CN214261334U

CN214261334U - Air treatment system for livestock and poultry breeding

Info

Publication number: CN214261334U
Application number: CN202022260376.XU
Authority: CN
Inventors: 台明栋; 刘慧林; 池天能; 向华; 莫树艺
Original assignee: Guangdong Yuanzhisheng Agricultural Technology Co ltd
Current assignee: Guangdong Yuanzhisheng Agricultural Technology Co ltd
Priority date: 2020-10-12
Filing date: 2020-10-12
Publication date: 2021-09-24
Anticipated expiration: 2030-10-12

Abstract

The utility model discloses an air treatment system for livestock and poultry breeding, which comprises an air draft device, an air supply device, a reaction tower, a conveying pipeline, a sterilized water circulation system and an automatic control system; a plurality of layers of water curtains for sterilizing air are arranged in the reaction tower; the sterilizing water circulating system comprises a water collecting tank, an electrolytic tank, a water suction pump and a spraying device, wherein the water collecting tank is arranged below the reaction tower and used for collecting sterilizing water, the electrolytic tank is connected with the water collecting tank, the water suction pump is arranged above the electrolytic tank, and the spraying device is arranged above the water curtain on the topmost layer. Adopt the utility model discloses, can obtain a high, with low costs, the good air treatment system who is used for beasts and birds to breed of bactericidal effect, air treatment system can carry out effectual disinfection of disinfecting, the ammonia nitrogen gas in the degradation plant air to the plant air and realize cooling down to the plant to reach air-purifying, reduce the effect that the disease bred the risk, improve the beasts and birds survival rate.

Description

Air treatment system for livestock and poultry breeding

Technical Field

The utility model relates to a beasts and birds are bred the field, especially relate to an air treatment system for beasts and birds are bred.

Background

Often have the too high condition of gas content such as ammonia nitrogen, hydrogen sulfide in the beasts and birds plant, present plant adopts fan system more, does the ventilation treatment to the plant, however these waste gases are all directly to discharge among the atmosphere untreated, have resulted in the peripheral air pollution of beasts and birds plant, have destroyed ecological environment. The current ventilation treatment method does not fundamentally solve the problem of air purification.

Moreover, the air in livestock and poultry farms may also carry bacteria and viruses, which easily cause health problems of livestock and poultry, and are discharged into the atmosphere without being treated, thus easily causing the diffusion of viruses.

Therefore, the method is an urgent need for culture and environmental sanitation for reducing ammonia nitrogen and hydrogen sulfide in the air of livestock and poultry farms and deodorizing, sterilizing and disinfecting.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that an air treatment system for beasts and birds are bred is provided, the air of plant can be purified effectively to cool down to plant.

In order to solve the technical problem, the utility model provides an air treatment system for livestock and poultry breeding, which comprises an air draft device, an air supply device, a reaction tower, a conveying pipeline, a sterilized water circulation system and an automatic control system;

the system comprises a farm, a reaction tower, an air supply device, a delivery pipeline, a pipeline and a pipeline, wherein the farm is provided with an air suction opening and an air supply opening, and the air suction opening, the air suction device, the reaction tower, the air supply device and the air supply opening are sequentially connected through the delivery pipeline; the air draft device is arranged at the bottom of the reaction tower, and the air supply device is arranged at the top of the reaction tower; a plurality of layers of water curtains for sterilizing air are arranged in the reaction tower;

the sterilizing water circulating system comprises a water collecting tank arranged below the reaction tower and used for collecting sterilizing water, an electrolytic tank connected with the water collecting tank, a water suction pump arranged above the electrolytic tank and a spraying device arranged above the water curtain, wherein the water suction pump is connected with the spraying device through a pipeline; an electrolysis device for electrolyzing generated sterilized water is arranged in the electrolytic cell.

As an improvement of the scheme, an ammonia nitrogen sensor is arranged in the farm and connected with an automatic control system, and the automatic control system is connected with an air draft device, an air supply device and a disinfection water circulation system.

