CN106577019A - Greenhouse heat energy comprehensive management method - Google Patents

Abstract

The invention relates to a greenhouse heat energy comprehensive management method. The method includes the following steps that (1), the outer side of a greenhouse is provided with light energy collection devices and a wind energy collection device; (2), an energy storage device is arranged under the ground of the greenhouse, and energy collected by the light energy collection devices and the wind energy collection device is converted into heat energy and conveyed to the energy storage device; (3), a temperature sensor is arranged in the greenhouse, the temperature is controlled timely through a temperature controller according to the temperature control requirement, then the energy storage device is switched on or switched off, heat is supplemented to the greenhouse, or the greenhouse is cooled; (4), extra heat collected by the light energy collection devices and the wind energy collection device is converted to be electric energy and uploaded to a power grid. According to the comprehensive management method, the temperature in the greenhouse can be controlled according to requirements, the collected extra heat can be converted and conveyed to the power grid, then a good growth environment is provided for growth of plants in the greenhouse, and finally planting efficiency is improved; and meanwhile, the produced extra electric energy can be furthermore used for supplementing the vegetable production cost.

Description

A kind of warmhouse booth heat energy integrated management approach

Technical field

The present invention relates to warmhouse booth production equipment technical field, specially a kind of warmhouse booth heat energy integrated management side Method.

Background technology

With the progress of science and technology, increasing grower is planted using warmhouse booth technology.Due to warmhouse booth Internal medium change is rapid, and after intensity of illumination is more than 20000lux, it is very fast that the temperature and humidity in warmhouse booth rises Speed.When indoor temperature more than 90%, temperature more than 37 DEG C when, indoor environment has been not suitable for plant growing, if done not in time Go out adjustment, the plant growing in booth will be unfavorable for, the death of plant will be caused when serious.Traditional warmhouse booth environment collection Devices collect data is single, the air themperature or air humidity data inside collection warmhouse booth that can only be single.Obviously pass The warmhouse booth environment collecting device of system can not meet the requirement of modern greenhouse agricultural, and be based on existing warmhouse booth ring The warmhouse booth indoor environmental condition control system of border acquisition system also just cannot carry out accurately controlling warmhouse booth.

The content of the invention

The technical problem to be solved in the present invention is to overcome the deficiencies in the prior art, there is provided a kind of warmhouse booth heat energy synthesis Management method, can as needed control the temperature in warmhouse booth, and convey after the unnecessary heat to collecting is changed To electrical network, as canopy implants growth provides good growing environment, finally improves plantation efficiency, meanwhile, the unnecessary electricity of production Can also be used to subsidize vegetable production cost.

To reach above-mentioned purpose, the technical solution used in the present invention is：A kind of warmhouse booth heat energy integrated management approach, its It is characterised by, comprises the following steps：

Step A, arranges light energy collection device and wind-energy collecting device on the outside of warmhouse booth；

Step B, in the subsurface of warmhouse booth energy storage device is arranged, and light energy collection device and wind-energy collecting device are collected Energy is converted into heat energy and is conveyed to energy storage device；

Step C, arranges temperature sensor in warmhouse booth, opened Jing after temperature controller is timely according to temperature control requirement or Energy storage device is closed, to warmhouse booth additional heat or cooling；

Step D, is converted to the waste heat that light energy collection device and wind-energy collecting device are collected electric energy and is uploaded to electrical network.

It is further improved as the present invention, entered by some circulation radiators between the energy storage device and warmhouse booth Row heat exchange, the arrangement density of the circulation radiator is。

Further improved as the present invention, the energy-accumulating medium of the energy storage device is pure water or ethylene glycol.

Further improved as the present invention, the light energy collection device includes the variable glass of light transmittance.

