CN201612064U - Mushroom shed cooling and humidification system - Google Patents

Abstract

The utility model relates to the field of indoor air conditioning, and discloses a cooling and humidifying system for mushroom sheds. The system is composed of water curtain, air blower, water pump, water tank, and water inlet pipe. A blower fan is arranged in front of the water curtain. After the water pump pumps water, it supplies water to the water curtain through the water inlet pipe. The water vapor generated by the water curtain is blown inside the mushroom shed. The utility model has uniform temperature reduction and humidification, can solve the problem of cooling and humidification as a whole, has less power consumption, is environmentally friendly and durable.

Description

Mushroom shed cooling and humidification system

technical field

The utility model belongs to an indoor air conditioning system, in particular to the technical field of indoor edible fungus cultivation.

Background technique

With the improvement of people's living standards, the market demand for shiitake mushrooms is increasing day by day. In order to have shiitake mushrooms available all year round, people adopt indoor cultivation techniques to cultivate shiitake mushrooms. However, in the south, the temperature inside the mushroom shed is controlled by the air conditioner in summer. Since the air conditioner does not have the function of humidifying, it is necessary to install another humidifier to humidify. The above-mentioned method adopts extremely high equipment cost, large power consumption, small coverage area, and uneven cooling and humidification. In the north, the temperature inside the mushroom shed needs steam cooling fins to increase the temperature in winter, and the humidity in the mushroom shed cannot be maintained at an appropriate level.

Utility model content

The purpose of this utility model is to provide an air-conditioning system in a mushroom shed capable of simultaneously dehumidifying and humidifying in order to overcome the deficiencies in the above-mentioned technologies.

In order to solve the above-mentioned technical problems that it exists, the technical scheme that the utility model takes is:

A cooling and humidifying system for mushroom sheds, consisting of water curtains, air blowers, water pumps, water tanks, and water inlet pipes. A blower fan is arranged in front of the water curtains. After pumping water, the water pumps supply water to the water curtains through the water inlet pipes. The water curtain plane is blown to blow the water vapor generated by the water curtain inside the mushroom shed.

It also includes an air duct with a through hole, the air duct is arranged behind the water curtain, and the air blower blows to the plane of the water curtain so that the water vapor generated by the water curtain is evenly blown inside the mushroom shed through the through hole of the air duct.

Optionally, the water curtain is formed by connecting several straight pipes side by side, and several round holes are arranged on the straight pipes.

Compared with the prior art, the utility model is equipped with a water curtain in the mushroom house, and the water pump pumps the water to the water curtain, and the water is blown into water vapor by the blower and distributed to the inside of the mushroom shed to achieve the purpose of humidification. When cooling is required, As long as ice cubes are added to the water tank, low-temperature water vapor can be formed. Therefore, the utility model has the following characteristics:

1. It can be used in large-area mushroom houses;

2. Even cooling and humidification;

3. It can solve the problem of cooling and humidification as a whole;

4. The installation cost has been greatly reduced on the original basis;

5. Less power consumption, a 500-square-meter mushroom house consumes less than 2 kilowatts of electricity;

6. Only need to use electricity for lighting;

7. Environmental protection, humidifying and cooling completely through air flow and water;

8. Durable, it can be used for 5 to 10 years except for the motor;

9. Through air convection, it can purify the air;

10. Control the growth of mushrooms by controlling the environment of the mushroom house;

11. With the help of water flow, it can prevent dust and purify the air to the greatest extent, and at the same time increase the oxygen content, which is suitable for the growth of fungi and vegetables.

Description of drawings

Figure 1 is a schematic plan view of the arrangement of the cooling and humidifying system in the mushroom house;

Fig. 2 is a schematic structural diagram of the water curtain provided in this embodiment.

Detailed ways

The utility model will be described in detail below in conjunction with the accompanying drawings and specific embodiments. The schematic embodiments and descriptions of the utility model are used to explain the utility model, but not as a limitation to the utility model.

As shown in Figure 1 , a cooling and humidifying system is installed inside the mushroom house 1 , and the system includes an air duct 2 , a water curtain 3 , a blower 4 , a water inlet pipe 7 , a water pump 8 , a water tank 9 and a return pipe 10 . The water curtain 3 is located at the air vent 5 of the mushroom house, and the blower 4 is arranged in front of the water curtain 3, and the air duct 2 is arranged behind the water curtain 3. The air duct 2 is provided with a through hole. A water inlet pipe 7 is arranged above the water curtain 3 , and a return pipe 10 communicates between the air pipe 2 and the water tank 9 . Wherein the water curtain can be made up of several straight pipes, and several round holes (as shown in Figure 2) are set on the straight pipes.

The working principle of the cooling and humidifying system is as follows:

During humidification, the outdoor water pipe 6 supplies water to the water tank 9. After the water pump 8 starts, the water in the water tank 9 is transported to the water curtain 3 through the water inlet pipe 7. The round hole on the pipe enters to take away a large amount of water from the water curtain 3 and form water vapor. After the water vapor passes through the through hole of the air pipe 2, it forms a uniform water mist and spreads out to the mushroom house, so that the mushroom house increases the amount of water in the air. humidity.

When cooling down, add a large amount of ice cubes in the water tank 9 to reduce the water temperature, thereby reducing the temperature of the air blower 4 outlets, and reducing the temperature of the mushroom house.

The system can also realize wind circulation. When the air vent 5 is opened, it circulates with the outside air. When it is closed, the air in the mushroom house circulates.

The technical solutions provided by the embodiments of the present invention have been introduced in detail above. In this paper, specific examples have been used to illustrate the principles and implementation methods of the embodiments of the present invention. The descriptions of the above embodiments are only applicable to help understand the present invention. The principle of the embodiment; at the same time, for those of ordinary skill in the art, according to the embodiment of the present invention, there will be changes in the specific implementation and the scope of application. Utility model restrictions.

Claims (3)

1. mushroom canopy decreasing temperature and increasing humidity system, it is characterized in that: form by cascade, pressure fan, water pump, water tank, water inlet pipe, pressure fan is laid in the front of described cascade, supply water to cascade by water inlet pipe behind the described water pump pump water, simultaneously, thus pressure fan dispels the steam that cascade produces in mushroom canopy inside to cascade plane blowing.

2. a kind of mushroom canopy decreasing temperature and increasing humidity according to claim 1 system, it is characterized in that: also comprise airduct with through hole, described airduct is laid in the back of cascade, thereby pressure fan dispels in mushroom canopy inside equably to the through hole of cascade plane blowing with the steam process airduct of cascade generation.

3. a kind of mushroom canopy decreasing temperature and increasing humidity according to claim 1 and 2 system, it is characterized in that: described cascade is formed by connecting side by side by several straight tubes, and several circular holes are set on the described straight tube.

Images