As an improvement of the scheme, the water curtain is arranged on the inner wall of the reaction tower; the spraying device comprises a spraying pipeline and a spraying head arranged on the spraying pipeline.

As an improvement of the scheme, the number of the water curtains is 4-8; the number of the spray headers is 5-8, and the intervals between the spray headers are equal.

As an improvement of the scheme, the bottom of the reaction tower is provided with an external air inflow channel, and the top of the reaction tower is provided with a purified air discharge channel; and a one-way air valve is arranged on a conveying pipeline between the reaction tower and the air supply device, the external air inflow channel and the purified air discharge channel.

As an improvement of the scheme, the electrolytic cell is provided with a liquid level sensor and an automatic water adding device, and the liquid level sensor is connected with the automatic water adding device and the electrolytic device.

As an improvement of the scheme, the electrolytic cell is also provided with an effective chlorine sensor, and the automatic control system is connected with the effective chlorine sensor.

As an improvement of the scheme, the air suction opening and the air supply opening are respectively arranged on opposite or adjacent walls of the farm.

As an improvement of the scheme, a temperature sensor is further arranged inside the farm and connected with the automatic control system.

Implement the utility model discloses, following beneficial effect has:

the utility model adopts the air draft device to convey the waste gas in the farm to the reaction tower, and adopts the air supply device to send the purified air in the reaction tower to the farm; the waste gas is disinfected by disinfectant water generated by electrolysis in the reaction tower, the disinfectant water is uniformly sprayed onto the highest water curtain by the spraying device, and the disinfectant water flows downwards from the highest water curtain to the lowest water curtain step by step and is finally recycled into the water collecting tank; the waste gas enters the reaction tower from the bottom, and is disinfected through a plurality of layers of water curtains to form purified air, and the purified air can enter the farm again or can be directly discharged into the atmosphere; the water collecting tank is communicated with the electrolytic tank, and the electrolytic device in the electrolytic tank can electrolyze to generate sterilized water, so that the used sterilized water in the water collecting tank is electrolyzed again for cyclic utilization, and the effect of energy conservation is achieved; the utility model discloses still adopted automatic control system, reached air treatment automatic control's effect.

Adopt the utility model discloses, can obtain a high, with low costs, the good air treatment system who is used for beasts and birds to breed of bactericidal effect, air treatment system can carry out effectual disinfection of disinfecting, the ammonia nitrogen gas in the degradation plant air to the plant air and realize cooling down to the plant to reach air-purifying, reduce the effect that the disease bred the risk, improve the beasts and birds survival rate.

Drawings

FIG. 1 is a schematic view of an air treatment system according to the present invention;

fig. 2 is a schematic structural view of the sterilizing water circulation system of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1, the utility model provides an air treatment system for livestock and poultry breeding, which comprises an air draft device 1, an air supply device 2, a reaction tower 3, a conveying pipeline 4, a sterilized water circulation system 5 and an automatic control system 6; the farm 7 is provided with an air suction opening 71 and an air supply opening 72, and the air suction opening 71, the air draft device 1, the reaction tower 3, the air supply device 2 and the air supply opening 72 are sequentially connected through the conveying pipeline 4; preferably, the air suction opening 71 and the air supply opening 72 are respectively arranged on opposite or adjacent walls of the farm 7; the air draft device 1 is arranged at the bottom of the reaction tower 3, and the air supply device 2 is arranged at the top of the reaction tower 3; a plurality of layers of water curtains 31 for sterilizing air are arranged in the reaction tower 3; the water curtain 31 is installed on the inner wall of the reaction tower 3, the number of the water curtains 31 is 4-8, preferably, an installation hole for installing the water curtain 31 is formed in the reaction tower 3, and the water curtain 31 is fixed with the installation hole through a bolt, so that the connection with the inner wall of the reaction tower 3 is realized;