Due to the utilization of above-mentioned technical proposal, the present invention has compared with prior art following advantages：

A kind of warmhouse booth heat energy integrated management approach of the present invention program, can as needed control the temperature in warmhouse booth Degree, and electrical network is delivered to after the unnecessary heat to collecting is changed, as canopy implants growth provides good growth ring Border, finally improves plantation efficiency, meanwhile, the unnecessary electric energy of production can also be used to subsidize vegetable production cost.

Description of the drawings

Technical solution of the present invention is described further below in conjunction with the accompanying drawings：

Accompanying drawing 1 is a kind of structural representation of warmhouse booth heat energy integrated management approach of the invention；

Accompanying drawing 2 is a kind of workflow schematic diagram of warmhouse booth heat energy integrated management approach of the invention.

In figure：1st, wind-energy collecting device；2nd, light energy collection device；3rd, warmhouse booth；4th, ground；5th, energy-accumulating medium；6th, follow Ring radiator；7th, energy storage device.

Specific embodiment

Below in conjunction with the accompanying drawings and specific embodiment the present invention is described in further detail.

A kind of warmhouse booth heat energy integrated management approach as shown in Figure 1 to Figure 2, energy storage device 7 is located at subsurface, with ground The distance of table is 50mm or so, it is possible to be adjusted according to different kind plants, it is ensured that do not interfere with the growth of plant root whisker.

Wind-energy collecting device 1 is located at the top of warmhouse booth 3, it is also possible to be fixed on the side of warmhouse booth 3.

Light energy collection device 2 is located at the outside of warmhouse booth 3, including the variable glass of light transmittance and solar panel, The light transmittance of glass can be as needed adjusted, and then adjusts the temperature of warmhouse booth 3.

Heat exchange is carried out by some circulation radiators 6 between energy storage device 7 and warmhouse booth 3, circulation radiator 6 Arrange that density is, prevent local temperature exception.

Further, comprise the following steps：

Step A, in the outside of warmhouse booth 3 light energy collection device 2 and wind-energy collecting device 1 are arranged；

Step B, in the subsurface of warmhouse booth 3 energy storage device 7 is arranged, and light energy collection device 2 and wind-energy collecting device 1 are collected To energy be converted into heat energy and be conveyed to energy storage device 7；

Step C, arranges temperature sensor in warmhouse booth 3, is opened Jing after temperature controller is timely according to temperature control requirement Or energy storage device 7 is closed, to the additional heat of warmhouse booth 3 or cooling；

Step D, is converted to the waste heat that light energy collection device 2 and wind-energy collecting device 1 are collected electric energy and is uploaded to electrical network.

The above is only the concrete application example of the present invention, protection scope of the present invention is not limited in any way.All employings Equivalents or equivalence replacement and the technical scheme that formed, all fall within rights protection scope of the present invention.

Claims (4)

1. a kind of warmhouse booth heat energy integrated management approach, it is characterised in that comprise the following steps：

Step A, arranges light energy collection device and wind-energy collecting device on the outside of warmhouse booth；

Step B, in the subsurface of warmhouse booth energy storage device is arranged, and light energy collection device and wind-energy collecting device are collected Energy is converted into heat energy and is conveyed to energy storage device；

Step C, arranges temperature sensor in warmhouse booth, opened Jing after temperature controller is timely according to temperature control requirement or Energy storage device is closed, to warmhouse booth additional heat or cooling；

Step D, is converted to the waste heat that light energy collection device and wind-energy collecting device are collected electric energy and is uploaded to electrical network.

2. warmhouse booth heat energy integrated management approach according to claim 1, it is characterised in that：The energy storage device and temperature Heat exchange is carried out by some circulation radiators between the booth of room, the arrangement density of the circulation radiator is。

3. warmhouse booth heat energy integrated management approach according to claim 2, it is characterised in that：The storage of the energy storage device Energy medium is pure water or ethylene glycol.

4. warmhouse booth heat energy integrated management approach according to claim 1, it is characterised in that：The light energy collection device Including the variable glass of light transmittance.