CN216106694U - Columnar granular bacterial manure production line - Google Patents

Abstract

The utility model relates to the technical field of bacterial manure production equipment, and provides a columnar granular bacterial manure production line which comprises material feeding equipment, wherein the material feeding equipment is connected with a first lifting machine, the first lifting machine is connected with a first conveyor, the first conveyor is respectively connected with a plurality of proportioning bins, the discharge ends of the proportioning bins are respectively connected with a proportioning scale, the proportioning scale is connected with a second lifting machine, the second lifting machine is connected with a crushing machine, the crushing machine is connected with a mixing machine, the mixing machine is also connected with strain feeding equipment, the discharge end of the mixing machine is connected with a fermentation bin, the fermentation bin is connected with a third lifting machine, the third lifting machine is connected with a plurality of bins to be manufactured, the discharge ends of the bins are respectively connected with a granulating machine, the discharge end of the granulating machine is respectively connected with a cooler, the cooler is connected with a fourth lifting machine, the fourth lifting machine is connected with a plurality of finished product bins, and the discharge ends of the finished product bins are respectively connected with a packing scale. The utility model solves the problems of low automation degree, poor production efficiency and poor production quality of the conventional bacterial manure production.

Description

Columnar granular bacterial manure production line

Technical Field

The utility model relates to the technical field of bacterial manure production equipment, in particular to a columnar granular bacterial manure production line.

Background

The bacterial manure is also called biological manure, bacterial manure or inoculants, and the bacterial manure is like 'bacteria plus fertilizer', because the bacterial manure contains nutrient components necessary for the growth of crops such as 'organic matters, nitrogen, phosphorus, potassium' and the like, and meanwhile, the product also contains a large amount of beneficial microorganism bacteria which are propagated in the soil, and the functions of improving the soil, preventing and treating diseases and the like are achieved.

With the development of fertilizers in China, various bacterial fertilizers appear in the market, but the current bacterial fertilizer production has low automation degree, so that the production efficiency and the production quality are poor.

Therefore, the development of a columnar granular bacterial manure production line has urgent research value and also has good economic benefit and industrial application potential.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model provides a columnar granular bacterial manure production line, which aims to solve the problems of low automation degree, poor production efficiency and poor production quality of the conventional bacterial manure production.

In order to solve the technical problems, the technical scheme of the utility model is as follows:

a columnar granular bacterial manure production line comprises material feeding equipment, wherein the material feeding equipment is connected with a first lifting machine, the discharge end of the first lifting machine is connected with a first conveyor, the discharge end of the first conveyor is respectively connected with a plurality of proportioning bins, the discharge ends of the proportioning bins are respectively connected with a proportioning scale, the discharge end of the proportioning scale is connected with a second lifting machine, the discharge end of the second lifting machine is connected with a grinder, the discharge end of the grinder is connected with a mixer, the mixer is also connected with strain feeding equipment, the discharge end of the mixer is connected with a fermentation bin, the discharge end of the fermentation bin is connected with a third lifting machine, the discharge end of the third lifting machine is connected with a plurality of bins to be manufactured, the discharge ends of the bins to be manufactured are respectively connected with a granulator, the discharge ends of the granulator are all connected with a cooler, and the discharge end of the cooler is connected with a fourth lifting machine, the discharge end of the fourth hoister is connected with a plurality of finished product bins, and the discharge ends of the finished product bins are connected with packing scales.

As an improved scheme, the material throwing equipment comprises bulk material throwing equipment and fine material throwing equipment, and the bulk material throwing equipment and the fine material throwing equipment are both connected with the first hoisting machine.

As an improved scheme, the bulk material feeding device comprises a belt feeder, wherein the discharge end of the belt feeder is connected with the feed end of a second conveyor, the discharge end of the second conveyor is connected with a separation sieve for separating impurities in raw materials, and the discharge end of the separation sieve is connected with the feed end of the first hoister;

the fine material feeding equipment comprises a feeding hopper, the feeding hopper is also connected with the feeding end of the first lifting machine, and a first pulse dust collector is arranged at a position close to the feeding hopper.