an ammonia nitrogen sensor (not shown in the figure) is arranged in the farm 7, the ammonia nitrogen sensor is connected with the automatic control system 6, and the automatic control system 6 is connected with the air draft device 1, the air supply device 2 and the disinfectant circulating system 5; when the ammonia nitrogen sensor detects that the ammonia nitrogen content exceeds the standard, the ammonia nitrogen sensor transmits data to the automatic control system 6, and the automatic control system 6 starts the air draft device 1, the air supply device 2 and the disinfection water circulation system 5; further, when the ammonia nitrogen sensor detects that the ammonia nitrogen content belongs to a normal range, the automatic control system 6 can automatically close the air draft device 1, the air supply device 2 and the sterilized water circulating system 5, so that electricity is saved; preferably, a temperature sensor is further arranged inside the farm 7, and the temperature sensor is connected with the automatic control system 6; when the temperature exceeds the standard, the automatic control system 6 starts the air draft device 1, the air supply device 2 and the sterilized water circulating system 5, so that the temperature in the farm 7 is reduced;

an external air inflow channel 32 is arranged at the bottom of the reaction tower 3, and a purified air discharge channel 33 is arranged at the top of the reaction tower; the conveying pipeline 4 between the reaction tower 3 and the air supply device 2, the external air inflow channel 32 and the purified air discharge channel 33 are all provided with one-way air valves 34;

the one-way air valve 34 on the conveying pipeline 4 between the reaction tower and the air supply device 2 limits the air to flow towards the direction of the farm 7, so that the waste gas in the farm 7 is prevented from returning to the reaction tower 3 to pollute the purified air in the reaction tower 3; the one-way air valve 34 of the external air inflow passage 32 restricts the flow of air toward the reaction tower 3, preventing the non-sterilized exhaust gas from being discharged to the atmosphere; the one-way air valve 34 on the external air inflow channel 32 is opened periodically according to requirements, so that fresh external air can be input into the reaction tower 3, enters the reaction tower 3 at the bottom, is sterilized by the water curtain 31 and then is sent into the farm 7, and therefore air carrying bacterial viruses outside is prevented from polluting the farm 7, and the risk of air-borne diseases is reduced; the one-way air valve 34 on the purified air discharging passage 33 limits the air flowing to the outside of the reaction tower 3, thereby preventing the external non-sterilized air from entering the reaction tower 3 through the purified air discharging passage 33 and polluting the sterilized purified air; the one-way air valve 34 on the purified air discharging passage 33 can be opened periodically according to the requirement to discharge the purified air after purification and sterilization to the atmosphere, thereby accelerating the replacement speed of the fresh air.

Referring to fig. 2, the disinfectant circulating system 5 includes a collecting tank 51 disposed below the reaction tower 3 for collecting disinfectant, an electrolytic cell 52 connected to the collecting tank 51, a water pump 53 disposed above the electrolytic cell 52, and a spraying device 54 disposed above the water curtain 31, wherein the water pump 53 and the spraying device 54 are connected by a pipeline; an electrolysis device 521 for electrolyzing the generated sterilized water is arranged in the electrolytic cell 52; the disinfectant circulating system 5 can automatically electrolyze to generate disinfectant, and is matched with the reaction tower 3 to treat waste gas, so that disinfectant is not required to be additionally added into the system, manual operation is not required, and the automatic air purification effect of a farm can be realized;

