CN-224226925-U - Fermentation system

Abstract

The utility model discloses a fermentation system which comprises a container, a stirring module, a first conveying mechanism and a second conveying mechanism, wherein a fermentation space is formed in the container for fermentation of materials, a discharge hole is formed in the bottom of the container, the stirring module comprises a main shaft, a plurality of stirring blades and a driving mechanism, the stirring blades are arranged on the main shaft and used for driving the main shaft to rotate, the main shaft is rotatably arranged on the container, the stirring blades are positioned in the container, the first conveying mechanism comprises a first motor, a first conveying pipe and a first spiral body, a first feed inlet is formed in one end portion of the first conveying pipe, a first discharge hole is formed in the other end portion of the first conveying pipe, and the first motor is configured to drive the first spiral body to rotate in the first conveying pipe, and is connected with the discharge hole. The environmental pollution is reduced.

Inventors

• Request for anonymity
• Request for anonymity
• Request for anonymity

Assignees

• 青岛康普天成环境科技有限公司

Dates

Publication Date

20260512

Application Date

20241230

Claims (10)

1. 1. A fermentation system, comprising: The container is internally provided with a fermentation space for fermenting materials, and the bottom of the container is provided with a discharge hole; The stirring module comprises a main shaft, a plurality of stirring blades and a driving mechanism, wherein the stirring blades are arranged on the main shaft, and the driving mechanism is used for driving the main shaft to rotate; The conveying device comprises a first conveying mechanism, wherein the first conveying mechanism comprises a first motor, a first conveying pipe and a first ‌ spiral body, a first feeding port is formed in one end portion of the first conveying pipe, a first discharging port is formed in the other end portion of the first conveying pipe, the first motor is configured to drive the first spiral body to rotate in the first conveying pipe, and the first feeding port is connected with the discharging port.
2. 2. The fermentation system of claim 1, further comprising a first conveyor belt having an end disposed below the first discharge opening.
3. 3. The fermentation system of claim 2, wherein one end of the first conveyor belt is further provided with a shroud having a U-shaped cross-section, the shroud being disposed between the first conveyor belt and the first conveyor pipe, the shroud being positioned below the first discharge opening, the shroud opening toward the other end of the first conveyor belt.
4. 4. A fermentation system according to claim 3, wherein the first discharge opening of the first conveying pipe is further provided with a first discharge pipe, which is arranged vertically, the coaming being semi-encircling the outside of the first discharge pipe.
5. 5. The fermentation system of claim 2, further comprising a storage bin; the other end of the first conveying belt extends into the storage bin.
6. 6. The fermentation system of claim 5, wherein the first conveyor belt is disposed obliquely between a top of the storage bin and a bottom of the first conveyor pipe.
7. 7. The fermentation system of any one of claims 1-6, further comprising a divider and a second conveyor belt; the feed divider includes: the temporary storage box is provided with a feeding port at the top, and an output port is arranged at the bottom; The second conveying mechanism comprises a second motor, a second conveying pipe, a second spiral body, a door body and a driving part, wherein a second feeding hole is formed in one end part of the second conveying pipe, a second discharging hole is formed in the other end part of the second conveying pipe, the door body is arranged at the second discharging hole, the driving part is configured to drive the door body to open and close the second discharging hole, and the second motor is configured to drive the second spiral body to rotate in the second conveying pipe; a weigh configured to weigh the temporary storage bin; The controller is respectively connected with the weighing device and the driving part, and is configured to drive the door body to close the second discharge opening by controlling the driving part after the weight change value detected by the weighing device reaches a threshold value; The second conveyer belt is arranged between the material distributor and the container, one end part of the second conveyer belt is positioned below the second material outlet, and the other end part of the second conveyer belt is positioned above the container.
8. 8. The fermentation system of claim 7, wherein a second discharge pipe is disposed on the second discharge port of the second conveying pipe, the second discharge pipe is vertically disposed, and an end of the door body is rotatably disposed at a lower pipe orifice of the second discharge pipe through a hinge.
9. 9. The fermentation system of claim 8, wherein the drive member is a telescoping mechanism, and wherein the moving portion of the telescoping mechanism is hinged to the end of the door body remote from the hinge.
10. 10. The fermentation system of claim 8, wherein a sealing ring is provided at a lower spout edge of the second discharge pipe or at a perimeter of the door body; and when the door body is in a closed state, the sealing ring is clamped between the door body and the lower pipe orifice of the second discharging pipe.

