CN217895537U - White spirit grain moistening, starter propagation and red grain production system - Google Patents

Abstract

A production system for moistening grain, making starter and making red grain by white spirit comprises a grain moistening unit, a starter making unit and a red grain unit; the grain moistening unit comprises a raw grain quantitative screw for throwing raw grains, the tail end of the raw grain quantitative screw is connected with an inlet of a vibration cleaning sieve, an outlet of the vibration cleaning sieve is connected with an inlet of a strong dampening machine, an outlet of the strong dampening machine is connected with a grain moistening bin, an outlet of a vibration blanking device is connected with a flour mill, an outlet of the flour mill is connected with a wheat flour quantitative screw, an outlet of the wheat flour quantitative screw is connected with a yeast mixing screw, an outlet of the yeast mixing screw is connected with an inlet of a strong stirring machine, and an outlet of the strong stirring machine is connected with a koji pressing machine; the red grain unit comprises a red grain packing bin connected to the outlet of the pulverizer. The grain moistening unit, the starter propagation unit and the red grain unit are mutually associated, and are produced in a flow line operation mode in the production process, the fully-closed structure is achieved, secondary carrying is avoided, and the production efficiency is high.

Description

White spirit grain moistening, starter propagation and red grain production system

Technical Field

The utility model relates to a system wine technical field especially relates to a moist grain of white spirit, system song, red grain production system.

Background

In the production process of white spirit, processes such as grain moistening, starter propagation, red grain and the like are included, but an independent system is commonly used at present, transportation is needed in the production process, and the production efficiency is low. For example, CN214732111U discloses a grain moistening system, which needs a secondary transportation after grain moistening contact, and the grain moistening process is in an open mode; for example, CN215560151U discloses an intelligent starter propagation system for white spirit brewing, which also needs to be supplied with materials and discharged for transportation.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is: the problems existing in the prior art are solved, and the white spirit grain moistening, yeast making and red grain production system which can realize closed production and a grain moistening, yeast making and red grain integrated system is provided.

In order to realize the technical characteristics, the purpose of the utility model is realized as follows: a production system for moistening grain, making yeast and making red grain of white spirit comprises a grain moistening unit, a yeast making unit and a red grain unit; the grain moistening unit comprises a raw grain quantitative screw for throwing raw grains, the tail end of the raw grain quantitative screw is connected with an inlet of a vibration cleaning sieve, an outlet of the vibration cleaning sieve is connected with an inlet of a strong dampening machine, an outlet of the strong dampening machine is connected with a grain moistening bin, and a vibration feeder is arranged at the lower part of the grain moistening bin; the starter propagation unit comprises a flour mill connected to the outlet of the vibrating feeder, the outlet of the flour mill is in quantitative spiral connection with wheat flour, the outlet of the quantitative spiral of wheat flour is in spiral connection with a yeast mother mixing screw, a mother yeast buffer bin is arranged above the yeast mother mixing screw, the lower outlet of the mother yeast buffer bin is in quantitative spiral connection with mother yeast, the outlet of the mother yeast quantitative spiral is in spiral connection with the yeast mother mixing screw, the outlet of the yeast mother mixing screw is connected with the inlet of a powerful stirrer, and the outlet of the powerful stirrer is connected with a starter press; the red grain unit comprises a red grain packing bin connected to the outlet of the pulverizer.

The grain moistening unit also comprises a bucket elevator which is provided with the tail end of the raw grain quantitative screw, a discharge port at the upper end of the bucket elevator is connected with the connecting screw, and a discharge port of the connecting screw is connected with an inlet of the vibration cleaning sieve; the outlet of the vibration cleaning sieve is provided with a dust removal connecting pipeline connected with a strong dampening machine, and the upper part of the grain moistening bin is provided with a dust removal pipe connected with the dust removal connecting pipeline in a filtering way; the device also comprises a first bag type dust collector, wherein an air inlet of the first bag type dust collector is respectively connected with a dust collecting hopper above the raw grain quantitative spiral, the upper end of the bucket type lifter and a dust removing connecting pipeline through pipelines.

The grain moistening units are provided with two sets, the lower outlets of the two strong dampening machines are provided with dampening switching spirals, and the dampening switching spirals are respectively connected with the grain moistening bins.

