CN211373081U - Dryer for preventing and treating wheat scab in production of bio-organic fertilizer - Google Patents

Abstract

The utility model provides a drier for producing a biological organic fertilizer for preventing wheat scab, which comprises a first charging barrel and a second charging barrel; a first feeding channel, a second feeding channel and a third feeding channel are arranged in the first material cylinder, the first feeding channel and the second feeding channel are horizontally arranged on two sides of the third feeding channel and communicated with the third feeding channel, the third feeding channel is vertically arranged, and the third feeding channel is communicated with the second material cylinder. The utility model discloses from first charge-in pipeline, the second charge-in pipeline is respectively to first pay-off passageway, add the fertilizer of treating the stoving in the second pay-off passageway, fertilizer is at first pay-off passageway, by first stoving subassembly in the second pay-off passageway respectively, the second stoving subassembly is tentatively dried, then by first stirring subassembly, the second stirs the subassembly and carries and get into in the second feed cylinder to third pay-off passageway, fertilizer has third stoving subassembly to carry out secondary drying in the second feed cylinder and stirs by third stoving subassembly simultaneously, the fertilizer is dried the back and is exported by ejection of compact pipeline.

Description

Dryer for preventing and treating wheat scab in production of bio-organic fertilizer

Technical Field

The utility model relates to a fertilizer production facility technical field especially relates to a desiccator is used in production of prevention and cure wheat scab bio-organic fertilizer.

Background

In the continuous development of modern agricultural production technology, microbial fertilizer becomes an important organic fertilizer, and compared with common chemical fertilizer, the microbial organic fertilizer has strong pertinence, small pollution and no danger to human health, so that the application of the microbial organic fertilizer is more and more extensive. However, most of microbial organic fertilizers are mostly obtained through fermentation, and the fertilizers are wet and not beneficial to long-distance transportation, so that the fertilizers need to be dried.

SUMMERY OF THE UTILITY MODEL

Based on the technical problem who exists among the background art, the utility model provides a desiccator is used in production of prevention and cure wheat scab bio-organic fertilizer.

The utility model provides a dryer for producing biological organic fertilizer for preventing wheat scab, which comprises a first material cylinder and a second material cylinder; the first feeding channel, the second feeding channel and the third feeding channel are arranged in the first material cylinder, the first feeding channel and the second feeding channel are horizontally arranged on two sides of the third feeding channel and communicated with the third feeding channel, the third feeding channel is vertically arranged, a first drying assembly is arranged in the first feeding channel, a second drying assembly is arranged in the second feeding channel, the third feeding channel is communicated with the second material cylinder, a first feeding pipeline, a second feeding pipeline and a first feeding pipeline are arranged on the first material cylinder, the second feeding pipeline is respectively communicated with the first feeding channel and one end of the second feeding channel, a third drying assembly is arranged in the second material cylinder, and a discharging pipeline is arranged at the bottom end of the third drying assembly.

Preferably, the first drying assembly comprises a first air guide pipe, the first air guide pipe is fixed at the top end of the first feeding channel and is connected with an external hot air generating device, and a plurality of first air blowing pipes are distributed at the bottom of the first air guide pipe.

Preferably, the second drying assembly comprises a second air guide pipe, the second air guide pipe is fixed to the top end of the second feeding channel and connected with an external hot air generating device, and a plurality of second blowing pipes are distributed at the bottom of the second air guide pipe.

Preferably, the third stoving subassembly includes the pivot, first motor and a plurality of puddler, the pivot level is arranged in the second feed cylinder, the inside hot-blast chamber of being connected with the hot-blast generating device in the external world that is equipped with of pivot, first motor is connected and drives the pivot rotation with the pivot, a plurality of puddlers are arranged and a plurality of puddlers all are connected with the pivot in pivot periphery circumference, be equipped with the wind-guiding chamber with hot-blast chamber intercommunication in the puddler, along its length direction interval arrangement on the puddler, the second stirs the board, be equipped with the first chamber with wind-guiding chamber intercommunication in the first stirring board, it has a plurality of first air outlets with first chamber intercommunication to distribute on the first stirring board, be equipped with the second chamber that communicates with the wind-guiding chamber in the second stirring, it has a plurality of second air outlets that communicate with the second chamber to distribute on the second stirring board.

Preferably, first stirring board, second stirring board all are the arc and its arc opening is towards the pivot.

Preferably, the length of the first agitating plate is smaller than the length of the second agitating plate.

Preferably, a first stirring assembly is arranged in the first feeding channel and comprises a first stirring shaft and a second motor, the first stirring shaft is horizontally arranged in the first feeding channel, a first helical blade is arranged outside the first stirring shaft, and the second motor is connected with the first stirring shaft and drives the first stirring shaft to rotate.

Preferably, a second stirring assembly is arranged in the second feeding channel and comprises a second stirring shaft and a third motor, the second stirring shaft is horizontally arranged in the second feeding channel, a second helical blade is arranged outside the second stirring shaft, and the third motor is connected with the second stirring shaft and drives the second stirring shaft to rotate.

