CN211210748U - Greenhouse temperature control system - Google Patents

Abstract

The utility model discloses a big-arch shelter temperature control system belongs to warmhouse booth technical field, and aim at solves the problem that current big-arch shelter temperature control system is inefficiency. It includes the canopy body, canopy body top is provided with the sunshade layer, the internal a plurality of seedling beds of growing seedlings that are provided with of canopy, the external temperature control subassembly that is provided with of canopy, the temperature control subassembly is including setting up the intensification room in canopy body both sides, the new trend air intake has been seted up on the wall of intensification room both sides, install the air inlet valve on the new trend air intake, the indoor heat exchanger that installs of intensification, new trend inlet channel has been seted up on the wall of canopy body both sides, the canopy body passes through new trend inlet channel and intensification room intercommunication, install the thermal cycle fan in the new trend inlet channel, two air outlets have all been seted up on the wall of canopy body both sides, install the air outlet valve on the air outlet, a plurality of sprayers are still installed to. The utility model is suitable for a big-arch shelter temperature control system.

Description

Greenhouse temperature control system

Technical Field

The utility model belongs to the technical field of warmhouse booth, concretely relates to big-arch shelter temperature control system.

Background

The greenhouse provides an unnatural growing environment to ensure that plants grow at an appropriate temperature. The temperature environment in the greenhouse is an important factor influencing the growth of crops, so that the matching of the temperature in the greenhouse and the optimal growth required temperature of the crops is very important. In order to control the temperature of the greenhouse, a temperature control system is mostly arranged in the existing greenhouse, but the control of the existing temperature control system on the temperature is not rapid and accurate enough, the temperature abnormality is often observed by a worker, the temperature control system is turned on again, the temperature regulation process is lagged, and the growth of crops is not facilitated. Meanwhile, the existing temperature control system is not uniform in temperature adjustment in the greenhouse, and local temperature difference exists in the greenhouse when the temperature is adjusted. Therefore, the existing greenhouse temperature control system has low working efficiency and poor control effect.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a: the utility model provides a big-arch shelter temperature control system, the problem of current big-arch shelter temperature control system inefficiency is solved.

The utility model adopts the technical scheme as follows:

the utility model provides a big-arch shelter temperature control system, includes the canopy body, and canopy body top is provided with the sunshade layer, and the internal a plurality of seedling beds of growing of being provided with of canopy is provided with temperature control assembly outside the canopy body, temperature control assembly has seted up the new trend air intake including setting up the intensification room in canopy body both sides on the wall of intensification room both sides, installs the air inlet valve on the new trend air intake, and the indoor heat exchanger that installs of intensification has seted up new trend inlet channel on the wall of canopy body both sides, the canopy body passes through new trend inlet channel and intensification room intercommunication, installs thermal cycle fan in the new trend inlet channel, all seted up two air outlets on the wall of canopy body both sides, install the blast gate on the air outlet, the air outlet is located intensification room both sides wall outside, still installs a plurality of sprayers in the canopy body.

Further, the water valve is the solenoid valve for water, installs temperature sensor in the canopy body, still is provided with the PLC controller, and the PLC controller is connected with solenoid valve for water electricity, and the PLC controller is connected with temperature sensor electricity, and the PLC controller is connected with the thermal cycle fan electricity, and the PLC controller is connected with the air inlet valve electricity, and the PLC controller is connected with the air-out valve electricity.

Furthermore, a plurality of hygrothermographs are arranged in the greenhouse body.

Further, the sprayer is an atomizing sprayer.

Further, a monitoring camera is further installed in the greenhouse body.

To sum up, owing to adopted above-mentioned technical scheme, the beneficial effects of the utility model are that:

1. the utility model discloses in, including the canopy body, canopy body top is provided with the sunshade layer, and the internal a plurality of seedling beds of growing of being provided with of canopy is provided with the temperature control subassembly outward, the temperature control subassembly has seted up the new trend air intake including setting up the intensification room in canopy body both sides on the wall of intensification room both sides, installs the air inlet valve on the new trend air intake, and the indoor heat exchanger that installs of intensification has seted up new trend inlet channel on the wall of canopy body both sides, the canopy body passes through new trend inlet channel and intensification room intercommunication, installs the thermal cycle fan in the new trend inlet channel, all seted up two air outlets on the wall of canopy body both sides, installs the blast valve on the air outlet, the air outlet is located the wall outside of intensification room both sides, and the internal a plurality of sprayers of still installing of canopy, and.