The bent unit of system is equipped with two sets, and the lower extreme and the moist grain blank screwed connection of glassware under the vibration, two milling machines are connected in the lower part of moist grain blank spiral, and the discharge gate and the ejection of compact of two milling machines switch screwed connection, and the ejection of compact switches the spiral bottom and is equipped with two ejection of compact connection spirals, and the below of the terminal discharge gate of two ejection of compact connection spirals with join screwed connection, wheat flour ration spiral is connected respectively in the discharge gate below at two ejection of compact connection spiral middle parts.

The export of powerful mixer and delivery screw are connected, and delivery screw's export is connected with the buckling conveyer, and the export of buckling conveyer is connected with the buckling machine, and the export of buckling machine is connected with the conveyer belt.

The red grain unit also comprises a corner conveying screw connected to the outlet of the flour mill, at least one belt conveyor is arranged at the outlet of the lower end of the corner conveying screw, a red grain bucket elevator is arranged at the outlet of the belt conveyor, and the outlet of the upper end of the red grain bucket elevator is connected with a red grain packing bin pipeline.

The red grain unit further comprises a corner conveying screw connected to an outlet in the middle of the converging screw, at least one belt conveyor is arranged at the outlet of the lower end of the corner conveying screw, a red grain bucket elevator is arranged at the outlet of the belt conveyor, and the outlet of the upper end of the red grain bucket elevator is connected with a red grain packing bin pipeline.

The red grain packing bins are provided with a plurality of red grain packing bins, the upper parts of the red grain packing bins are in spiral connection with red grain distribution and conveying, and the upper end outlet of the red grain bucket elevator is connected with a red-wiry distribution and conveying spiral pipeline.

And a discharge port at the bottom of the red grain packaging bin is provided with a quantitative feeder.

The red grain unit also comprises a second bag type dust collector, and an air inlet of the second bag type dust collector is connected with the quantitative feeder through a pipeline.

The utility model discloses there is following beneficial effect:

1. the grain moistening unit, the starter propagation unit and the red grain unit are mutually associated, production line operation production is realized during production, all the parts are connected through pipelines, the structure is fully sealed, secondary carrying is avoided, and the production efficiency is high. When production, the material when moist grain is the wheat, just gets into wheat flour ration spiral behind the milling machine crocus to system song, if the material is red grain, just get into red grain packing storehouse after the milling machine crocus, satisfy system song and red grain simultaneously.

2. A bucket elevator is adopted to utilize space, raw grains are lifted, and then screening and dampening are completed under the action of gravity from top to bottom, and finally the raw grains enter a grain moistening bin.

3. In the dust removal connecting pipeline, not only can the former grain fall into powerful dampener from the vibration clearance sieve through the dust removal connecting pipeline, under the effect of first bag collector, the air current can flow into the dust removal connecting pipeline through the dust removal pipe, carries out dust removal once more to the former grain that passes through in the dust removal connecting pipeline.

4. The grain moistening units are provided with two sets, the lower outlets of the two strong dampening machines are provided with dampening switching spirals, and the dampening switching spirals are respectively connected with the grain moistening bins. The two sets can be produced independently or simultaneously, and the production efficiency is improved. The dampening switching screw can selectively feed the two moistening granaries, and when one moistening granary is full, the exchange feeding can be realized through positive and negative rotation.

5. And the starter propagation units are provided with two sets and are matched with the grain moistening units, so that the starter propagation production efficiency is improved.

6. When the grain moistening unit and the starter propagation unit are provided with two sets or more sets, the milled red grains are conveyed to the red grain packaging bin after being converged by the converging screw.

7. The red grain packing bins are provided with a plurality of red grain packing bins, the upper parts of the red grain packing bins are spirally connected with the red grain separating and conveying device, and the upper end outlet of the red grain bucket elevator is connected with the red grain separating and conveying device. The storage capacity is large, and the red grain distribution conveying screw is convenient to deliver into a plurality of red grain packing bins.

Drawings

Fig. 1 is a schematic diagram of the grain moistening principle structure of the utility model.

Fig. 2 is the schematic diagram of the yeast making principle and structure of the present invention.

Fig. 3 is a schematic diagram of the red grain principle structure of the utility model.