The utility model provides a prevent and treat wheat scab bio-organic fertilizer production and use desiccator, in operation, from first charge-in pipeline, the second charge-in pipeline is respectively to first pay-off passageway, add the fertilizer of treating the stoving in the second pay-off passageway, fertilizer is at first pay-off passageway, by first stoving subassembly respectively in the second pay-off passageway, the preliminary stoving is carried out to second stoving subassembly, then by first stirring subassembly, second stirring subassembly is carried to in the third pay-off passageway and is got into the second feed cylinder, fertilizer has third stoving subassembly to carry out the secondary and dry in the second feed cylinder and stirs by third stoving subassembly simultaneously, export by ejection of compact pipeline after the fertilizer is dried.

Drawings

FIG. 1 is the utility model provides a prevent and treat wheat scab bio-organic fertilizer production and use the schematic structure of desiccator.

Detailed Description

Referring to fig. 1, the utility model provides a dryer for producing biological organic fertilizer for preventing wheat scab, which comprises a first material cylinder 1 and a second material cylinder 2; wherein:

a first feeding channel 3, a second feeding channel 4 and a third feeding channel 5 are arranged in the first material barrel 1, the first feeding channel 3 and the second feeding channel 4 are horizontally arranged on two sides of the third feeding channel 5 and communicated with the third feeding channel 5, and the third feeding channel 5 is vertically arranged. A first drying component and a first stirring component are arranged in the first feeding channel 3. A second drying component and a second stirring component are arranged in the second feeding channel 4. The third feed channel 5 communicates with the second barrel 2. A first feeding pipeline 6 and a second feeding pipeline 7 are arranged on the first charging barrel 1, and the first feeding pipeline 6 and the second feeding pipeline 7 are respectively communicated with one ends of the first feeding channel 3 and the second feeding channel 4.

A third drying component is arranged in the second material cylinder 2, and a discharging pipeline 13 is arranged at the bottom end of the third drying component.

In this embodiment, the first drying assembly includes a first air duct 8, the first air duct 8 is fixed at the top end of the first feeding channel 3, the first air duct 8 is connected with an external hot air generating device, and a plurality of first blowing pipes 9 are distributed at the bottom of the first air duct 8. The first air guide pipe 8 guides in hot air and blows out the hot air from the plurality of first air blowing pipes 9 to primarily dry the fertilizer in the first feeding channel 3.

In this embodiment, the first stirring assembly includes a first stirring shaft 21 and a second motor 22, the first stirring shaft 21 is horizontally disposed in the first feeding channel 3, a first helical blade 23 is disposed outside the first stirring shaft 21, and the second motor 22 is connected to the first stirring shaft 21 and drives the first stirring shaft 21 to rotate

In this embodiment, the second drying assembly includes a second air guiding pipe 10, the second air guiding pipe 10 is fixed at the top end of the second feeding channel 4, the second air guiding pipe 10 is connected with an external hot air generating device, and a plurality of second blowing pipes 11 are distributed at the bottom of the second air guiding pipe 10. The second air guide pipe 10 guides hot air and blows the hot air out of the plurality of second air blowing pipes 11 to primarily dry the fertilizer in the second feeding channel 4.

In this embodiment, the second stirring assembly includes a second stirring shaft 24 and a third motor 25, the second stirring shaft 24 is horizontally disposed in the second feeding channel 4, a second helical blade 26 is disposed outside the second stirring shaft 24, and the third motor 25 is connected to the second stirring shaft 24 and drives the second stirring shaft 24 to rotate.

In this embodiment, the third drying assembly includes a rotating shaft 12, a first motor and a plurality of stirring rods 14, the rotating shaft 12 is horizontally disposed in the second material barrel 2, a hot air cavity 15 connected to an external hot air generating device is disposed inside the rotating shaft 12, the first motor is connected to the rotating shaft 12 and drives the rotating shaft 12 to rotate, the plurality of stirring rods 14 are circumferentially disposed on the outer periphery of the rotating shaft 12, the plurality of stirring rods 14 are both connected to the rotating shaft 12, an air guide cavity 16 communicated with the hot air cavity 15 is disposed in the stirring rods 14, first stirring plates 17 and second stirring plates 18 are disposed on the stirring rods 14 at intervals along the length direction thereof, the first stirring plates 17 and the second stirring plates 18 are both arc-shaped, the arc-shaped openings of the first stirring plates 17 and the second stirring plates 18 face the rotating shaft 12, the length of the first stirring plates 17 is less than that of the second stirring plates 18, first branch cavities 19 communicated with the air guide cavity 16 are disposed in the first stirring plates 17, a plurality of first air outlets communicated with the, a second branch cavity 20 communicated with the air guide cavity 16 is arranged in the second stirring plate, and a plurality of second air outlets communicated with the second branch cavity 20 are distributed on the second stirring plate 18. The first motor drives the rotating shaft 12 to rotate, the rotating shaft 12 drives the stirring rod 14, the first stirring plate 17 and the second stirring plate 18 to stir the fertilizer, meanwhile, hot air is guided into the hot air cavity 15, enters the first branch cavity 19 and the second branch cavity 20 after entering the air guide cavity 16, and is blown out from the first air outlet and the second air outlet to dry the fertilizer.

