CN216701544U - Snowflake chicken fillet and boneless chicken fillet production line conveying, arranging and powdering device - Google Patents

Abstract

The utility model discloses a snowflake chicken fillet and boneless chicken fillet production line conveying, arranging and powdering device which comprises an upper material bin, an upper layer mesh belt and a lower layer mesh belt, wherein a compression roller is arranged on the upper layer mesh belt, compression roller fixing discs and compression beams are arranged at two ends of the compression roller, and the compression beams press spaced marks on powder wrapping raw materials; the other end of the upper layer mesh belt is provided with more than 2 powder feeding mesh belts at intervals, the powder feeding mesh belts are arranged in an inclined mode, and the bottom end of the first-stage powder feeding mesh belt close to the upper layer mesh belt is arranged between the upper layer mesh belt and the lower layer mesh belt in an inclined mode; the bottom end of the second powder feeding mesh belt close to the first powder feeding mesh belt is obliquely arranged between the first powder feeding mesh belt and the lower mesh belt, so that a product output by the first powder feeding mesh belt falls onto the second powder feeding mesh belt. The device can enable the whole body of the product to be uniformly wrapped with flour-wrapped raw materials such as flour-wrapped bran and snowflake, and the like, and adhesion is not easy to generate, so that the finished product is more attractive, and the product yield is improved.

Description

Snowflake chicken fillet and boneless chicken fillet production line conveying, arranging and powdering device

Technical Field

The utility model relates to a food processing and finishing device, in particular to a snowflake chicken fillet and boneless chicken fillet production line conveying, finishing and powdering device.

Background

The existing flour wrapping production line for the snowflake chicken fillet and the boneless chicken fillet only comprises an upper layer of mesh belt and a lower layer of mesh belt which push flour wrapping raw materials such as bread bran and snowflake slices to operate, the flour wrapping raw materials such as the bread bran and the snowflake slices are flatly paved on the upper mesh belt in a planar shape, when workers place products, the products are placed irregularly, adhesion is easy to occur, and the phenomena such as piling and placing are caused, so that the yield is low.

In addition, the flour-coated raw materials such as the bread bran and the snowflake need to be manually refilled into the feeding bin after running for one circle, and manpower and material resources are consumed in the production process.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem of providing a snowflake chicken fillet and boneless chicken fillet production line conveying, arranging and powdering device, which presses marks on laid powder-wrapped raw materials, is convenient for neatly placing products by utilizing the marks and avoids adhesion; a powdering net belt is arranged, and a processed product can jolt and roll in the upward process; further, the whole body of the product can be uniformly wrapped with flour-wrapping raw materials such as flour-wrapping bran and snowflake, adhesion is not easy to generate, the finished product is more attractive, and the yield of the product is improved.

In order to solve the technical problems, the utility model adopts the following technical means:

a snowflake chicken fillet and boneless chicken fillet production line conveying and arranging powdering device comprises a feeding bin, an upper layer mesh belt and a lower layer mesh belt, wherein the upper layer mesh belt is used for receiving materials in the feeding bin, the lower layer mesh belt is used for recovering powder-coated raw materials, a compression roller is arranged at one end, close to the feeding bin, of the upper layer mesh belt, compression roller fixing discs are arranged at two ends of the compression roller, compression beams are uniformly arranged on the outer circumferential surface of each compression roller fixing disc at intervals, and when the compression rollers rotate, the compression beams press spaced marks on the powder-coated raw materials on the upper layer mesh belt; the other end of the upper layer mesh belt is provided with more than 2 powder feeding mesh belts at intervals, the powder feeding mesh belts are arranged in an inclined mode, and the bottom end of the first-stage powder feeding mesh belt close to the upper layer mesh belt is arranged between the upper layer mesh belt and the lower layer mesh belt in an inclined mode; the bottom end of the second powder feeding mesh belt close to the first powder feeding mesh belt is obliquely arranged between the first powder feeding mesh belt and the lower mesh belt, so that a product output by the first powder feeding mesh belt falls onto the second powder feeding mesh belt.