In the figure: a raw grain quantitative screw 101, a bucket elevator 102, a connecting screw 103, a vibration cleaning sieve 104, an impurity discharging pipe 105, a dust removal connecting pipeline 106, a strong dampening machine 107, a constant pressure water tank 108, a dampening switching screw 109, a grain moistening bin 110, a vibration feeder 111, a dust removal pipe 112 and a grain moistening and cutting screw 113;

a first bag house 120, a dust hopper 122;

a flour mill 130, a discharge connection screw 131, a wheat flour quantitative screw 132, a yeast mother mixing screw 133, a powerful stirrer 134, a pressurized water tank 135, a conveying screw 136, a buckling conveyor 137, a buckling machine 138, a conveying belt 139, a discharge switching screw 140, a mother yeast buffer storage 150 and a mother yeast quantitative screw 151;

a converging screw 160, a corner conveying screw 161, a belt conveyor 162, a red grain bucket elevator 163, a red grain separating and conveying screw 164, a red grain baling bin 165, a doser 166 and a second bag type dust collector 170.

Detailed Description

The following describes embodiments of the present invention with reference to the drawings.

Referring to fig. 1-3, a white spirit grain moistening, yeast making and red grain production system comprises a grain moistening unit, a yeast making unit and a red grain unit; the grain moistening unit comprises a raw grain quantitative screw 101 for throwing raw grains, the tail end of the raw grain quantitative screw 101 is connected with an inlet of a vibration cleaning sieve 104, an outlet of the vibration cleaning sieve 104 is connected with an inlet of a strong dampening machine 107, an outlet of the strong dampening machine 107 is connected with a grain moistening bin 110, and a vibration feeder 111 is arranged at the lower part of the grain moistening bin 110; the koji making unit comprises a pulverizer 130 connected to the outlet of a vibrating feeder 111, the outlet of the pulverizer 130 is connected with a wheat flour quantitative screw 132, the outlet of the wheat flour quantitative screw 132 is connected with a koji mother mixing screw 133, a mother koji cache bin 150 is arranged above the koji mother mixing screw 133, the lower outlet of the mother koji cache bin 150 is connected with a mother koji quantitative screw 151, the outlet of the mother koji quantitative screw 151 is connected with the koji mother mixing screw 133, the outlet of the koji mother mixing screw 133 is connected with the inlet of a strong stirrer 134, and the outlet of the strong stirrer 134 is connected with a koji pressing machine 138; the red grain unit includes a red grain baling bin 165 connected at the outlet of the mill 130. Through the structure, the grain moistening unit, the koji making unit and the red grain unit are mutually associated, and are produced in a flow line operation mode during production, all the parts are connected through the pipeline, the structure is made in a totally-closed mode, secondary carrying is avoided, and production efficiency is high. The bent unit of system is connected in the rear end of moist grain unit vibration glassware 111 down, and the export of milling machine 130 is connected with wheat flour ration spiral 132 and red grain packing storehouse 165 respectively, and the junction can adopt three-way valve structure, and when production, if the material when moist grain is wheat, just get into wheat flour ration spiral 132 behind milling machine 130 to make bent, if the material is red grain, just get into red grain packing storehouse 165 behind milling machine 130 milling powder.

When the material is wheat, the vibration cleaning sieve 104 removes impurities from raw grains, the impurities are discharged and collected through the impurity discharge pipe 105 at the bottom, the screened raw grains enter the strong dampening machine 107, the strong dampening machine 107 comprises a constant pressure water tank 108, the constant pressure water tank 108 injects water into the strong dampening machine 107, and the raw grains are stirred by the strong dampening machine 107 and then enter the grain moistening bin 110. During koji making, the koji making material enters the flour mill 130 through the vibration feeder 111 to be milled, water in the mother koji quantitative screw 151, the wheat flour quantitative screw 132 and the pressurized water tank 135 of the strong mixer 134 is discharged according to the corresponding frequency according to the preset proportioning coefficient, the water is mixed in the koji mixing screw 133, the mixed material enters the strong mixer 134 to be mixed, the mixed material enters the koji pressing machine 138 to be made into koji blocks after being mixed, and the koji making is completed. When the material is red grain, the red grain milled by the mill 130 enters the red grain baling bin 165 for storage.

The raw grain quantitative screw 101 can adopt a quantitative screw metering conveyor disclosed in CN215401221U, and has a precise metering conveying function.

The strong dampener 107 can adopt a strong dampener disclosed in CN 101972679A.