As a modified scheme, the first conveyor is a scraper conveyor, and the second conveyor is a belt conveyor.

As an improved scheme, material conveying pipelines are respectively connected between the first conveyor and the plurality of proportioning bins, and first pneumatic flashboards are respectively installed on the material conveying pipelines;

the air hammer is installed respectively to the bottom of proportioning bins, and is a plurality of proportioning bins with be equipped with the batching respectively between the batching scale and carry the auger.

As an improved scheme, the strain throwing device comprises a powder strain throwing hopper and a liquid strain throwing device, wherein the powder strain throwing hopper and the liquid strain throwing device are both connected with the mixing machine;

and a second pulse dust collector is arranged close to the powder strain feeding hopper.

As an improved scheme, a sand-dragon dust removal device is further arranged close to the cooler.

As an improved scheme, a grading sieve is arranged between the fourth hoister and the finished product bin, and the grading sieve is respectively connected with the finished product bin through a pneumatic three-way valve.

As an improved scheme, second pneumatic flashboards are respectively arranged between the finished product bin and the packing scale, and a third pulse dust collector is arranged at a position close to the packing scale.

After the technical scheme is adopted, the utility model has the beneficial effects that:

by arranging the material feeding equipment which is connected with the first lifting machine, the first lifting machine is connected with a plurality of proportioning bins through the first conveyor, the proportioning bins are connected with the proportioning scale, the proportioning scale is connected with the grinder through the second lifting machine, the grinder is connected with the mixing machine, meanwhile, the mixing machine is also connected with a strain feeding device, strains are fed into the mixing machine through the strain feeding device, the mixing machine is connected with a fermentation bin, the fermentation bin is connected with a to-be-manufactured bin through a third lifting machine, the to-be-manufactured bin is connected with a granulator, materials added with the strains are granulated through the granulator, thereby obtaining columnar granular bacterial manure, the granulator is connected with a cooler, the cooler is connected with a finished product bin through a fourth hoister, the finished product bin is connected with a packing scale, therefore, the automatic production and processing of the bacterial manure are realized, the automation degree is high, excessive intervention of operators is not needed, and the production efficiency and the production quality of the bacterial manure are greatly improved;

by arranging the bulk material feeding device and the fine material feeding device, fine materials can be separated from the bulk materials and respectively fed, the bulk material feeding device comprises a belt feeder, a second conveyor and a separating screen, and sundries in the bulk materials can be removed through the separating screen, so that the quality of the fertilizer is prevented from being influenced;

the first pulse dust collector is arranged at the feeding hopper, the second pulse dust collector is arranged at the powder strain feeding hopper, the sand-dragon dust removing device is arranged at the cooler, and the third pulse dust collector is arranged at the packing scale, so that dust escaping in the production process can be eliminated, and the dust is prevented from affecting the working environment;

through set up the classifying screen between fourth lifting machine and finished product storehouse, the classifying screen can be sieved the finished product of pelletization, and the granule and the powder that will not conform to the specification are sieved and come out to put in the use again, have improved the quality of fertilizer, simultaneously, have avoided the waste of raw materials again.

In conclusion, the utility model solves the problems of low automation degree, poor production efficiency and poor production quality of the prior bacterial manure production.

Drawings

FIG. 1 is a schematic diagram of the production configuration of the present invention;

wherein each numerical designation refers to a particular meaning, element, and/or component, respectively, as follows in the figures.

In the figure: 1. the device comprises a belt feeder, 2, a second conveyor, 3, a separating screen, 4, a feeding hopper, 5, a first pulse dust collector, 6, a first lifting machine, 7, a first conveyor, 8, a proportioning bin, 9, a proportioning scale, 10, a second lifting machine, 11, a grinder, 12, a mixer, 13, a fermentation bin, 14, a third lifting machine, 15, a to-be-prepared bin, 16, a granulator, 17, a cooler, 18, a fourth lifting machine, 19, a finished product bin, 20, a packaging scale, 21, a first pneumatic gate plate, 22, an air hammer, 23, a proportioning conveying auger, 24, a powder strain feeding hopper, 25, a liquid strain feeder, 26, a second pulse dust collector, 27, a shakelong dust collector, 28, a grading screen, 29, a pneumatic three-way valve, 30, a second pneumatic gate plate, 31 and a third pulse dust collector.