Through this setting, when needing internal intensification of canopy, open air inlet valve and air-out valve, outdoor new trend gets into the heating chamber through the air inlet valve, heat up indoor heat exchanger and heat the new trend, the new trend after the heating is under the effect of thermal cycle fan, it is internal through new trend inlet channel entering canopy, the internal air of canopy is outdoor through the air outlet discharge under the air-out valve effect, the internal cold air of continuous discharge of canopy with send into the hot-air, realize the internal whole intensification of canopy gradually. Because the greenhouse is arranged on both sides of the greenhouse body, cold air and hot air are discharged and fed from both sides of the greenhouse body, so that the whole temperature rise process in the greenhouse body is more uniform. When the temperature in the shed body needs to be reduced, the water valve is opened, the sprayer sprays water into the shed body, and the temperature in the shed body is reduced by absorbing heat through water evaporation. Can realize the free regulation and control of the internal temperature of canopy rapidly, the effectual problem of having solved current big-arch shelter temperature control system inefficiency.

2. The utility model discloses in, the water valve is water solenoid valve, and the internal temperature sensor that installs of canopy still is provided with the PLC controller, and the PLC controller is connected with water solenoid valve electricity, and the PLC controller is connected with the temperature sensor electricity, and the PLC controller is connected with thermal cycle fan electricity, and the PLC controller is connected with the intake valve electricity, and the PLC controller is connected with the air-out valve electricity.

Through this setting, the internal temperature situation of temperature sensor real-time detection canopy, feedback to the PLC controller, the PLC controller compares the temperature information that the feedback obtained according to the preset condition, when the internal temperature of canopy is too low when needing to heat up, PLC sends out the signal of telecommunication drive air inlet valve, the air outlet valve, the work of thermal cycle fan, realize the internal intensification of canopy, when the internal temperature of canopy is too high when needing the cooling, PLC sends out the signal of telecommunication drive water solenoid valve and opens, thereby start the spray thrower and spray water to the internal cooling of canopy, realize the internal cooling of canopy, thereby the internal temperature of more automatic regulation canopy.

3. The utility model discloses in, the internal a plurality of hygrothermographs that are provided with of canopy. Through this setting, the staff of being convenient for observes internal temperature of canopy and humidity.

4. The utility model discloses in, the spray thrower is the atomizing spray thrower. Through this setting, atomizing spray thrower can effectual promotion spray coverage area, simultaneously economize on water more.

5. The utility model discloses in, still install the surveillance camera head in the canopy body. Through this setting, the staff's remote observation internal condition of canopy of being convenient for is convenient for in time handle some emergency.

Drawings

Fig. 1 is a top view of the present invention;

the labels in the figure are: 1-shed body, 2-liter greenhouse, 3-fresh air inlet, 4-heat exchanger, 5-fresh air inlet channel, 6-thermal cycle fan and 7-air outlet.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention.

The utility model provides a big-arch shelter temperature control system, includes the canopy body, and canopy body top is provided with the sunshade layer, and the internal a plurality of seedling beds of growing of being provided with of canopy is provided with temperature control assembly outside the canopy body, temperature control assembly has seted up the new trend air intake including setting up the intensification room in canopy body both sides on the wall of intensification room both sides, installs the air inlet valve on the new trend air intake, and the indoor heat exchanger that installs of intensification has seted up new trend inlet channel on the wall of canopy body both sides, the canopy body passes through new trend inlet channel and intensification room intercommunication, installs thermal cycle fan in the new trend inlet channel, all seted up two air outlets on the wall of canopy body both sides, install the blast gate on the air outlet, the air outlet is located intensification room both sides wall outside, still installs a plurality of sprayers in the canopy body.

Further, the water valve is the solenoid valve for water, installs temperature sensor in the canopy body, still is provided with the PLC controller, and the PLC controller is connected with solenoid valve for water electricity, and the PLC controller is connected with temperature sensor electricity, and the PLC controller is connected with the thermal cycle fan electricity, and the PLC controller is connected with the air inlet valve electricity, and the PLC controller is connected with the air-out valve electricity.

