CN215819382U - Biogas slurry irrigation device - Google Patents

Abstract

The utility model discloses a biogas slurry irrigation device which comprises a solid-liquid separation mechanism, a water tank, a filter tank and a plunger pump, wherein the solid-liquid separation mechanism is arranged on the water tank; the water inlet of the filter tank is connected with the water tank through a main water inlet pipe and a main water inlet electromagnetic valve, the filtered water outlet of the filter tank is connected with the water inlet of the plunger pump through a first main water outlet electromagnetic valve, and the water outlet of the plunger pump is connected with a main water outlet pipe through a second main water outlet electromagnetic valve for irrigation; the water inlet of plunger pump still connects the back flush inlet tube through back flush plunger pump solenoid valve of intaking, the delivery port of plunger pump still connects through back flush plunger pump outlet solenoid valve the filtration delivery port of crossing the jar, the back flush delivery port of crossing the jar is connected through back flush outlet solenoid valve the water tank.

Description

Biogas slurry irrigation device

Technical Field

The utility model relates to a biogas slurry irrigation device.

Background

The traditional biogas slurry irrigation is direct pipe arrangement, upward irrigation is carried out by a submersible pump, other filtering treatment is not carried out, and a water pump and a pipeline are easy to block. Because of using the immersible pump, pressure is not enough, need midway to build cistern secondary pressurization and just can go up a hill. Traditional irrigation pipe does not install the water outlet pipe valve and prevents the water refluence of pipeline the inside, causes the waste, and the valve of installation is also mostly manual, can't accomplish automatically, does not possess back flush system yet, and pipeline and water pump block up easily.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects of the prior art and provides a biogas slurry irrigation device.

The technical scheme adopted by the utility model for solving the technical problems is as follows:

the utility model provides a natural pond liquid irrigation equipment which characterized in that: the device comprises a solid-liquid separation mechanism, a water tank, a filter tank and a plunger pump; the solid-liquid separation mechanism comprises a water filling port, an inclined plate and a discharge port, incoming materials fall from the upper part of the inclined plate, solid blocks are separated from the discharge port below the inclined plate, and liquid substances and water of the water filling port are mixed into biogas slurry to be stored in the water tank;

the water inlet of the filter tank is connected with the water tank through a main water inlet pipe and a main water inlet electromagnetic valve, the filtered water outlet of the filter tank is connected with the water inlet of the plunger pump through a first main water outlet electromagnetic valve, and the water outlet of the plunger pump is connected with a main water outlet pipe through a second main water outlet electromagnetic valve for irrigation;

the water inlet of the plunger pump is also connected with a backwashing water inlet pipe through a backwashing plunger pump water inlet electromagnetic valve, the water outlet of the plunger pump is also connected with the filtering water outlet of the filtering tank through a backwashing plunger pump water outlet electromagnetic valve, and the backwashing water outlet of the filtering tank is connected with the water tank through a backwashing water outlet electromagnetic valve;

when the water tank is in an irrigation state, opening a main water inlet electromagnetic valve, a first main water outlet electromagnetic valve and a second main water outlet electromagnetic valve, closing a back flush plunger pump water inlet electromagnetic valve, a back flush plunger pump water outlet electromagnetic valve and a back flush water outlet electromagnetic valve, and allowing biogas slurry in the water tank to enter a filter tank through a main water inlet pipe, filter, enter a water inlet of a plunger pump from a filter water outlet of the filter tank and then flow out from a water outlet of the plunger pump and a main water outlet pipe;

when the water tank is in a backwashing state, the first main water outlet electromagnetic valve, the second main water outlet electromagnetic valve and the main water inlet electromagnetic valve are closed, the backwashing plunger pump water inlet electromagnetic valve, the backwashing plunger pump water outlet electromagnetic valve and the backwashing water outlet electromagnetic valve are opened, water enters the water inlet of the plunger pump from the backwashing water inlet pipe and the water outlet of the plunger pump and then enters the filtering tank through the water outlet of the filtering tank for backwashing, and cleaned water flows into the water tank from the backwashing water outlet of the filtering tank.

