (9).

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. 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.

Referring to fig. 1-7, the present invention provides a technical solution: the utility model provides a slice coarse food grain food processing equipment, includes shell (1), the bottom fixed mounting of shell (1) has the frame, be provided with linear drying assembly (2) on shell (1), the inside of linear drying assembly (2) is inlayed and is equipped with antiseized subassembly (3), antiseized subassembly (3) rotate and connect at the side terminal surface of linear drying assembly (2), be connected through linkage subassembly (4) transmission between linear drying assembly (2) and antiseized subassembly (3);

Specifically, end fixedly connected with driven gear (206) of main compounding axle (201), the tooth surface meshing of driven gear (206) has driving gear (207), driving gear (207) fixedly cup joints the surface at transmission shaft (208), the surface of transmission shaft (208) is through bearing rotation connection at the side terminal surface of shell (1), the tip fixed mounting of transmission shaft (208) has industrial motor (205), the relative face of industrial motor (205) fuselage and shell (1) is through frame fixed connection, the quantity of feed device (204) is a plurality of, and a plurality of feed devices (204), feed device (202) and discharging device (203) are annular array setting, feed device (202) are including first pan feeding arc cover (2021) and second pan feeding arc cover (2022), offer first discharge opening on the outer cambered surface of first pan feeding arc cover (2021), the relative face of first pan feeding arc cover (2021) and second pan feeding arc cover (2022) is through frame fixed connection, first pan feeding arc cover (2022) and second cambered surface (2022) are fixed with the inner shell (201) and are fixed with first pan feeding arc cover (2021) and second cambered surface (2), the discharging device (203) comprises a first discharging arc-shaped cover (2031) and a second discharging arc-shaped cover (2032), a fourth discharging hole is formed in the outer cambered surface of the second discharging arc-shaped cover (2032), a fifth discharging hole is formed in the outer cambered surface of the first discharging arc-shaped cover (2031), and the aperture of the fifth discharging hole is larger than that of the fourth discharging hole;

the first discharging arc cover (2031) is fixedly connected with the opposite surface of the second discharging arc cover (2032), the outer cambered surfaces of the second discharging arc cover (2032) and the first discharging arc cover (2031) are fixedly connected with the inner side wall of the inner shell (6), the opposite surfaces of the first discharging arc cover (2031) and the second discharging arc cover (2032) and the main mixing shaft (201) are fixedly connected through an air inlet pipe (2033), the material conveying device (204) comprises a first material conveying arc cover (2041) and a second material conveying arc cover (2042), a third material outlet is formed in the outer cambered surface of the second material conveying arc cover (2042), and a second material outlet is formed in the outer cambered surface of the first material conveying arc cover (2041), and the aperture of the second material outlet is smaller than that of the third material outlet;

the second material conveying arc cover (2042) is fixedly connected with the opposite surface of the first material conveying arc cover (2041), the outer cambered surfaces of the first material conveying arc cover (2041) and the second material conveying arc cover (2042) are fixedly connected with the inner side wall of the inner shell (6), the second material conveying arc cover (2042) and the first material conveying arc cover (2041) are fixedly connected with the opposite surface of the main material mixing shaft (201), the aperture of the first material discharging hole is larger than that of the second material discharging hole, the aperture of the second material discharging hole is larger than that of the third material discharging hole, the aperture of the third material discharging hole is larger than that of the fourth material discharging hole, and the aperture of the fourth material discharging hole is larger than that of the fifth material discharging hole.

The implementation mode specifically comprises the following steps: the notch of the feeding trough (8) is rotationally connected with a flaky coarse food grain semi-finished product through a bearing, the notch of the feeding trough (7) is rotationally connected with a guiding pipe through the bearing, the industrial motor (205) is controlled to operate firstly, in the working process of the industrial motor (205), an output shaft of the industrial motor drives the driving gear (207) to rotate through a transmission shaft (208), the torsion on the transmission shaft (208) is acted on a main mixing shaft (201) by utilizing the linkage effect between the driving gear (207) and a driven gear (206), the main mixing shaft (201) drives an inner shell (6) and a feeding device (202), a discharging device (203) and a feeding device (204) on the inner side of the inner shell (6) to do circular motion under the driving of the torsion, after the operation state of the industrial motor (205) tends to be stable, flaky coarse food is injected into the feeding trough (8) through the semi-finished product, the coarse food is fed into the inner side of a first feeding arc cover (1) and a second arc cover (2022) through the feeding pipe (3), the first arc cover and the second arc cover (2) of the coarse food is driven by utilizing the gravity of the first arc cover (1) and the second arc cover (2) to change the arc cover along with the circular motion of the first arc cover and the arc cover (2) on the inner side of the coarse food (1) and the arc cover, the flaky coarse food can be turned over in the process of circular motion, so that the flaky coarse food can be subjected to primary drying treatment by the flowing drying airflow.

