CN222125656U - A greenhouse temperature and humidity control device - Google Patents

Abstract

The utility model relates to the technical field of temperature and humidity regulating devices, in particular to a greenhouse temperature and humidity regulating device. The temperature and humidity control device mainly aims at the problems that the conventional temperature and humidity control device usually needs a plurality of devices to be matched, the overall purchase cost is high, and the heating and the humidifying are required to be carried out separately through different devices, so that the occupied space of the device is large. The utility model realizes the simultaneous heating and humidification without separating various devices, reduces the occupation of sites and saves the purchase cost.

Description

Greenhouse temperature and humidity regulation device

Technical Field

The utility model relates to the technical field of temperature and humidity regulating devices, in particular to a greenhouse temperature and humidity regulating device.

Background

The seedling greenhouse is a special facility for planting and cultivating seedlings. It provides a controlled environment and can provide proper temperature, humidity and illumination conditions for the growth of seedlings. At present, heating equipment, humidifying equipment and ventilation equipment are required to be installed in a greenhouse, and temperature and humidity regulation and control are completed in the greenhouse through cooperation of various equipment and a controller, so that a proper growth environment is provided for indoor seedlings, and healthy growth of the seedlings is facilitated.

However, the conventional temperature and humidity control equipment generally needs a plurality of equipment to be matched, so that the overall purchase cost is high, and the heating and the humidifying are required to be carried out separately through different equipment, so that the occupied space of the equipment is large.

Disclosure of utility model

The utility model aims to solve the problems in the background art and provides a greenhouse temperature and humidity control device.

According to the technical scheme, the greenhouse temperature and humidity regulation device comprises an isolation shell, a positive and negative fan is arranged on one side wall body of the isolation shell, a universal controller is arranged on the outer wall of the other isolation shell, a temperature and humidity sensor which is convenient for detecting the temperature of steam is arranged on the inner wall of the other isolation shell, a heating assembly is arranged between the two isolation shells, a water source transfer box which is convenient for assisting in water source flowing is symmetrically arranged at the top and the bottom of the heating assembly, a water pumping assembly which is convenient for driving water source to circularly flow is arranged on the forward-looking wall body of the heating assembly, an electromagnetic air valve is arranged at the top opening of the isolation shell, and an exhaust pipe which is convenient for guiding steam into a room is connected to the outlet end of the electromagnetic air valve.

Preferably, the heating assembly comprises a sealed outer frame, trapezoid grooves are symmetrically formed in the top and the bottom of the sealed outer frame, water spraying holes are formed in opposite wall bodies of the water source transfer box, and the water spraying holes are respectively arranged in the trapezoid grooves corresponding to the positions.

Preferably, the electric heating filter screen is arranged in the sealed outer frame, and the top and the bottom of the electric heating filter screen are respectively communicated with the trapezoid grooves corresponding to the positions.

Preferably, the pumping assembly comprises a water pump, the inlet end and the output end of the water pump are both connected with drainage tubes, and one ends of the two drainage tubes are respectively communicated with the inside of the water source transfer box corresponding to the positions.

Preferably, a water inlet pipe is connected to the top wall of one water source transfer box, and a water outlet pipe is connected to the front wall of the other water source transfer box.

Preferably, the two water source transfer boxes are arranged at the opening of the isolation shell, and the outer wall of the water source transfer box is connected with the opening of the isolation shell.

Preferably, the universal controller is electrically connected with the positive and negative fan, the temperature and humidity sensor, the electromagnetic air valve, the electric heating filter screen and the water pump.

Compared with the prior art, the utility model has the following beneficial technical effects:

According to the utility model, the inside of the isolation shell is blown by the positive and negative fans, the water source forms a water curtain on the heating component under the driving of the water pumping component, the water source is heated by the heating component, and hot steam generated by heating enters the room by matching with the blowing of the positive and negative fans, so that the heating and the humidifying are simultaneously carried out, a plurality of devices are not required to be separated for working, the cost is saved, the occupation of a space field is reduced, and meanwhile, under the matching of the temperature and humidity sensor and the electromagnetic air valve, the steam is prevented from being led into the room under the condition of overhigh or overlow temperature, and the growth of indoor sapling is prevented.