In another preferred embodiment, a vibration motor is arranged on the inclined plate.

In another preferred embodiment, a transverse pushing screw is arranged below the inclined plate, a motor is in driving connection with the pushing screw, and the tail end of the pushing screw is provided with the discharge hole.

The utility model has the beneficial effects that the piggery sewage is preliminarily filtered by the solid-liquid separation mechanism, and large granular substances are separated out and fermented to be used as organic fertilizer auxiliary materials for recycling. And storing the separated sewage in a water tank. When irrigation is needed, the water inlet channel is opened, the back flushing channel is closed, the water enters the filter tank through the main water inlet pipe through pressurization of the plunger pump and is filtered, finer particles are intercepted, the plunger pump and the pipeline are prevented from being blocked, and finally irrigation is carried out on the mountain. After the irrigation is finished, the water outlet valve is closed to prevent water in the pipeline from flowing back and backflushing, then the water inlet valve is closed, the backwashing valve is opened, clear water enters the filter tank for backwashing through pressurization of the plunger pump, and then the backwashing water outlet valve is opened to allow sewage to flow into the sedimentation tank for sedimentation and then treatment; the utility model uses the filter tank to filter, and prevents the water pump and the pipeline from being blocked; the plunger pump is used, the operation is simple, the secondary pressurization of the reservoir is not required to be built midway, and the water can directly go up the hill once.

The utility model is further explained in detail with the accompanying drawings and the embodiments; however, the biogas slurry irrigation device of the present invention is not limited to the examples.

Drawings

Fig. 1 is a schematic perspective view illustrating a first embodiment of the present invention.

Fig. 2 is a schematic perspective view of a second preferred embodiment of the present invention.

FIG. 3 is a top view of a preferred embodiment of the present invention, wherein the waterway represents the irrigation path.

FIG. 4 is a top view of a preferred embodiment of the present invention, wherein the water path represents the backwash circuit.

Detailed Description

In the embodiment, referring to fig. 1 to 4, the biogas slurry irrigation device of the utility model comprises a solid-liquid separation mechanism 1, a water tank 2, a filter tank 3 and a plunger pump 4.

The solid-liquid separation mechanism 1 comprises a water filling port 11, an inclined plate 12 and a discharge port 13, incoming materials fall from the upper part of the inclined plate 12, solid blocks are separated from the discharge port 13 below the inclined plate 12, and the inclined plate 12 is provided with a vibration motor 121. The liquid and the water of the water filling port 11 are mixed into biogas slurry and stored in the water tank 2, a transversely arranged propelling screw 14 is arranged below the inclined plate 12, a motor 15 is in driving connection with the propelling screw 14, and the tail end of the propelling screw 14 is provided with the discharge port 13.

The water inlet 31 of the filter tank 3 is connected with the water tank 2 through a main water inlet pipe 51 and a main water inlet electromagnetic valve 52, the filtering water outlet 21 of the filter tank 3 is connected with the water inlet of the plunger pump 4 through a first main water outlet electromagnetic valve 53, and the water outlet of the plunger pump 4 is connected with a main water outlet pipe 55 through a second main water outlet electromagnetic valve 54 for irrigation;

the water inlet of the plunger pump 4 is also connected with a backwashing water inlet pipe 62 through a backwashing plunger pump water inlet electromagnetic valve 61, the water outlet of the plunger pump 4 is also connected with the filtered water outlet 32 of the filter tank 3 through a backwashing plunger pump water outlet electromagnetic valve 63, and the backwashing water outlet 33 of the filter tank 3 is connected with the water tank 2 through a backwashing water outlet electromagnetic valve 64;