the spraying device 54 comprises a spraying pipe 541 and spraying heads 542 arranged on the spraying pipe 541, the number of the spraying heads 542 is 5-8, and the intervals between the spraying heads 542 are equal; the spraying device 54 uniformly sprays the disinfectant to the highest water curtain 31, the disinfectant flows downwards from the highest water curtain to the lowest water curtain step by step and is finally recycled to the water collecting tank 51, and the disinfectant flowing downwards from top to bottom can effectively bring bacteria and viruses to the water collecting tank 51; the waste gas enters the reaction tower 3 from the bottom and passes through the multilayer water curtains 31, so that the waste gas is fully contacted with the disinfectant to be disinfected to form purified air, bacterial viruses in the waste gas are oxidized and killed by the electrolyzed disinfectant, and along with degradation of ammonia nitrogen in the waste gas, the odor of the waste gas is eliminated, thereby meeting the actual requirement of green culture; in addition, the water curtain 31 takes away heat in the exhaust gas while purifying and disinfecting, and purified air with low heat obtained by disinfection is sent into the farm 7, so that the space temperature reduction of the farm 7 can be realized;

the collecting tank 51 is communicated with the electrolytic tank 52, and the electrolysis device 521 in the electrolytic tank 52 can electrolyze to generate sterilized water, so that the used sterilized water in the collecting tank 51 is electrolyzed again for recycling, and the effect of saving energy is achieved; preferably, a proper amount of salt can be added into the electrolytic cell 52 to improve the electrolytic effect, so that sterilized water meeting the standard is generated; the electrolytic cell 52 is provided with an available chlorine sensor (not shown in the figure), the automatic control system 6 can set the electrolysis time of the electrolysis device 521 according to the available chlorine content, and when the available chlorine sensor detects that the available chlorine content reaches the standard, the automatic control system 6 starts the water pump 53 to pump the sterilized water to the spraying device 54;

preferably, the electrolytic cell 52 is further provided with a liquid level sensor and an automatic water adding device, and when the liquid level of the electrolytic cell 52 is lower than the liquid level sensor, the automatic water adding device is started to make the water amount supplemented to a normal liquid level; when the liquid level of the electrolytic cell 52 is higher than the liquid level sensor, the electrolytic device 521 is automatically turned on.

The foregoing is a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and decorations can be made without departing from the principle of the present invention, and these improvements and decorations are also considered as the protection scope of the present invention.

Claims

1. An air treatment system for livestock and poultry breeding is characterized by comprising an air draft device, an air supply device, a reaction tower, a conveying pipeline, a sterilized water circulation system and an automatic control system; the farm is provided with an air suction opening and an air supply opening, and the air suction opening, the air suction device, the reaction tower, the air supply device and the air supply opening are sequentially connected through the conveying pipeline; the air draft device is arranged at the bottom of the reaction tower, and the air supply device is arranged at the top of the reaction tower; a plurality of layers of water curtains for sterilizing air are arranged in the reaction tower;

2. The air treatment system of claim 1, wherein an ammonia nitrogen sensor is arranged inside the farm and connected with the automatic control system, and the automatic control system is connected with an air draft device, an air supply device and a disinfection water circulation system.

3. The air treatment system of claim 1, wherein the water curtain is mounted on an inner wall of the reaction tower;

the spraying device comprises a spraying pipeline and a spraying head arranged on the spraying pipeline.

4. The air handling system of claim 3, wherein the number of water curtains is 4-8;

the number of the spray headers is 5-8, and the intervals between the spray headers are equal.

5. The air treatment system as claimed in claim 1, wherein the reaction tower is provided at a bottom thereof with an external air inflow passage and at a top thereof with a purified air discharge passage;

and a one-way air valve is arranged on a conveying pipeline between the reaction tower and the air supply device, the external air inflow channel and the purified air discharge channel.

6. The air treatment system of claim 1, wherein the electrolytic cell is provided with a liquid level sensor and an automatic water adding device, and the liquid level sensor is connected with the automatic water adding device and the electrolytic device.

7. The air handling system of claim 1, wherein the electrolytic cell is provided with an available chlorine sensor, and the automated control system is coupled to the available chlorine sensor.

8. The air treatment system of claim 1, wherein the suction and supply vents are located on opposite or adjacent walls of the farm.

9. The air treatment system of claim 2, wherein a temperature sensor is located within the farm, the temperature sensor being connected to the automated control system.