Detailed Description

The utility model is further illustrated by the following specific examples. The use and purpose of these exemplary embodiments are to illustrate the present invention, not to limit the actual scope of the present invention in any way, and not to limit the scope of the present invention in any way.

As shown in figure 1, a columnar granular bacterial manure production line comprises a material feeding device, wherein the material feeding device is connected with a first lifting machine 6, the discharge end of the first lifting machine 6 is connected with a first conveyor 7, the fed material is conveyed to the first conveyor 7 through the first lifting machine 6, the discharge end of the first conveyor 7 is respectively connected with a plurality of proportioning bins 8, the discharge ends of the proportioning bins 8 are respectively connected with a proportioning scale 9, the discharge end of the proportioning scale 9 is connected with a second lifting machine 10, the discharge end of the second lifting machine 10 is connected with a crushing machine 11, the material is crushed through the crushing machine 11, the discharge end of the crushing machine 11 is connected with a mixing machine 12, the mixing machine 12 is also connected with a strain feeding device, strains are fed into the mixing machine 12 through the strain feeding device, the discharge end of the mixing machine 12 is connected with a fermentation bin 13, the discharge end of the fermentation bin 13 is connected with a third lifting machine 14, the discharge end of the third lifting machine 14 is connected with a plurality of to-be-made bins 15, a plurality of discharge ends of treating system storehouse 15 are connected granulator 16 respectively, cooler 17 is all connected to granulator 16's discharge end, fourth lifting machine 18 is connected to cooler 17's discharge end, a plurality of finished product storehouses 19 are connected to fourth lifting machine 18's discharge end, packing title 20 is all connected to a plurality of finished product storehouses 19's discharge end, realize the automated production processing of bacterial manure through setting up above-mentioned equipment, degree of automation is high, need not operating personnel too much to intervene, bacterial manure's production efficiency and production quality have been improved greatly.

In this embodiment, as shown in fig. 1, the material feeding device includes that bulk material puts in equipment and meticulous material and puts in equipment, and bulk material puts in equipment and meticulous material and puts in equipment and all connects first lifting machine 6, wherein, bulk material puts in equipment mainly used and puts in materials such as rice husk and broken plant stems and leaves, and meticulous material puts in equipment mainly used puts in materials such as bean pulp, puts in equipment and meticulous material through setting up bulk material, can separate meticulous material and bulk material to put in respectively.

In this embodiment, as shown in fig. 1, the bulk material feeding device includes a belt feeder 1, a discharge end of the belt feeder 1 is connected to a feed end of a second conveyor 2, a discharge end of the second conveyor 2 is connected to a separation screen 3 for separating impurities in the raw material, a discharge end of the separation screen 3 is connected to a feed end of a first elevator 6, and the impurities in the bulk material can be removed through the separation screen 3, so as to avoid affecting the fertilizer quality;

the fine material feeding equipment comprises a feeding hopper 4, the feeding hopper 4 is also connected with the feeding end of a first lifting machine 6, and a first pulse dust collector 5 is arranged at the position close to the feeding hopper 4.

In this embodiment, as shown in fig. 1, the first conveyor 7 is a scraper conveyor, and the second conveyor 2 is a belt conveyor.