Specifically, the number of the anti-adhesion components (3) is multiple, the anti-adhesion components (3) are respectively embedded in the feeding device (202), the discharging device (203) or the feeding device (204), the anti-adhesion components (3) comprise a plurality of first driven wheels (403), the ends of the auxiliary mixing shafts (301) are rotationally connected with the side end surfaces of the feeding device (202), the discharging device (203) or the feeding device (204) through bearings, the outer surface of the main mixing shaft (201) is fixedly connected with a plurality of scraping plates (302), the plurality of scraping plates (302) are arranged in an annular array, an arc-shaped base (303) is embedded between every two adjacent scraping plates (302), the arc-shaped base (303) is fixedly connected with the opposite surface of the auxiliary mixing shaft (301), the linkage components (4) comprise a plurality of first driven wheels (403), the plurality of first driven wheels (403) are respectively and fixedly connected with the ends of the auxiliary mixing shafts (301), the plurality of first driven wheels (403) gradually reduce the diameter of the main mixing shafts (201) along the clockwise direction by taking the feeding device (202) as a reference, and the first driven wheels (403) are connected with the outer surface of the main mixing shaft (405) in a sleeved mode, and the first driven wheels (405) are fixedly connected with the first driving wheels (405);

the utility model discloses a high-speed mixing device for the material mixing machine, including main compounding axle (201), material feeding pipe (2033), material feeding pipe (202), material feeding pipe (203), material feeding pipe (7), material feeding pipe (203), material feeding pipe (9) have been seted up to the outer surface activity of main compounding axle (201), first driven wheel (403) have been cup jointed to the surface activity of main compounding axle (201), first driven wheel (403) are connected with second driven wheel (401) transmission through second drive belt (404), second driven wheel (401) are fixed to be cup jointed in the surface of transmission shaft (208), inside wall fixed mounting of inner shell (6) has electric heating stick (5), electric heating stick (5) are located between discharging device (203) and material feeding pipe (204), discharge gate (9) are located between feeding device (202) and the discharging device (203), material feeding pipe (8) have been seted up to one end of main compounding axle (201), material feeding pipe (8) are put through with material feeding pipe (2023), wind inlet pipe (7) are seted up to the other end of main compounding axle (201).

The implementation mode specifically comprises the following steps: the transmission shaft (208) rotates to apply torsion force to the second driven wheel (401) by using the second driving wheel (406), the second transmission belt (404) and the second driven wheel (401), the second driven wheel (401) respectively applies torsion force to the plurality of first driven wheels (403) through the first transmission belt (402), and then the plurality of anti-sticking components (3) are driven to rotate rapidly, and the plurality of anti-sticking components (3) take the feeding device (202) as a reference to accelerate along the clockwise rotating speed component.

Working principle, when in use:

the notch of the feeding trough (8) is rotationally connected with a flaky coarse food grain semi-finished product through a bearing, the notch of the feeding trough (7) is rotationally connected with a guiding pipe through the bearing, the industrial motor (205) is controlled to operate firstly, in the working process of the industrial motor (205), an output shaft of the industrial motor drives the driving gear (207) to rotate through a transmission shaft (208), the torsion on the transmission shaft (208) is acted on a main mixing shaft (201) by utilizing the linkage effect between the driving gear (207) and a driven gear (206), the main mixing shaft (201) drives an inner shell (6) and a feeding device (202), a discharging device (203) and a feeding device (204) on the inner side of the inner shell (6) to do circular motion under the driving of the torsion, after the operation state of the industrial motor (205) tends to be stable, flaky coarse food is injected into the feeding trough (8) through the semi-finished product, the coarse food is fed into the inner side of a first feeding arc cover (1) and a second arc cover (2022) through the feeding pipe (3), the first arc cover and the second arc cover (2) of the coarse food is driven by utilizing the gravity of the first arc cover (1) and the second arc cover (2) to change the arc cover along with the circular motion of the first arc cover and the arc cover (2) on the inner side of the coarse food (1) and the arc cover, the method comprises the steps that a piece of coarse grain food is turned over in the process of circular motion, and then the volume of the piece of coarse grain food subjected to the first drying treatment is contracted by a drying airflow flowing through the drying airflow, the piece of coarse grain food conforming to the quality of the first drying treatment flows to the direction of a material conveying device (204) through a first discharging hole, then the piece of coarse grain food sequentially flows through a plurality of material conveying devices (204), the piece of coarse grain food sequentially passes through a plurality of drying treatments in the process of flowing through the plurality of material conveying devices (204), after the piece of coarse grain food finishes the multiple drying treatments in the plurality of material conveying devices (204), the piece of coarse grain food enters the inner sides of a first discharging arc cover (2031) and a second discharging arc cover (2032) through a fourth discharging hole, the final drying treatment is finished in the inner sides of the second discharging arc cover (2032) and the first discharging arc cover (2031), the volume of the piece of coarse grain food is greatly contracted, the degree of the piece of coarse grain food is judged according to the contraction degree of the piece of coarse grain food, the piece of coarse grain food conforms to the good drying effect is improved by the volume of the piece of coarse grain food passing through the fifth discharging hole (203) and the material conveying device (203), and the volume of the finished product can be greatly contracted by the material is formed by the material conveying device (203) and the material is greatly in the condition of the basis of the drying device;

in the process of rapid rotation of the feeding device (202), the plurality of feeding devices (204) and the discharging device (203), normal-temperature air flow is injected into the air inlet groove (7) through the air guide pipes, the normal-temperature air flow carries out low-temperature drying treatment on the flaky coarse grain food inside the first feeding arc cover (2041) and the second feeding arc cover (2042), the normal-temperature air absorbs heat carried by the flaky coarse grain food and then flows in the anticlockwise direction, the air flow carries out heating treatment at the electric heating rod (5) arranged between the feeding device (204) and the discharging device (203), the flowing direction of the hot air flow is reciprocal to the rotation direction of the feeding device (202), the plurality of feeding devices (204) and the discharging device (203) in the rotating state, and therefore the quality of the surface of the flaky coarse grain food can be improved, and the appearance of the flaky coarse grain food is prevented from being influenced by shrinkage caused by overhigh heating of the surface layer of the flaky coarse grain food;

the transmission shaft (208) rotates and can utilize second action wheel (406), second drive belt (404) and second follow driving wheel (401) to act on second follow driving wheel (401) with the torsional force, second follow driving wheel (401) are through first drive belt (402) with torsion respectively on a plurality of first follow driving wheels (403), and then can drive a plurality of antiseized subassemblies (3) simultaneously and rotate fast, a plurality of antiseized subassemblies (3) use pan feeding device (202) as the reference to accelerate along clockwise rotational speed subassembly, avoid pan feeding device (202) and be close to the conveyer (204) of pan feeding device (202) because of strike off board (302) rotational speed is too fast and increase the breakage rate of slice coarse grain food.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical scheme of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims

1. The flaky coarse food grain food processing equipment comprises a shell (1), wherein a machine seat is fixedly arranged at the bottom of the shell (1), and is characterized in that a linear drying component (2) is arranged on the shell (1), an anti-sticking component (3) is embedded in the linear drying component (2), the anti-sticking component (3) is rotationally connected to the side end face of the linear drying component (2), and the linear drying component (2) is in transmission connection with the anti-sticking component (3) through a linkage component (4);

2. The flaky coarse food grain food processing equipment according to claim 1, wherein a driven gear (206) is fixedly connected to the end part of the main mixing shaft (201), a driving gear (207) is meshed with the tooth surface of the driven gear (206), the driving gear (207) is fixedly sleeved on the outer surface of a transmission shaft (208), the outer surface of the transmission shaft (208) is rotationally connected to the side end surface of the shell (1) through a bearing, an industrial motor (205) is fixedly installed at the end part of the transmission shaft (208), and the opposite surfaces of the body of the industrial motor (205) and the shell (1) are fixedly connected through a rack.