Referring to fig. 1, in a preferred scheme, the grain moistening unit further comprises a bucket elevator 102 for installing the tail end of the raw grain quantitative screw 101, a discharge port at the upper end of the bucket elevator 102 is connected with a connecting screw 103, and a discharge port of the connecting screw 103 is connected with an inlet of a vibrating cleaning sieve 104; the outlet of the vibration cleaning sieve 104 is provided with a dust removal connecting pipeline 106 connected with a strong dampening machine 107, and the upper part of the grain moistening bin 110 is provided with a dust removal pipe 112 connected with the dust removal connecting pipeline 106 in a filtering way; the first bag type dust collector 120 is further included, and an air inlet of the first bag type dust collector 120 is respectively connected with the dust collecting hopper 122 above the raw grain quantitative screw 101, the upper end of the bucket elevator 102 and the dust collecting connecting pipeline 106 through pipelines. The bucket elevator 102 is used for utilizing space, raw grains are lifted, and then screening and dampening are finished under the action of gravity from top to bottom, and finally the raw grains enter the grain moistening bin 110. In the dust-removing connecting pipe 106, not only the raw grain can fall into the strong dampening machine 107 from the vibrating cleaning sieve 104 through the dust-removing connecting pipe 104, but also the airflow can flow into the dust-removing connecting pipe 106 through the dust-removing pipe 112 under the action of the first bag type dust collector 120, and the raw grain passing through the dust-removing connecting pipe 106 is subjected to secondary dust removal and then flows into the first bag type dust collector 120. A filter screen is arranged at the joint between the dust removal connecting pipeline 106 and the dust removal pipe 112, the raw grains smoothly pass through the dust removal connecting pipeline 106 through the filter screen, and dust is taken away by air flow passing through the dust removal connecting pipeline 106.

In a preferable scheme, two sets of grain moistening units are arranged, the outlets of the lower parts of the two strong dampening machines 107 are provided with dampening switching screws 109, and the dampening switching screws 109 are respectively connected with a plurality of grain moistening bins 110. The two sets can be produced independently or simultaneously, and the production efficiency is improved. The dampening switching screw 109 can selectively feed the two moistening bins 110, and when one moistening bin 110 is full, the feed can be exchanged through positive and negative rotation.

Referring to fig. 2, in a preferred embodiment, there are two sets of the koji making units, the lower end of the vibration feeder 111 is connected to the moistening grain cutting screw 113, the two mills 130 are connected to the lower portion of the moistening grain cutting screw 113, the discharge ports of the two mills 130 are connected to the discharge switching screw 140, the bottom of the discharge switching screw 140 is provided with two discharge connecting screws 131, the lower portion of the discharge port at the end of the two discharge connecting screws 131 is connected to the converging screw 160, and the wheat flour quantitative screws 132 are respectively connected to the lower portions of the discharge ports at the middle portions of the two discharge connecting screws 131. And the starter propagation device is matched with the grain moistening unit, so that the starter propagation production efficiency is improved. The grain moistening and cutting screw 113 is used for blending in the two grain moistening bins 110, and when grain is not moistened in one bin, the grain moistening and cutting screw 113 is used for switching production. The discharge switching screw 140 mixes the wheat flour produced by the two flour mills 130, so that two sets of koji making units can be produced simultaneously. The converging screw 160 is used to collect the wheat flour produced by the two mills 130 and is in communication with the red grain unit. The converging screw 160 is a screw having a forward and a reverse direction at both ends of a rotating shaft, and can be simultaneously transferred from both ends to the middle when the rotating shaft rotates.

In a preferred embodiment, the outlet of the intensive mixer 134 is connected to a conveyor screw 136, the outlet of the conveyor screw 136 is connected to a crimping conveyor 137, the outlet of the crimping conveyor 137 is connected to a crimping machine 138, and the outlet of the crimping machine 138 is connected to a conveyor belt 139. The production line is extended according to the site, and is convenient to be connected with the packaging conveyer belt 139.