Drawings

FIG. 1 is a schematic isometric view of a greenhouse temperature and humidity control device;

FIG. 2 is a schematic view of the back section structure of FIG. 1;

Fig. 3 is a schematic perspective view of the heating assembly of fig. 2.

The device comprises a reference numeral 1, an isolation shell, 2, a positive and negative fan, 3, a general controller, 4, a temperature and humidity sensor, 5, a heating component, 51, a sealed outer frame, 52, an electric heating filter screen, 6, a water source transfer box, 7, a water pumping component, 71, a water pump, 72, a drainage tube, 8, an electromagnetic air valve, 9 and an exhaust pipe.

Detailed Description

The technical scheme of the utility model is further described below with reference to the attached drawings and specific embodiments.

Examples

As shown in figures 1-3, the greenhouse temperature and humidity regulation device provided by the utility model comprises an isolation shell 1, a positive and negative fan 2 is arranged on the side wall of one positive and negative fan 2, the blowing end of the positive and negative fan 2 is positioned in the isolation shell 1, so that the air in the isolation shell 1 is conveniently blown, a general controller 3 is fixedly arranged on the outer wall of the isolation shell 1 on the other side, a temperature and humidity sensor 4 is fixedly arranged on the inner surface wall of the other isolation shell 1, so that the temperature in the isolation shell 1 is conveniently monitored, and the positive and negative fan 2 and the temperature and humidity sensor 4 are electrically connected with the general controller 3.

Further, a heating component 5 is arranged between the two isolation shells 1, the heating component 5 comprises a sealing outer frame 51, two side wall bodies of the sealing outer frame 51 are fixedly connected with openings on opposite faces of the two isolation shells 1, an electric heating filter screen 52 is fixedly arranged at the middle part of the sealing outer frame 51 and communicated with trapezoid grooves formed in the top and bottom wall bodies of the sealing outer frame 51, a water source in the trapezoid grooves is conveniently guided onto the electric heating filter screen 52, a water curtain is formed, the electric heating filter screen 52 is electrically connected with a universal controller 3, the electric heating filter screen 52 is conveniently controlled to be switched on and off by the universal controller 3, and is also connected with mains supply, so that the electric heating filter screen 52 is conveniently electrified, water sources flowing on the electric heating filter screen 52 are heated, hot steam is conveniently blown into the other isolation shells 1 by the aid of the heating component 5, the monitoring of the temperature and humidity of the hot steam is achieved under the action of a temperature and humidity sensor 4, and the temperature or humidity of the hot steam are prevented from being excessively high, and the indoor nursery stock growth is prevented; the electromagnetic air valve 8 is fixedly arranged at the opening at the top of the other isolation shell 1, the electromagnetic air valve 8 is electrically connected with the universal controller 3, the closed state of the electromagnetic air valve 8 is conveniently controlled by the universal controller 3, the temperature and humidity of hot steam are prevented from entering a room under the condition of being inconsistent with the standard, the inlet end of the exhaust pipe 9 is connected with the outlet end of the electromagnetic air valve 8, the outlet end of the exhaust pipe 9 is communicated with the interior of a greenhouse and is used for guiding the hot steam to enter the room, the purpose of regulating and controlling the temperature and the humidity of the room can be achieved due to the matching of the heating component 5 and the positive and negative fan 2, thus the regulation and control of the temperature and the humidity by adopting various devices independently in the conventional way is avoided, thereby saving cost.