3. The flaky coarse food processing apparatus according to claim 2, wherein the number of the feeding devices (204) is plural, and the plurality of feeding devices (204), the feeding device (202) and the discharging device (203) are arranged in an annular array.

4. The flaky coarse food grain food processing equipment according to claim 1, wherein the feeding device (202) comprises a first feeding arc cover (2021) and a second feeding arc cover (2022), a first discharging hole is formed in the outer cambered surface of the first feeding arc cover (2021), opposite surfaces of the first feeding arc cover (2021) and the second feeding arc cover (2022) are fixedly connected, the outer cambered surfaces of the second feeding arc cover (2022) and the first feeding arc cover (2021) are fixedly connected with the inner side wall of the inner shell (6), and opposite surfaces of the first feeding arc cover (2021) and the second feeding arc cover (2022) are fixedly connected with the main mixing shaft (201) through a feeding pipe (2023).

5. The flaky coarse food processing device according to claim 4, wherein the discharging device (203) comprises a first discharging arc cover (2031) and a second discharging arc cover (2032), a fourth discharging hole is formed in the outer cambered surface of the second discharging arc cover (2032), a fifth discharging hole is formed in the outer cambered surface of the first discharging arc cover (2031), and the aperture of the fifth discharging hole is larger than that of the fourth discharging hole;

6. The flaky coarse food processing device according to claim 5, wherein the material conveying device (204) comprises a first material conveying arc cover (2041) and a second material conveying arc cover (2042), a third discharging hole is formed in the outer cambered surface of the second material conveying arc cover (2042), a second discharging hole is formed in the outer cambered surface of the first material conveying arc cover (2041), and the aperture of the second discharging hole is smaller than that of the third discharging hole;

7. The sheeted coarse food grain processing apparatus of claim 6, wherein the first discharge aperture has a larger aperture than the second discharge aperture, the second discharge aperture has a larger aperture than the third discharge aperture, the third discharge aperture has a larger aperture than the fourth discharge aperture, and the fourth discharge aperture has a larger aperture than the fifth discharge aperture.

8. The flaky coarse food grain food processing equipment according to claim 1, wherein the number of the anti-sticking components (3) is multiple, the anti-sticking components (3) are respectively embedded in the feeding device (202), the discharging device (203) or the conveying device (204), the anti-sticking components (3) comprise auxiliary mixing shafts (301), the end parts of the auxiliary mixing shafts (301) are rotationally connected with the side end surfaces of the feeding device (202), the discharging device (203) or the conveying device (204) through bearings, the outer surface of the main mixing shaft (201) is fixedly connected with a plurality of scraping plates (302), the scraping plates (302) are arranged in an annular array, an arc-shaped base (303) is embedded between every two adjacent scraping plates (302), and the arc-shaped base (303) is fixedly connected with the opposite surface of the auxiliary mixing shaft (301).

9. The flaky coarse food grain food processing equipment according to claim 1, wherein the linkage assembly (4) comprises a plurality of first driven wheels (403), the plurality of first driven wheels (403) are respectively and fixedly connected to the end parts of the plurality of auxiliary mixing shafts (301), the plurality of first driven wheels (403) gradually decrease in diameter along the clockwise direction by taking a feeding device (202) as a reference, a first driving wheel (405) is fixedly sleeved on the outer surface of the main mixing shaft (201), and the first driving wheel (405) is in transmission connection with the plurality of first driven wheels (403) through a first transmission belt (402);

10. The flaky coarse food grain food processing equipment according to claim 1, wherein the discharging hole (9) is formed in the outer cambered surface of the inner shell (6), the discharging hole (9) is positioned between the feeding device (202) and the discharging device (203), the feeding groove (8) is formed in one end of the main mixing shaft (201), the feeding groove (8) is communicated with the feeding pipe (2023), the air inlet groove (7) is formed in the other end of the main mixing shaft (201), and the air inlet groove (7) is communicated with the air inlet pipe (2033).