In a preferable scheme, the red grain unit further comprises a corner conveying screw 161 connected to the outlet of the pulverizer 130, at least one belt conveyor 162 is arranged at the lower end outlet of the corner conveying screw 161, a red grain bucket elevator 163 is arranged at the outlet of the belt conveyor 162, and the upper end outlet of the red grain bucket elevator 163 is connected with a red grain baling bin 165 through a pipeline. Suitable single set of moist grain unit and system bent unit, through set up the passageway that can commutate at milling machine 130 export, the three-way valve for example, through corner conveying screw 161, be convenient for be connected with band conveyer 162 and correspond, red grain bucket elevator 163 is convenient for to go into red grain packing storehouse 165 after promoting the red grain that is located ground.

Referring to fig. 3, in a preferred embodiment, when the moistening unit and the koji making unit have two or more sets, the red grain unit further includes a corner conveying screw 161 connected to the middle outlet of the converging screw 160, the lower outlet of the corner conveying screw 161 is provided with at least one belt conveyor 162, the outlet of the belt conveyor 162 is provided with a red grain bucket elevator 163, and the upper outlet of the red grain bucket elevator 163 is connected to the red grain baling bin 165 through a pipeline. After being converged by the converging screw 160, the milled red grains are conveyed to the red grain baling bin 165.

Furthermore, the red grain baling cabin 165 is provided with a plurality of red grain baling cabins, the upper parts of the plurality of red grain baling cabins 165 are connected with the red grain distributing and conveying screw 164, and the upper end outlet of the red grain bucket elevator 163 is connected with the red-wiry distributing and conveying screw 164 through a pipeline. The storage capacity is large, and the red grain distributing and conveying screw 164 is convenient to deliver into a plurality of red grain packing bins 165.

Further, a quantitative feeder 166 is arranged at a discharge hole at the bottom of the red grain baling chamber 165. Is convenient for packaging the red grain powder according to the amount. The quantitative feeder can adopt a full-automatic powder quantitative feeding device disclosed in Chinese patent document CN103662860A, and has an automatic powder quantitative feeding function.

Further, the red grain unit further comprises a second bag type dust collector 170, and an air inlet of the second bag type dust collector 170 is connected with the quantitative feeder 166 through a pipeline. The suction doser 166 doses the dust generated.

The utility model discloses a working process and principle:

when the material is wheat, the vibration cleaning sieve 104 removes impurities from raw grains, the impurities after being removed are discharged and collected through the impurity discharge pipe 105 at the bottom, the screened raw grains enter the strong dampener 107, the strong dampener 107 comprises a constant pressure water tank 108, the constant pressure water tank 108 injects water into the strong dampener 107, and the raw grains are stirred by the strong dampener 107 and then enter the grain moistening bin 110.

During koji making, the koji making material enters the flour mill 130 through the vibration feeder 111 to be milled, water in the mother koji quantitative screw 151, the wheat flour quantitative screw 132 and the pressurized water tank 135 of the strong mixer 134 is discharged according to the corresponding frequency according to the preset proportioning coefficient, the water is mixed in the koji mixing screw 133, the mixed material enters the strong mixer 134 to be mixed, the mixed material enters the koji pressing machine 138 to be made into koji blocks after being mixed, and the koji making is completed.

When the material is red grain, the red grain milled by the mill 130 enters the red grain baling bin 165 for storage.

Claims (10)

1. The utility model provides a moist grain of white spirit, starter propagation, red grain production system which characterized in that: it comprises a grain moistening unit, a starter propagation unit and a red grain unit; the grain moistening unit comprises a raw grain quantitative screw (101) for putting raw grains into the grain moistening unit, the tail end of the raw grain quantitative screw (101) is connected with an inlet of a vibration cleaning sieve (104), an outlet of the vibration cleaning sieve (104) is connected with an inlet of a strong water-sticking machine (107), an outlet of the strong water-sticking machine (107) is connected with a grain moistening bin (110), and a vibration blanking device (111) is arranged at the lower part of the grain moistening bin (110); the koji making unit comprises a pulverizer (130) connected to the outlet of the vibrating feeder (111), the outlet of the pulverizer (130) is connected with a wheat flour quantitative screw (132), the outlet of the wheat flour quantitative screw (132) is connected with a koji mother mixing screw (133), a mother koji buffer bin (150) is arranged above the koji mother mixing screw (133), the lower outlet of the mother koji buffer bin (150) is connected with a mother koji quantitative screw (151), the outlet of the mother koji quantitative screw (151) is connected with the koji mother mixing screw (133), the outlet of the koji mother mixing screw (133) is connected with the inlet of a strong stirrer (134), and the outlet of the strong stirrer (134) is connected with a koji pressing machine (138); the red grain unit comprises a red grain packing bin (165) connected to the outlet of the mill (130).