In this embodiment, referring to fig. 1, material conveying pipelines are respectively connected between the first conveyor 7 and the plurality of batching bins 8, the material conveying pipelines are respectively provided with a first pneumatic gate plate 21, and the opening and closing of the material conveying pipelines are controlled by the first pneumatic gate plates 21;

air hammer 22 is installed respectively to the bottom of proportioning bins 8, can strike proportioning bins 8 through setting up air hammer 22, avoids the material to attach to on proportioning bins 8's the inside wall, causes to unload not in the same direction as, is equipped with the batching respectively between a plurality of proportioning bins 8 and the batching balance 9 and carries auger 23, carries auger 23 to be convenient for carry the material through setting up the batching.

In this embodiment, referring to fig. 1, the strain feeding device includes a powder strain feeding hopper 24 and a liquid strain feeder 25, and both the powder strain feeding hopper 24 and the liquid strain feeder 25 are connected to the mixer 12;

a second pulse dust collector 26 is arranged near the powder strain feeding hopper 24.

In this embodiment, as shown in fig. 1, a saxolone dust removing device 27 is further provided near the cooler 17.

In this embodiment, as shown in fig. 1, a classifying screen 28 is disposed between the fourth hoisting machine 18 and the finished product bin 19, the classifying screen 28 is connected to the finished product bin 19 through a pneumatic three-way valve 29, and the classifying screen 28 is disposed between the fourth hoisting machine 18 and the finished product bin 19, so that the classifying screen 28 can screen granulated finished products, screen out particles and powder that do not conform to the specification, and put in the finished products for use again, thereby improving the quality of fertilizers and avoiding waste of raw materials.

In this embodiment, as shown in fig. 1, second pneumatic gate plates 30 are respectively disposed between the finished product bin 19 and the packaging scale 20, the second pneumatic gate plates 30 control opening and closing between the finished product bin 19 and the packaging scale 20, a third pulse dust collector 31 is disposed near the packaging scale 20, the first pulse dust collector 5 is disposed at the feeding hopper 4, the second pulse dust collector 26 is disposed at the powder strain feeding hopper 24, the saxolone dust collector 27 is disposed at the cooler 17, and the third pulse dust collector 31 is disposed at the packaging scale 20, so that dust escaping during production can be eliminated, and the dust is prevented from affecting the working environment.

For ease of understanding, the working process of the present embodiment is given below:

as shown in fig. 1, the material feeding stage: since the bulk material throwing equipment and the fine material throwing equipment share the first hoister 6, when the bulk material throwing equipment runs, the fine material throwing equipment stops running;

placing a bulk material on a belt feeder 1, conveying the material to a separating screen 3 by the belt feeder 1 through a belt conveyor, removing impurities in the material by the separating screen 3, conveying the material to a first conveyor 7 through a first lifting machine 6, conveying the material to one batching bin 8 under the control of a first pneumatic gate 21, and conveying the other bulk material to the other batching bin 8;

when fine materials are conveyed, the operation of the bulk material feeding equipment is stopped, a worker feeds one fine material into the feeding hopper 4, the feeding hopper 4 is communicated with the first lifting machine 6, and the fine materials are conveyed into other batching bins 8 through the first lifting machine 6;

materials in each proportioning bin 8 are respectively conveyed to a proportioning scale 9 through a proportioning conveying auger 23, the proportioning scale 9 conveys the materials in proportion to a pulverizer 11 through a second hoister 10 for pulverization, the materials pulverized by the pulverizer 11 are conveyed to a mixer 12 for mixing, in the mixing process, a powder strain feeding hopper 24 and a liquid strain feeding device 25 respectively feed powder strains and liquid strains into the mixer 12, the materials added with the strains are conveyed to a fermentation bin 13 after being mixed, the materials in the fermentation bin 13 are respectively conveyed to a bin 15 to be made through a third hoister 14, the materials in the bin 15 to be made are respectively conveyed to a granulator 16, the materials are made into columnar granular bacterial fertilizers through the granulator 16, the bacterial fertilizers granulated through the granulator 16 are conveyed to a cooler 17 for cooling, and the granular bacterial fertilizers after cooling are conveyed to a grading sieve hoister 28 through a fourth hoister 18, the granular bacterial manure after being classified by the classifying screen 28 is respectively conveyed to the finished product bin 19 through the pneumatic three-way valve 29, the finished product bin 19 is connected with the packing scale 20, and the granular bacterial manure is packed by the packing scale 20, so that the whole production flow of the bacterial manure is completed.