Compared with the prior art, the outstanding characteristics are that:

(1) the upper-layer mesh belt is provided with the press roller, and when the press roller rotates, the press beam presses spaced marks on the powder-coated raw material on the upper-layer mesh belt; the printing mark is conveniently used as a reference line for placement by workers, and the products are orderly arranged, so that adhesion is not easy to generate, and the finished products are more attractive; simultaneously, the setting of compression roller still makes the powder raw materials layer of wrapping up in when putting the product on the upper mesh belt pile up and the thickening owing to press the roof beam squeezing action to take place, further reduces the adhesion, gathers and piles the phenomenon.

(2) The powdering net belt is arranged between the upper layer net belt and the lower layer net belt, the bottom end of the powdering net belt close to the upper layer net belt is obliquely arranged between the upper layer net belt and the lower layer net belt so as to be convenient for the powdering net belt to receive processing raw materials conveyed by the upper layer net belt, the powdering net belt drives the powdered snowflake chicken fillet and boneless chicken fillet to obliquely move upwards, and a processed product can bump and roll in the process of moving upwards; because the powdering mesh belts are arranged obliquely and at intervals, the powdering mesh belt close to the upper mesh belt conveys the product to a high position, then the product falls on the next adjacent powdering mesh belt, and the product repeatedly goes upward and is powdered; therefore, the whole body of the product can be uniformly coated with flour-coated raw materials such as flour-coated bran and snowflake, the product is not easy to adhere, the finished product is more attractive, and the product yield is improved.

(3) Through setting up lower floor's guipure, utilize it to wrap up in convenient recycle of whitewashed raw materials.

The further preferred technical scheme is as follows:

the outer surface of the pressing beam is an arc-shaped surface, the arc-shaped surface is tangent to the upper surface of the upper-layer mesh belt, and the upper-layer mesh belt rotates through the pressing beam to drive the pressing roller to rotate.

Through the arrangement, a driving motor is not required to be arranged for the compression roller, and the arrangement of parts is reduced.

A partition plate is arranged in the upper storage bin and divides the upper storage bin into a powder-coated raw material cavity and a compression roller mounting cavity; the compression roller is arranged in the compression roller mounting cavity.

Through setting up the baffle, install the compression roller in last feed bin, improve equipment's security, aesthetic property.

The upper mesh belt below be equipped with lower floor's guipure, the below of lower floor's guipure output is equipped with the bottom storage silo, the bottom storage silo is equipped with the discharge gate and is connected with the material loading mouth of auger storehouse cavity lower extreme, is equipped with the auger in the auger storehouse cavity, auger motor drive, auger storehouse cavity top is equipped with the discharge gate and is connected with the feed inlet of material loading storehouse.

Through setting up lower floor's guipure, be convenient for promote the raw materials that lower floor's guipure was accepted in the production process to go up the feed bin again through the auger in, accomplish the powder raw materials cyclic utilization flow of wrapping up in bread chaff class, snowflake class etc..

The upper layer mesh belt is provided with a lower layer mesh belt driving shaft and a lower layer mesh belt driven shaft, and the lower layer mesh belt driving shaft is driven by a mesh belt motor; the upper mesh belt is provided with an upper mesh belt driving shaft and an upper mesh belt driven shaft, and the upper mesh belt driving shaft is connected with the lower mesh belt driving shaft through a transmission part.

Through the arrangement, the motor can be used for driving the lower-layer mesh belt, the lower-layer mesh belt is used for driving the upper-layer mesh belt, and the upper-layer mesh belt is used for driving the press roller.

The three powdering mesh belts are respectively a first-stage powdering mesh belt, a second-stage powdering mesh belt and a third-stage powdering mesh belt.

By arranging the three powdering net belts, the three oblique upward powdering net belts can achieve a better powdering effect.

The powder feeding mesh belt is fixed in the powder feeding cavity through a bearing and a shaft, and the powder feeding mesh belt motor drives the second-stage powder feeding mesh belt to move; the first powder feeding mesh belt and the third powder feeding mesh belt are in transmission connection with the second powder feeding mesh belt, and the second powder feeding mesh belt moves to drive the first powder feeding mesh belt and the third powder feeding mesh belt to move.

Through the arrangement, one powdering mesh belt motor can be used for driving three powdering mesh belts to move, the use of the motor is reduced, the control of equipment is facilitated, and the equipment cost and the size can also be reduced.