Furthermore, a plurality of hygrothermographs are arranged in the greenhouse body.

Further, the sprayer is an atomizing sprayer.

Further, a monitoring camera is further installed in the greenhouse body.

The utility model discloses in the implementation process, when the internal intensification of needs canopy, open air inlet valve and air-out valve, outdoor new trend gets into the heating chamber through the air inlet valve, heat exchanger in the heating chamber heats the new trend, the new trend after the heating is under the effect of thermal cycle fan, it is internal through new trend inlet channel entering canopy, the internal air of canopy is outdoor through the air outlet discharge under the air-out valve effect, the internal cold air of continuous discharge of canopy with send into the hot-air, realize the internal whole intensification of canopy gradually. Because the greenhouse is arranged on both sides of the greenhouse body, cold air and hot air are discharged and fed from both sides of the greenhouse body, so that the whole temperature rise process in the greenhouse body is more uniform. When the temperature in the shed body needs to be reduced, the water valve is opened, the sprayer sprays water into the shed body, and the temperature in the shed body is reduced by absorbing heat through water evaporation. Can realize the free regulation and control of the internal temperature of canopy rapidly, the effectual problem of having solved current big-arch shelter temperature control system inefficiency. The water valve is the solenoid valve for water, installs temperature sensor in the canopy body, still is provided with the PLC controller, and the PLC controller is connected with solenoid valve for water electricity, and the PLC controller is connected with temperature sensor electricity, and the PLC controller is connected with thermal cycle fan electricity, and the PLC controller is connected with the air inlet valve electricity, and the PLC controller is connected with the air-out valve electricity. Through this setting, the internal temperature situation of temperature sensor real-time detection canopy, feedback to the PLC controller, the PLC controller compares the temperature information that the feedback obtained according to the preset condition, when the internal temperature of canopy is too low when needing to heat up, PLC sends out the signal of telecommunication drive air inlet valve, the air outlet valve, the work of thermal cycle fan, realize the internal intensification of canopy, when the internal temperature of canopy is too high when needing the cooling, PLC sends out the signal of telecommunication drive water solenoid valve and opens, thereby start the spray thrower and spray water to the internal cooling of canopy, realize the internal cooling of canopy, thereby the internal temperature of more automatic regulation canopy. A plurality of hygrothermographs are arranged in the greenhouse body. Through this setting, the staff of being convenient for observes internal temperature of canopy and humidity. The sprayer is an atomization sprayer. Through this setting, atomizing spray thrower can effectual promotion spray coverage area, simultaneously economize on water more. And a monitoring camera is also arranged in the shed body. Through this setting, the staff's remote observation internal condition of canopy of being convenient for is convenient for in time handle some emergency.

Example 1

The utility model provides a big-arch shelter temperature control system, includes the canopy body, and canopy body top is provided with the sunshade layer, and the internal a plurality of seedling beds of growing of being provided with of canopy is provided with temperature control assembly outside the canopy body, temperature control assembly has seted up the new trend air intake including setting up the intensification room in canopy body both sides on the wall of intensification room both sides, installs the air inlet valve on the new trend air intake, and the indoor heat exchanger that installs of intensification has seted up new trend inlet channel on the wall of canopy body both sides, the canopy body passes through new trend inlet channel and intensification room intercommunication, installs thermal cycle fan in the new trend inlet channel, all seted up two air outlets on the wall of canopy body both sides, install the blast gate on the air outlet, the air outlet is located intensification room both sides wall outside, still installs a plurality of sprayers in the canopy body.