In conclusion, the utility model solves the problems of low automation degree, poor production efficiency and poor production quality of the prior bacterial manure production.

It should be understood that these examples are for illustrative purposes only and are not intended to limit the scope of the present invention. Further, it should also be understood that various alterations, modifications and/or variations can be made to the present invention by those skilled in the art after reading the technical content of the present invention, and all such equivalents fall within the protective scope defined by the claims of the present application.

Claims (9)

1. The utility model provides a column granule bacterial manure production line which characterized in that: the device comprises a material feeding device, wherein the material feeding device is connected with a first lifting machine, the discharge end of the first lifting machine is connected with a first conveyor, the discharge end of the first conveyor is respectively connected with a plurality of proportioning bins, the discharge ends of the proportioning bins are all connected with a proportioning scale, the discharge end of the proportioning scale is connected with a second lifting machine, the discharge end of the second lifting machine is connected with a grinder, the discharge end of the grinder is connected with a mixer, the mixer is also connected with a strain feeding device, the discharge end of the mixer is connected with a fermentation bin, the discharge end of the fermentation bin is connected with a third lifting machine, the discharge end of the third lifting machine is connected with a plurality of bins to be manufactured, the discharge ends of the bins are respectively connected with a granulator, the discharge end of the granulator is connected with a cooler, the discharge end of the cooler is connected with a fourth lifting machine, and the discharge end of the fourth lifting machine is connected with a plurality of finished product bins, and the discharge ends of the finished product bins are connected with a packing scale.

2. The cylindrical granular bacterial manure production line as claimed in claim 1, wherein: the material throwing equipment comprises bulk material throwing equipment and fine material throwing equipment, and the bulk material throwing equipment and the fine material throwing equipment are connected with the first hoister.

3. The cylindrical granular bacterial manure production line as claimed in claim 2, wherein: the bulk material feeding device comprises a belt feeder, the discharge end of the belt feeder is connected with the feed end of a second conveyor, the discharge end of the second conveyor is connected with a separation sieve for separating impurities in raw materials, and the discharge end of the separation sieve is connected with the feed end of the first hoister;

the fine material feeding equipment comprises a feeding hopper, the feeding hopper is also connected with the feeding end of the first lifting machine, and a first pulse dust collector is arranged at a position close to the feeding hopper.

4. The cylindrical granular bacterial manure production line as claimed in claim 3, wherein: the first conveyor is a scraper conveyor, and the second conveyor is a belt conveyor.

5. The cylindrical granular bacterial manure production line as claimed in claim 1, wherein: a material conveying pipeline is respectively connected between the first conveyor and the plurality of proportioning bins, and a first pneumatic flashboard is respectively arranged on the material conveying pipeline;

the air hammer is installed respectively to the bottom of proportioning bins, and is a plurality of proportioning bins with be equipped with the batching respectively between the batching scale and carry the auger.

6. The cylindrical granular bacterial manure production line as claimed in claim 1, wherein: the strain feeding device comprises a powder strain feeding hopper and a liquid strain feeder, and the powder strain feeding hopper and the liquid strain feeder are both connected with the mixer;

and a second pulse dust collector is arranged close to the powder strain feeding hopper.

7. The cylindrical granular bacterial manure production line as claimed in claim 1, wherein: and a sand-dragon dust removal device is also arranged close to the cooler.

8. The cylindrical granular bacterial manure production line as claimed in claim 1, wherein: and a grading sieve is arranged between the fourth hoister and the finished product bin and is respectively connected with the finished product bin through a pneumatic three-way valve.

9. The cylindrical granular bacterial manure production line as claimed in claim 1, wherein: and second pneumatic flashboards are respectively arranged between the finished product bin and the packing scale, and a third pulse dust collector is arranged at a position close to the packing scale.

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