Drawings

FIG. 1 is a schematic view of the apparatus of the present invention.

Fig. 2 is a perspective view of the pressure roller of fig. 1.

Description of reference numerals: 1-compression roller, 2-compression roller fixing disc, 3-compression roller rotating shaft, 4-upper layer mesh belt, 5-lower layer mesh belt, 6-lower layer mesh belt driving shaft, 7-bottom storage bin, 8-auger bin cavity, 9-auger, 10-upper layer mesh belt driving shaft, 11-striker plate, 12-feeding bin and 13-auger motor. 14-upper layer mesh belt driven shaft, 15-second level powdering mesh belt driving shaft, 16-powdering mesh belt, 17-first level powdering mesh belt driven shaft, 18-second level powdering mesh belt driven shaft, 19-third level powdering mesh belt driven shaft, 20-third level powdering mesh belt driving shaft, 21-food snowflake chicken fillet and boneless chicken fillet production line cavity, 22-lower layer mesh belt driven shaft and 23-first level powdering mesh belt driving shaft.

Detailed Description

The present invention will be further described with reference to the following examples.

Referring to fig. 1 and 2, the snowflake chicken fillet and boneless chicken fillet production line conveying, arranging and powdering device disclosed by the utility model comprises an upper bin 12, an upper layer mesh belt 4 for receiving materials in the upper bin 12, a press roller 1, a powdering mesh belt 16 and a lower layer mesh belt 5; the powder wrapping raw material is recovered by the lower mesh belt 5, a compression roller 1 is arranged at one end, close to the upper material bin 12, of the upper mesh belt 4, compression roller fixing discs 2 are arranged at two ends of the compression roller 1, compression beams are uniformly arranged on the outer circumferential surface of each compression roller fixing disc 2 at intervals, and the compression beams press spaced marks on the powder wrapping raw material on the upper mesh belt 4 when the compression roller 1 rotates; the other end of the upper layer mesh belt 4 is provided with a powdering mesh belt 16, more than 2 powdering mesh belts 16 are arranged at intervals, the powdering mesh belt 16 is obliquely arranged, and the bottom end of the first-stage powdering mesh belt 16 close to the upper layer mesh belt 4 is obliquely arranged between the upper layer mesh belt 4 and the lower layer mesh belt 5; the bottom end of the second powder feeding mesh belt 16 close to the first powder feeding mesh belt 16 is obliquely arranged between the first powder feeding mesh belt 16 and the lower mesh belt 5, so that the product output by the first powder feeding mesh belt 16 falls onto the second powder feeding mesh belt 16.

A material baffle plate 11 is arranged at the discharge outlet of the feeding bin 12, and bread bran, snowflake and other flour-coated raw materials are put into the feeding bin 12 and spread on the upper mesh belt 4 after being flattened by the material baffle plate 11.

The center of the press roll 1 is provided with a press roll rotating shaft 3.

The upper layer mesh belt 4, the lower layer mesh belt 5 and the upper powder mesh belt 16 are all arranged in the production line cavity 21.

The outer surface of the pressing beam is an arc-shaped surface, the arc-shaped surface is tangent to the upper surface of the upper-layer mesh belt 4, and the upper-layer mesh belt 4 rotates through the pressing beam to drive the pressing roller 1 to rotate.

Through the arrangement, a driving motor is not required to be arranged for the compression roller 1, and the arrangement of parts is reduced.

A partition plate is arranged in the upper bin 12 and divides the upper bin 12 into a powder-coated raw material cavity and a compression roller 1 installation cavity; the press roll 1 is arranged in a mounting cavity of the press roll 1.

Through setting up the baffle, install compression roller 1 in last feed bin 12, improve equipment's security, aesthetic property.

The upper mesh belt 4 below be equipped with lower floor's guipure 5, the below of lower floor's guipure 5 output is equipped with bottom storage silo 7, bottom storage silo 7 is equipped with the discharge gate and is connected with the material loading mouth of auger storehouse cavity 9 lower extreme, is equipped with auger 9 in the auger storehouse cavity 9, the drive of auger 9 auger motor 14, auger storehouse cavity 9 top is equipped with the discharge gate and is connected with the feed inlet of feed bin 12.