2. The white spirit grain moistening, starter propagation and red grain production system according to claim 1, characterized in that: the grain moistening unit also comprises a bucket elevator (102) which is provided with the tail end of the raw grain quantitative screw (101), a discharge hole at the upper end of the bucket elevator (102) is connected with a connecting screw (103), and a discharge hole of the connecting screw (103) is connected with an inlet of a vibration cleaning sieve (104); the outlet of the vibration cleaning sieve (104) is provided with a dust removal connecting pipeline (106) which is connected with a strong dampening machine (107), and the upper part of the grain moistening bin (110) is provided with a dust removal pipe (112) which is connected with the dust removal connecting pipeline (106) in a filtering way; the device also comprises a first bag type dust collector (120), wherein an air inlet of the first bag type dust collector (120) is respectively connected with a dust collecting hopper (122) above the raw grain quantitative spiral (101), the upper end of the bucket type lifter (102) and a dust removing connecting pipeline (106) through pipelines.

3. The white spirit grain moistening, starter propagation and red grain production system according to claim 2, characterized in that: two sets of grain moistening units are arranged, the lower outlets of the two strong water-binding machines (107) are provided with water-binding switching screws (109), and the water-binding switching screws (109) are respectively connected with a plurality of grain moistening bins (110).

4. The white spirit grain moistening, starter propagation and red grain production system according to claim 3, characterized in that: the bent unit of system is equipped with two sets, the lower extreme and moist grain blank spiral (113) of glassware (111) are connected under the vibration, the lower part at moist grain blank spiral (113) is connected in two milling machines (130), the discharge gate and the ejection of compact of two milling machines (130) are switched spiral (140) and are connected, ejection of compact switches spiral (140) bottom and is equipped with two ejection of compact connection spiral (131), the below of two ejection of compact connection spiral (131) terminal discharge gates is connected with confluence spiral (160), wheat flour ration spiral (132) are connected respectively in the discharge gate below at two ejection of compact connection spiral (131) middle parts.

5. The white spirit grain moistening, starter propagation and red grain production system according to claim 1 or 4, characterized in that: the outlet of the powerful stirrer (134) is connected with the conveying screw (136), the outlet of the conveying screw (136) is connected with the buckling conveyor (137), the outlet of the buckling conveyor (137) is connected with the buckling machine (138), and the outlet of the buckling machine (138) is connected with the conveying belt (139).

6. The white spirit grain moistening, starter propagation and red grain production system according to claim 1, characterized in that: the red grain unit also comprises a corner conveying screw (161) connected to the outlet of the flour mill (130), at least one belt conveyor (162) is arranged at the outlet of the lower end of the corner conveying screw (161), a red grain bucket elevator (163) is arranged at the outlet of the belt conveyor (162), and the outlet of the upper end of the red grain bucket elevator (163) is connected with a red grain packing bin (165) through a pipeline.

7. The white spirit grain moistening, starter propagation and red grain production system according to claim 4, characterized in that: the red grain unit further comprises a corner conveying screw (161) connected to the middle outlet of the converging screw (160), at least one belt conveyor (162) is arranged at the lower end outlet of the corner conveying screw (161), a red grain bucket elevator (163) is arranged at the outlet of the belt conveyor (162), and the upper end outlet of the red grain bucket elevator (163) is connected with a red grain packing bin (165) through a pipeline.

8. The white spirit grain moistening, starter propagation and red grain production system according to claim 6 or 7, characterized in that: the red grain packing bins (165) are multiple, the upper parts of the red grain packing bins (165) are connected with the red grain distribution conveying screw (164), and the upper end outlet of the red grain bucket elevator (163) is connected with the red grain distribution conveying screw (164) through a pipeline.

9. The white spirit grain moistening, starter propagation and red grain production system according to claim 1, 6 or 7, characterized in that: a quantitative feeder (166) is arranged at a discharge hole at the bottom of the red grain packaging bin (165).

10. The system for producing liquor, starter propagation and red grain according to claim 9, characterized in that: the red grain unit also comprises a second bag type dust collector (170), and an air inlet of the second bag type dust collector (170) is connected with the quantitative feeder (166) through a pipeline.

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