CN102715044A

CN102715044A - Greenhouse energy-saving auxiliary temperature control system

Info

Publication number: CN102715044A
Application number: CN2012102259416A
Authority: CN
Inventors: 李泮禄
Original assignee: Individual
Current assignee: Individual
Priority date: 2012-07-03
Filing date: 2012-07-03
Publication date: 2012-10-10

Abstract

The invention discloses a greenhouse energy-saving auxiliary temperature control system, which comprises a water supply well, a main water supply pipe, heat exchange pipes, a main water return pipe and a water return well and is characterized in that the main water supply pipe and the main water return pipe are in parallel arrangement, the heat exchange pipes are vertically and uniformly connected with the main water supply pipe and the main water return pipe, the two ends of each heat exchange pipe are respectively connected with the main water return pipe and the main water supply pipe, the main water supply pipe is connected to a submersible pump positioned in the water supply well, and the main water return pipe is connected to the water return well. When the greenhouse energy-saving auxiliary temperature control system is adopted, the temperature in a greenhouse can be more efficiently and accurately regulated, the system utilizes the temperature differences between the underground water and the natural temperature for raising or lowering the temperature in the greenhouse, the great nonregenerative resource waste can be prevented, and the effect of protecting the environment can also be reached, so the temperature regulating cost of the greenhouse is further reduced, good economic benefits can be generated, in addition, the structure is simple, and the popularization and the use are convenient.

Description

Greenhouse energy saving is assisted temperature control system

Technical field

The present invention relates to a kind of system that in green house, is used for auxiliary ascending, descending temperature, particularly a kind of greenhouse energy saving is assisted temperature control system.

Background technology

Along with the development of economic society, the life requirement that people are growing, be used to provide various anti-season plant or the green house of animal become a kind of infrastructure of being badly in need of developing.Because the natural temperature of spring, summer, autumn and winter changes greatly, adopt variety of way to keep the temperature constant in the green house to become a new technical field, and in continuous development.

At present to carrying out thermoregulator present situation in the greenhouse:

1, winter, (particularly northern area) green house was if keep uniform temperature, then must use boiler to heat, and this method is bigger to the consumption rate of the energy; Can only reduce temperature summer through ventilation or Water curtain wall, but effect is not satisfactory.

2, most green houses can only carry out the adjustment in the booth and can't carry out the adjustment of soil, particularly can't reach crop root in the winter time and normally absorb water, inhale fertile minimum temperature (12 degree).

3, the most uses of existing green house heating is boiler, be that coal-burning boiler or oil burning boiler all not only can cause environmental pollution, and cost is very high.

Along with the construction of resource-conserving and friendly environment society, these traditional greenhouse temperature regulative modes are demanded the new technique mode urgently and are substituted, and the greenhouse temperature regulation technology of energy-saving and environmental protecting becomes the focus of social concerns.

Summary of the invention

To the shortcoming and defect of above-mentioned green house temperature regulation mechanism, provide a kind of greenhouse energy saving to assist temperature control system now, utilize phreatic cycle heat exchange to assist adjustment in the green house.

The technical scheme that the present invention solves its technical problem employing is to comprise water supply well, main-supply, heat exchanger tube, main water return tube and back water well.Main-supply and main water return tube are arranged in parallel; Heat exchanger tube evenly distributes with main-supply is vertical with main water return tube; The two ends of every heat exchanger tube connect main water return tube and main-supply respectively, and main-supply is connected to the immersible pump that is arranged in water supply well, and main water return tube is connected to back water well.This kind pipeline layout guarantees that the distance no matter current through which root pipeline are flowed through all equates from the water supply well to the back water well; The spacing distance of every heat exchanger tube is 20-30cm; Heat exchanger tube is PE-X, PE-RT or PD pipe, and the power of this system drive flow comes from the immersible pump that is positioned in the water supply well, the face of land of the line distribution of this system in the greenhouse.