Further, the two water source transfer boxes 6 are symmetrically arranged on the top wall body and the bottom wall body of the sealed outer frame 51, the two water source transfer boxes 6 are used for storing water sources, a plurality of water spraying holes formed in the opposite wall bodies of the two water source transfer boxes 6 are respectively arranged in trapezoid grooves corresponding to the positions, water is prevented from staying on the electric heating filter screen 52, water accumulation in the isolation shell 1 is caused, water source recycling is affected, a water inlet pipe which is convenient for injecting water into the water source is connected to the top of one water source transfer box 6, a water outlet pipe which is convenient for discharging water from the inside is connected to the forward wall body of the other water source transfer box 6, and water sources in the two water source transfer boxes 6 are convenient to replace and supplement.

Further, the forward-looking wall body of the heating assembly 5 is provided with the water pumping assembly 7 which is convenient for driving the water source to circularly flow, the water pumping assembly 7 comprises a water pump 71, the water pump 71 is fixedly arranged on the forward-looking wall body of the sealed outer frame 51, the opposite ends of the two drainage pipes 72 are connected with the inlet end and the output end of the water pump 71, the opposite ends of the two drainage pipes 72 are communicated with the inside of the two water source transfer boxes 6, the water source is matched with the two drainage pipes 72 through the water pump 71, the water source can circularly flow in the two water source transfer boxes 6, the water source in a flowing state is favorable for being heated uniformly under the action of the electric heating filter screen 52, the heating speed is improved, and the indoor heating and humidifying are convenient to follow-up.

The above-described embodiments are merely a few preferred embodiments of the present utility model, and many alternative modifications and combinations of the above-described embodiments will be apparent to those skilled in the art based on the technical solutions of the present utility model and the related teachings of the above-described embodiments.

Claims (7)

1. A greenhouse temperature and humidity regulation device comprises an isolation shell (1) and is characterized in that a positive and negative fan (2) is arranged on one side wall body of the isolation shell (1), a universal controller (3) is arranged on the outer wall of the isolation shell (1), a temperature and humidity sensor (4) which is convenient for detecting the temperature of steam is arranged on the inner wall of the isolation shell (1), a heating assembly (5) is arranged between the isolation shells (1), a water source transfer box (6) which is convenient for an auxiliary water source to flow is symmetrically arranged at the top and the bottom of the heating assembly (5), a pumping assembly (7) which is convenient for driving the water source to flow circularly is arranged on the front-view wall body of the heating assembly (5), an electromagnetic air valve (8) is arranged at the top opening of the isolation shell (1), and an outlet end of the electromagnetic air valve (8) is connected with an exhaust pipe (9) which is convenient for guiding steam into a room.

2. The greenhouse temperature and humidity control device according to claim 1, wherein the heating assembly (5) comprises a sealed outer frame (51), trapezoid grooves are symmetrically formed in the top and the bottom of the sealed outer frame (51), water spraying holes are formed in opposite wall bodies of two water source transfer boxes (6), and a plurality of water spraying holes are respectively formed in the trapezoid grooves corresponding to the positions.

3. The greenhouse temperature and humidity control device according to claim 2, wherein an electric heating filter screen (52) is installed in the sealed outer frame (51), and the top and the bottom of the electric heating filter screen (52) are respectively communicated with trapezoid grooves corresponding to the positions.

4. A greenhouse temperature and humidity control device according to claim 3, characterized in that the water pumping assembly (7) comprises a water pump (71), the inlet end and the output end of the water pump (71) are both connected with drainage pipes (72), and one ends of the two drainage pipes (72) are respectively communicated with the inside of the water source transfer box (6) corresponding to the positions.

5. The greenhouse temperature and humidity control device according to claim 4, wherein a water inlet pipe is connected to the top wall of one water source transfer box (6), and a water outlet pipe is connected to the front wall of the other water source transfer box (6).

6. The greenhouse temperature and humidity control device according to claim 5, wherein two water source transfer boxes (6) are arranged at the opening of the isolation shell (1), and the outer wall of each water source transfer box (6) is connected with the opening of the isolation shell (1).

7. The greenhouse temperature and humidity control device according to claim 6, wherein the universal controller (3) is electrically connected with the positive and negative fan (2), the temperature and humidity sensor (4), the electromagnetic air valve (8), the electric heating filter screen (52) and the water pump (71).