referring to fig. 3, when in an irrigation state, the main water inlet electromagnetic valve 52, the first main water outlet electromagnetic valve 53 and the second main water outlet electromagnetic valve 54 are opened, the backwash plunger pump water inlet electromagnetic valve 61, the backwash plunger pump water outlet electromagnetic valve 63 and the backwash water outlet electromagnetic valve 64 are closed, and the biogas slurry in the water tank enters the filter tank 3 through the main water inlet pipe 51, is filtered, enters the water inlet of the plunger pump 4 from the filter water outlet 32 of the filter tank 3, and then flows out from the water outlet of the plunger pump 4 and the main water outlet pipe 55;

referring to fig. 4, when in a backwashing state, the first main water outlet solenoid valve 53, the second main water outlet solenoid valve 54 and the main water inlet solenoid valve 52 are closed, the backwashing plunger pump water inlet solenoid valve 61, the backwashing plunger pump water outlet solenoid valve 63 and the backwashing water outlet solenoid valve 64 are opened, water enters the water inlet of the plunger pump 4 from the backwashing water inlet pipe 62, enters the water outlet of the plunger pump 4 through the filtered water outlet 32 of the filter tank 3, enters the filter tank 3 for backwashing, and the cleaned water flows into the water tank 2 from the backwashing water outlet 33 of the filter tank 3.

The above embodiments are only used to further illustrate the biogas slurry irrigation device of the present invention, but the present invention is not limited to the embodiments, and any simple modifications, equivalent changes and modifications made to the above embodiments according to the technical spirit of the present invention fall within the protection scope of the technical solution of the present invention.

Claims (3)

1. The utility model provides a natural pond liquid irrigation equipment which characterized in that: the device comprises a solid-liquid separation mechanism, a water tank, a filter tank and a plunger pump; the solid-liquid separation mechanism comprises a water filling port, an inclined plate and a discharge port, incoming materials fall from the upper part of the inclined plate, solid blocks are separated from the discharge port below the inclined plate, and liquid substances and water of the water filling port are mixed into biogas slurry to be stored in the water tank;

the water inlet of the filter tank is connected with the water tank through a main water inlet pipe and a main water inlet electromagnetic valve, the filtered water outlet of the filter tank is connected with the water inlet of the plunger pump through a first main water outlet electromagnetic valve, and the water outlet of the plunger pump is connected with a main water outlet pipe through a second main water outlet electromagnetic valve for irrigation;

the water inlet of the plunger pump is also connected with a backwashing water inlet pipe through a backwashing plunger pump water inlet electromagnetic valve, the water outlet of the plunger pump is also connected with the filtering water outlet of the filtering tank through a backwashing plunger pump water outlet electromagnetic valve, and the backwashing water outlet of the filtering tank is connected with the water tank through a backwashing water outlet electromagnetic valve;

when the water tank is in an irrigation state, opening a main water inlet electromagnetic valve, a first main water outlet electromagnetic valve and a second main water outlet electromagnetic valve, closing a back flush plunger pump water inlet electromagnetic valve, a back flush plunger pump water outlet electromagnetic valve and a back flush water outlet electromagnetic valve, and allowing biogas slurry in the water tank to enter a filter tank through a main water inlet pipe, filter, enter a water inlet of a plunger pump from a filter water outlet of the filter tank and then flow out from a water outlet of the plunger pump and a main water outlet pipe;

when the water tank is in a backwashing state, the first main water outlet electromagnetic valve, the second main water outlet electromagnetic valve and the main water inlet electromagnetic valve are closed, the backwashing plunger pump water inlet electromagnetic valve, the backwashing plunger pump water outlet electromagnetic valve and the backwashing water outlet electromagnetic valve are opened, water enters the water inlet of the plunger pump from the backwashing water inlet pipe and the water outlet of the plunger pump and then enters the filtering tank through the filtering water outlet of the filtering tank for backwashing, and the cleaned water flows into the water tank from the backwashing water outlet of the filtering tank.

2. The biogas slurry irrigation device according to claim 1, characterized in that: the inclined plate is provided with a vibration motor.

3. The biogas slurry irrigation device according to claim 1, characterized in that: the lower part of swash plate is equipped with horizontal propulsion screw, and motor drive connects propulsion screw, propulsion screw's end sets up the discharge gate.

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