Operation principle of the present invention is to utilize the temperature difference between underground water and the ground natural temperature to come the temperature in the auxiliary adjustment green house.Be specially; Phreatic temperature is more stable throughout the year, is generally the 14-18 degree, and on the ground the natural temperature four seasons change greatly: for example winter, natural temperature was for-10 when spending; Natural temperature in the green house is 0 degree, adopts this auxiliary temperature control system can make temperature raising 8-10 degree in the greenhouse; Temperature is higher than extraneous natural temperature 10 degree in the summer greenhouse, and the highest can reaching more than 50 degree adopts this auxiliary temperature control system can make temperature decline 5-10 degree in the greenhouse.

The beneficial effect that the present invention produces is to adopt this greenhouse energy saving to assist temperature control system, more the temperature in the adjusting greenhouse of efficiently and accurately; This system utilizes the temperature difference of underground water and natural temperature to improve or reduce the temperature in the greenhouse; Both can prevent that the waste of a large amount of non-renewable natural resources from can also reach the effect of protection environment, the cost of the adjusting temperature of green house is further descended, can produce good economic benefit; And simple in structure, be convenient to promote the use of.

Description of drawings

Be elaborated below in conjunction with accompanying drawing and embodiment:

Fig. 1 is a structure chart of the present invention

Among the figure, 1, water supply well 2, main-supply 3, heat exchanger tube 4, main water return tube 5, back water well

Embodiment

As shown in the figure, the present invention is the auxiliary temperature control system of a kind of greenhouse energy saving.Comprise water supply well 1, main-supply 2, heat exchanger tube 3, main water return tube 4 and back water well 5.Main-supply 2 is arranged in parallel with main water return tube 4; Heat exchanger tube 3 and main-supply 2 and main water return tube 4 vertical distribution; The two ends of every heat exchanger tube 3 connect main water return tube 4 and main-supply 2 respectively, and main-supply 2 is connected to the immersible pump that is arranged in water supply well 1, and main water return tube 4 is connected to back water well 5; This kind pipeline layout has guaranteed that 5 distances of no matter through which root pipeline being flowed through all equate current from water supply well 1 to back water well; The spacing distance of every heat exchanger tube 3 is 20-30cm; Heat exchanger tube 3 can be PE-X, PE-RT or PD pipe, and the face of land of the line distribution of this system in the greenhouse is used for temperature in the auxiliary adjustment greenhouse.

The course of work of the present invention does; Immersible pump in the water supply well 1 is drawn into main-supply 2 to underground water; Thereby get into each the root heat exchanger tube 3 that is connected to main-supply 2; Through heat exchanger tube 3 entering main water return tubes 4, the heat transfer process of completion and room air in the process of heat exchanger tube 3 of flowing through rises indoor temperature or decline then; Get into back water wells 5 through the water of heat exchange through main water return tube 4, so reciprocal said process reaches the purpose of the temperature auxiliary adjustment greenhouse in, with energy savings, protection environment, minimizing cost.

Claims

1. greenhouse energy saving is assisted temperature control system; Comprise water supply well, main-supply, heat exchanger tube, main water return tube and back water well, it is characterized in that main-supply and main water return tube are arranged in parallel; Heat exchanger tube evenly is connected with main-supply and main water return tube are vertical; The two ends of every heat exchanger tube connect main water return tube and main-supply respectively, and main-supply is connected to the immersible pump that is arranged in water supply well, and main water return tube is connected to back water well.

2. greenhouse energy saving according to claim 1 is assisted temperature control system, it is characterized in that, the distance no matter its current through which root pipeline are flowed through from the water supply well to the back water well all equates.

3. greenhouse energy saving according to claim 1 is assisted temperature control system, it is characterized in that, the spacing distance of every heat exchanger tube is 20-30cm.

4. greenhouse energy saving according to claim 1 is assisted temperature control system, it is characterized in that, heat exchanger tube is PE-X, PE-RT or PD pipe.

5. greenhouse energy saving according to claim 1 is assisted temperature control system, it is characterized in that the face of land of the line distribution of this system in the greenhouse.