Through the arrangement of the lower mesh belt 5, raw materials borne by the lower mesh belt 5 in the production process can be conveniently lifted into the upper storage bin 12 through the packing auger 9, and the circulation utilization process of flour-coated raw materials such as bread bran and snowflake is completed.

The upper layer mesh belt 4 is provided with a lower layer mesh belt driving shaft 6 and a lower layer mesh belt driven shaft 22, and the lower layer mesh belt driving shaft 6 is driven by a mesh belt motor; the upper layer mesh belt 4 is provided with an upper layer mesh belt driving shaft 10 and an upper layer mesh belt driven shaft 14, and the upper layer mesh belt driving shaft 10 is connected with the lower layer mesh belt driving shaft 6 through a transmission part.

With the above arrangement, the lower mesh belt 5 can be driven by the motor, the upper mesh belt 4 can be driven by the lower mesh belt 5, and the press roller 1 can be driven by the upper mesh belt 4.

The three powdering net belts 16 are respectively a first-stage powdering net belt 16, a second-stage powdering net belt 16 and a third-stage powdering net belt 16.

By arranging the three powdering net belts 16, a better powdering effect can be achieved through three times of oblique ascending and powdering.

The powdering mesh belt 16 is fixed in the powdering cavity through a bearing and a shaft, and the motor of the powdering mesh belt 16 drives the second-stage powdering mesh belt 16 to move; the first powder feeding mesh belt 16 and the third powder feeding mesh belt 16 are in transmission connection with the second powder feeding mesh belt 16, and the second powder feeding mesh belt 16 moves to drive the first powder feeding mesh belt 16 and the third powder feeding mesh belt 16 to move. The first powder feeding net belt 16 is provided with a first powder feeding net belt driven shaft 17 and a first powder feeding net belt driving shaft 23. The second-stage powdering mesh belt 16 is provided with a second-stage powdering mesh belt driven shaft 18 and a second-stage powdering mesh belt driving shaft 15. The third powder feeding net belt 16 is provided with a third powder feeding net belt driven shaft 19 and a third powder feeding net belt driving shaft 20. The second-stage powdering mesh belt driving shaft 15 is connected with a powdering mesh belt 16 motor, provides power for the second-stage powdering mesh belt 16, and passes through the second-stage powdering mesh belt 16 and the second-stage powdering mesh belt driving shaft 15. The first-stage powdering mesh belt driving shaft 23 and the third-stage powdering mesh belt driving shaft 20 are both connected with the first-stage powdering mesh belt driving shaft 23 through chain wheels and chains in a transmission manner, and power is provided by the same motor of the powdering mesh belt 16.

Through the arrangement, one powdering mesh belt 16 motor can be used for driving three powdering mesh belts 16 to move, so that the use of the motor is reduced, the control of equipment is facilitated, and the cost and the volume of the equipment can also be reduced.

The advantages of this embodiment are:

(1) the upper-layer mesh belt 4 is provided with the compression roller 1, and when the compression roller 1 rotates, the compression beam presses spaced marks on the powder-coated raw material on the upper-layer mesh belt 4; the printing mark is conveniently used as a reference line for placement by workers, and the products are orderly arranged, so that adhesion is not easy to generate, and the finished products are more attractive; simultaneously, the setting of compression roller 1 still makes the powder raw materials layer of wrapping up in when putting the product on upper mesh belt 4 pile up and the thickening owing to press the roof beam extrusion to take place, further reduces the adhesion, gathers and piles the phenomenon.

(2) By arranging the powdering net belt 16 between the upper layer net belt 4 and the lower layer net belt 5, the bottom end of the powdering net belt 16 close to the upper layer net belt 4 is obliquely arranged between the upper layer net belt 4 and the lower layer net belt 5 so as to be convenient for the powdering net belt 16 to receive the processing raw materials conveyed by the upper layer net belt 4, the powdering net belt 16 drives the powdered snowflake chicken fillet and boneless chicken fillet to obliquely move upwards, and the processed products can bump and roll in the process of moving upwards; because the powdering net belts 16 are arranged obliquely and at intervals, the powdering net belt 16 close to the upper layer of the net belt 4 conveys the product to a high position, then the product falls on the next adjacent powdering net belt 16, and the upward movement and powdering are repeated; therefore, the whole body of the product can be uniformly wrapped with flour-wrapping raw materials such as flour-wrapping bran and snowflake, the product is not easy to adhere, the finished product is more attractive, and the product yield is improved.