Description

Fermentation system Technical Field The utility model relates to biological reaction equipment, in particular to a fermentation system. Background At present, along with popularization of an industrial farm, the farm can produce a large amount of organic wastes such as feces and food residues. How to recycle the organic waste harmlessly is a problem to be solved urgently. Chinese patent publication No. CN111842438a discloses a new-type air supply fermentation equipment, after collecting the excrement and urine, put into the container, stir the excrement and urine through the agitated vessel in the container, the bottom air feed is in order to satisfy the requirement of fermentation, finally form fermented organic fertilizer in the bottom of container, organic fertilizer exports outwards from the bin outlet of container bottom. In the actual use process, after the discharge hole of the bottom of the container is opened, the organic fertilizer directly falls from the container by gravity, the water content of the prepared organic fertilizer is low, and serious dust is generated in the process of falling from the discharge hole, so that the surrounding environment is easy to be polluted by the dust. In view of this, how to design a technology for reducing environmental pollution is a technical problem to be solved by the present utility model. Disclosure of utility model The utility model aims to solve the technical problem of providing a fermentation system for reducing the pollution of the surrounding environment. The technical scheme provided by the utility model is that the fermentation system comprises: The container is internally provided with a fermentation space for fermenting materials, and the bottom of the container is provided with a discharge hole; The stirring module comprises a main shaft, a plurality of stirring blades and a driving mechanism, wherein the stirring blades are arranged on the main shaft, and the driving mechanism is used for driving the main shaft to rotate; The first conveying mechanism comprises a first motor, a first conveying pipe and a first spiral body, a first feeding hole is formed in one end portion of the first conveying pipe, a first discharging hole is formed in the other end portion of the first conveying pipe, the first motor is configured to drive the first spiral body to rotate in the first conveying pipe, and the first feeding hole is connected with the discharging hole. In one embodiment, the fermentation system further comprises a first conveyor belt, one end of which is arranged below the first discharge opening. In an embodiment, one end of the first conveying belt is further provided with a coaming, the cross section of the coaming is of a U-shaped structure, the coaming is arranged between the first conveying belt and the first conveying pipe, the coaming is located below the first discharge hole, and an opening of the coaming faces the other end of the first conveying belt. In an embodiment, the first discharge opening of the first conveying pipe is further provided with a first discharge pipe, the first discharge pipe is vertically arranged, and the coaming is semi-enclosed outside the first discharge pipe. In one embodiment, the fermentation system further comprises a storage bin, and the other end of the first conveying belt extends into the storage bin. In one embodiment, the first conveyor belt is disposed obliquely between the top of the storage bin and the bottom of the first conveyor pipe. In one embodiment, the fermentation system further comprises a material separator and a second conveyor belt; the feed divider includes: the temporary storage box is provided with a feeding port at the top, and an output port is arranged at the bottom; The second conveying mechanism comprises a second motor, a second conveying pipe, a second spiral body, a door body and a driving part, wherein a second feeding hole is formed in one end part of the second conveying pipe, a second discharging hole is formed in the other end part of the second conveying pipe, the door body is arranged at the second discharging hole, the driving part is configured to drive the door body to open and close the second discharging hole, and the second motor is configured to drive the second spiral body to rotate in the second conveying pipe; a weigh configured to weigh the temporary storage bin; The controller is respectively connected with the weighing device and the driving part, and is configured to drive the door body to close the second discharge opening by controlling the driving part after the weight change value detected by the weighing device reaches a threshold value; The second conveyer belt is arranged between the material distributor and the container, one end part of the second conveyer belt is positioned below the second material outlet, and the other end part of the second conveyer belt is positioned above the container. In an embodiment, a second discharging pipe is arra