The utility model discloses the during operation, from first charge-in pipeline 6, second charge-in pipeline 7 is respectively to first pay-off passageway 3, add the fertilizer of treating the stoving in the second pay-off passageway 4, fertilizer is in first pay-off passageway 3, second pay-off passageway 4 is interior by first stoving subassembly respectively, the preliminary stoving is carried out to second stoving subassembly, then by first stirring subassembly, second stirring subassembly is carried to in third pay-off passageway 5 and is advanced into second feed cylinder 2, fertilizer has third stoving subassembly to carry out the secondary and dries simultaneously and stirs by third stoving subassembly in second feed cylinder 2, export by ejection of compact pipeline 13 after the fertilizer is dried.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (8)

1. A dryer for producing a biological organic fertilizer for preventing wheat scab is characterized by comprising a first charging barrel and a second charging barrel; the first feeding channel, the second feeding channel and the third feeding channel are arranged in the first material cylinder, the first feeding channel and the second feeding channel are horizontally arranged on two sides of the third feeding channel and communicated with the third feeding channel, the third feeding channel is vertically arranged, a first drying assembly is arranged in the first feeding channel, a second drying assembly is arranged in the second feeding channel, the third feeding channel is communicated with the second material cylinder, a first feeding pipeline, a second feeding pipeline and a first feeding pipeline are arranged on the first material cylinder, the second feeding pipeline is respectively communicated with the first feeding channel and one end of the second feeding channel, a third drying assembly is arranged in the second material cylinder, and a discharging pipeline is arranged at the bottom end of the third drying assembly.

2. The dryer for producing the biological organic fertilizer for preventing and treating wheat scab as claimed in claim 1, wherein the first drying assembly comprises a first air duct fixed at the top end of the first feeding channel, the first air duct is connected with an external hot air generating device, and a plurality of first air blowing pipes are distributed at the bottom of the first air duct.

3. The dryer for producing the biological organic fertilizer for preventing and treating wheat scab as claimed in claim 1, wherein the second drying assembly comprises a second air duct fixed at the top end of the second feeding channel, the second air duct is connected with an external hot air generating device, and a plurality of second blowing pipes are distributed at the bottom of the second air duct.

4. The dryer for producing the biological organic fertilizer for preventing and treating wheat scab as claimed in any one of claims 1-3, the third drying component comprises a rotating shaft, a first motor and a plurality of stirring rods, the rotating shaft is horizontally arranged in a second material cylinder, a hot air cavity connected with an external hot air generating device is arranged inside the rotating shaft, the first motor is connected with the rotating shaft and drives the rotating shaft to rotate, the stirring rods are circumferentially arranged at the periphery of the rotating shaft and are all connected with the rotating shaft, an air guide cavity communicated with the hot air cavity is arranged in each stirring rod, first stirring plates are arranged on the stirring rods along the length direction at intervals, second stirring plates are arranged in the first stirring plates, first branch cavities communicated with the air guide cavities are arranged in the first stirring plates, a plurality of first air outlets communicated with the first branch cavities are distributed in the first stirring plates, second branch cavities communicated with the air guide cavities are arranged in the second stirring plates, and a plurality of second air outlets communicated with the second branch cavities are distributed on the second stirring plates.

5. The dryer for producing the bio-organic fertilizer for preventing and treating wheat scab as claimed in claim 4, wherein the first stirring plate and the second stirring plate are both arc-shaped and the arc-shaped openings of the first stirring plate and the second stirring plate face the rotating shaft.

6. The dryer for producing the bio-organic fertilizer for preventing and treating wheat scab as claimed in claim 4, wherein the length of the first stirring plate is less than the length of the second stirring plate.

7. The dryer for producing the biological organic fertilizer for preventing and treating the wheat scab as claimed in any one of claims 1-3, wherein a first stirring assembly is arranged in the first feeding channel, the first stirring assembly comprises a first stirring shaft and a second motor, the first stirring shaft is horizontally arranged in the first feeding channel, a first helical blade is arranged outside the first stirring shaft, and the second motor is connected with the first stirring shaft and drives the first stirring shaft to rotate.

8. The dryer for the production of the biological organic fertilizer for preventing and treating wheat scab as claimed in any one of claims 1-3, wherein a second stirring assembly is arranged in the second feeding channel, the second stirring assembly comprises a second stirring shaft and a third motor, the second stirring shaft is horizontally arranged in the second feeding channel, a second helical blade is arranged outside the second stirring shaft, and the third motor is connected with the second stirring shaft and drives the second stirring shaft to rotate.

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