(3) By arranging the lower mesh belt 5, the powder wrapping raw material is conveniently recycled by utilizing the lower belt in the operation process.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the scope of the present invention, which is defined in the appended claims.

Claims (7)

1. The utility model provides a snowflake chicken fillet, boneless chicken fillet production line are carried, are put in order whitewashed device, includes the feed bin, accepts the upper mesh belt of the interior material of feed bin, retrieves the lower floor mesh belt of wrapping up in the powder raw materials, its characterized in that: the upper-layer mesh belt is provided with a compression roller at one end close to the feeding bin, compression roller fixing discs are arranged at two ends of the compression roller, compression beams are uniformly arranged on the outer circumferential surface of each compression roller fixing disc at intervals, and the compression beams press spaced marks on the powder wrapping raw material on the upper-layer mesh belt when the compression roller rotates; the other end of the upper mesh belt is provided with more than 2 powdering mesh belts at intervals, the powdering mesh belts are arranged in an inclined manner, and the bottom end of the first-stage powdering mesh belt close to the upper mesh belt is arranged in an inclined manner between the upper mesh belt and the lower mesh belt; the bottom end of the second powder feeding mesh belt close to the first powder feeding mesh belt is obliquely arranged between the first powder feeding mesh belt and the lower mesh belt, so that a product output by the first powder feeding mesh belt falls onto the second powder feeding mesh belt.

2. The snowflake chicken fillet and boneless chicken fillet production line conveying, arranging and powdering device as claimed in claim 1, wherein: the outer surface of the pressing beam is an arc-shaped surface, the arc-shaped surface is tangent to the upper surface of the upper-layer mesh belt, and the upper-layer mesh belt rotates through the pressing beam to drive the pressing roller to rotate.

3. The snowflake chicken fillet and boneless chicken fillet production line conveying, arranging and powdering device as claimed in claim 2, wherein: a partition plate is arranged in the upper storage bin and divides the upper storage bin into a powder-coated raw material cavity and a compression roller mounting cavity; the compression roller is arranged in the compression roller mounting cavity.

4. The snowflake chicken fillet and boneless chicken fillet production line conveying, arranging and powdering device as claimed in claim 1, wherein: the upper mesh belt below be equipped with lower floor's guipure, the below of lower floor's guipure output is equipped with the bottom storage silo, the bottom storage silo is equipped with the discharge gate and is connected with the material loading mouth of auger storehouse cavity lower extreme, is equipped with the auger in the auger storehouse cavity, auger motor drive, auger storehouse cavity top is equipped with the discharge gate and is connected with the feed inlet of material loading storehouse.

5. The snowflake chicken fillet and boneless chicken fillet production line conveying, arranging and powdering device as claimed in claim 4, wherein the snowflake chicken fillet and boneless chicken fillet production line conveying, arranging and powdering device comprises: the upper layer mesh belt is provided with a lower layer mesh belt driving shaft and a lower layer mesh belt driven shaft, and the lower layer mesh belt driving shaft is driven by a mesh belt motor; the upper mesh belt is provided with an upper mesh belt driving shaft and an upper mesh belt driven shaft, and the upper mesh belt driving shaft is connected with the lower mesh belt driving shaft through a transmission part.

6. The snowflake chicken fillet and boneless chicken fillet production line conveying, arranging and powdering device as claimed in claim 1, wherein: the three powdering mesh belts are respectively a first-stage powdering mesh belt, a second-stage powdering mesh belt and a third-stage powdering mesh belt.

7. The snowflake chicken fillet and boneless chicken fillet production line conveying, arranging and powdering device as claimed in claim 6, wherein: the powder feeding mesh belt is fixed in the powder feeding cavity through a bearing and a shaft, and the powder feeding mesh belt motor drives the second-stage powder feeding mesh belt to move; the first powder feeding mesh belt and the third powder feeding mesh belt are in transmission connection with the second powder feeding mesh belt, and the second powder feeding mesh belt moves to drive the first powder feeding mesh belt and the third powder feeding mesh belt to move.

Images