Through this setting, when needing internal intensification of canopy, open air inlet valve and air-out valve, outdoor new trend gets into the heating chamber through the air inlet valve, heat up indoor heat exchanger and heat the new trend, the new trend after the heating is under the effect of thermal cycle fan, it is internal through new trend inlet channel entering canopy, the internal air of canopy is outdoor through the air outlet discharge under the air-out valve effect, the internal cold air of continuous discharge of canopy with send into the hot-air, realize the internal whole intensification of canopy gradually. Because the greenhouse is arranged on both sides of the greenhouse body, cold air and hot air are discharged and fed from both sides of the greenhouse body, so that the whole temperature rise process in the greenhouse body is more uniform. When the temperature in the shed body needs to be reduced, the water valve is opened, the sprayer sprays water into the shed body, and the temperature in the shed body is reduced by absorbing heat through water evaporation. Can realize the free regulation and control of the internal temperature of canopy rapidly, the effectual problem of having solved current big-arch shelter temperature control system inefficiency.

Example 2

On the basis of embodiment 1, the water valve is the solenoid valve for water, installs temperature sensor in the canopy body, still is provided with the PLC controller, and the PLC controller is connected with solenoid valve for water electricity, and the PLC controller is connected with temperature sensor electricity, and the PLC controller is connected with thermal cycle fan electricity, and the PLC controller is connected with the intake valve electricity, and the PLC controller is connected with the air-out valve electricity.

Through this setting, the internal temperature situation of temperature sensor real-time detection canopy, feedback to the PLC controller, the PLC controller compares the temperature information that the feedback obtained according to the preset condition, when the internal temperature of canopy is too low when needing to heat up, PLC sends out the signal of telecommunication drive air inlet valve, the air outlet valve, the work of thermal cycle fan, realize the internal intensification of canopy, when the internal temperature of canopy is too high when needing the cooling, PLC sends out the signal of telecommunication drive water solenoid valve and opens, thereby start the spray thrower and spray water to the internal cooling of canopy, realize the internal cooling of canopy, thereby the internal temperature of more automatic regulation canopy.

Example 3

On the basis of the above embodiment, a plurality of hygrothermographs are arranged in the greenhouse body. Through this setting, the staff of being convenient for observes internal temperature of canopy and humidity.

Example 4

On the basis of the above embodiment, the sprayer is an atomizing sprayer. Through this setting, atomizing spray thrower can effectual promotion spray coverage area, simultaneously economize on water more.

Example 5

On the basis of the above embodiment, a monitoring camera is further installed in the shed body. Through this setting, the staff's remote observation internal condition of canopy of being convenient for is convenient for in time handle some emergency.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (5)

1. A greenhouse temperature control system is characterized by comprising a greenhouse body (1), wherein a sun shading layer is arranged on the top of the greenhouse body (1), a plurality of seedling raising beds are arranged in the greenhouse body (1), a temperature control assembly is arranged outside the greenhouse body (1), the temperature control assembly comprises heating chambers (2) arranged on two sides of the greenhouse body, fresh air inlets (3) are formed in two side walls of the heating chambers (2), air inlet valves are mounted on the fresh air inlets (3), heat exchangers (4) are mounted in the heating chambers (2), fresh air inlet channels (5) are formed in two side walls of the greenhouse body (1), the greenhouse body (1) is communicated with the heating chambers (2) through the fresh air inlet channels (5), heat circulation fans (6) are mounted in the fresh air inlet channels (5), two air outlets (7) are formed in two side walls of the greenhouse body (1), and air outlet valves are mounted on the air outlets (7), the air outlet (7) is positioned on the outer side of the two side walls of the greenhouse (2), the greenhouse body (1) is also internally provided with a plurality of sprayers, the sprayers are communicated with a water delivery pipe, the water delivery pipe is communicated with a water storage tank, and the water delivery pipe is provided with a water valve.

2. The greenhouse temperature control system as claimed in claim 1, wherein the water valve is a water solenoid valve, a temperature sensor is installed in the greenhouse body (1), and a PLC is further arranged, the PLC is electrically connected with the water solenoid valve, the PLC is electrically connected with the temperature sensor, the PLC is electrically connected with the heat circulating fan (6), the PLC is electrically connected with the air inlet valve, and the PLC is electrically connected with the air outlet valve.

3. The greenhouse temperature control system as claimed in claim 1, wherein a plurality of hygrothermographs are arranged in the greenhouse body (1).

4. The greenhouse temperature control system of claim 1, wherein the sprayer is an atomizing sprayer.

5. The greenhouse temperature control system as claimed in claim 1, wherein a monitoring camera is further installed in the greenhouse body (1).

Images