CN205962093U - Warmhouse booth heating system - Google Patents

Abstract

The utility model discloses a warmhouse booth heating system, including the solar heating supply device, bury heating device, heat pump host computer and controlling means, the solar heating supply device includes solar collector, and with the thermal storage tank of solar collector through being connected, the heat pump host computer passes through the pipeline to be connected with thermal storage tank, and the heat pump host computer still connects gradually circulating pump and fan coil through the pipeline, bury heating device and include and do not bury circulating pump, water knockout drum, floor heating coil and water collector with the heat pump host computer through the ground that the pipeline connected gradually, controlling means includes the controller, and the first sensor that sets up in the solar collector, the second sensor that sets up in the warmhouse booth, controller bury with first sensor, second sensor, circulating pump and ground respectively that the circulating pump is electric to be connected. The utility model discloses a have green, economic benefits is obvious, and the life cycle is long can all -weather heat retaining characteristics.

Description

Warmhouse booth heating system

Technical field

This utility model is related to agricultural facility technical field of heating, specifically warmhouse booth heating system.

Background technology

Warmhouse booth in agriculture field gives people to provide abundant vegetable, melon and fruit, and particularly temperature is cold in the winter time In the case of, plantation vegetables in improper season, melon and fruit, the life for people is provided and much facilitates, the vegetable product of abundant people's dining table Kind, improve the living standard of people, also increase the income of vegetable grower simultaneously.

Warmhouse booth is off-season cultivation vegetable, melon and fruit offer is possible, but such as runs into the natural disasters such as sudden low temperature, temperature The temperature of room booth does not reach the temperature needed for plant growing, arises that the situation that plant growing is slowly even freezed to death occurs, So the problem that the heat supply of warmhouse booth is warmhouse booth to be had to solve.

The heat supply of generally warmhouse booth uses the heat form such as hot-water boiler, radiator, but above-mentioned mode of heating efficiency ratio Relatively low, mostly it is used coal as fuel, such fuel was both not environmentally and uneconomical, increased the production of warmhouse booth plantation Cost.

How to be effectively reduced the overall cost of operation of warmhouse booth it is ensured that preference temperature in winter booth, simultaneously The ground temperature improving soil in booth is the problem of current urgent need to resolve.

Utility model content

Technical problem to be solved in the utility model is to provide a kind of environmental protection, remarkable in economical benefits, usage cycles The warmhouse booth heating system of the round-the-clock insulation of long simultaneously energy.

To achieve these goals, this utility model warmhouse booth heating system, including solar-heating device, buried confession Thermal, heat pump main frame and control device；

Described solar-heating device includes solar thermal collector, with solar thermal collector by the heat storage being connected, heat Pump main frame is connected with heat storage can by pipeline, and heat pump main frame is also sequentially connected circulating pump and fan coil by pipeline；

Buried circulating pump that described buried heating plant includes being sequentially connected by pipeline with heat pump main frame, water knockout drum, Warming plate pipe and water collector；

Described control device includes controller, setting in the first sensor of setting, warmhouse booth in solar thermal collector Second sensor, described controller electrically connected with first sensor, second sensor, circulating pump and buried circulating pump respectively.

Above-mentioned warmhouse booth heating system, wherein, described connection water collector pipeline is provided with expansion valve.

Above-mentioned warmhouse booth heating system, wherein, the pipeline of described connecting fan coil pipe is provided with expansion valve.

Above-mentioned warmhouse booth heating system, wherein, is provided with heat-insulation layer outside described heat storage can.

Above-mentioned warmhouse booth heating system, wherein, in described solar thermal collector, working medium is R134a.

Above-mentioned warmhouse booth heating system, wherein, described first sensor and second sensor are temperature sensor.

Above-mentioned warmhouse booth heating system, wherein, the area of described solar thermal collector and warmhouse booth is than for 1：7 to 1:9.

The beneficial effects of the utility model are：Environmental protection, economic benefit substantially, simultaneously can round-the-clock protect by usage cycles length Temperature.

Below in conjunction with the drawings and specific embodiments, this utility model is described in detail, but not as to this utility model Restriction.

Brief description

Fig. 1 is this utility model structural representation.

Wherein, reference

1st, solar thermal collector；2nd, heat storage can；3rd, heat pump main frame；4th, controller；5th, buried coil pipe；6th, circulating pump；7th, Bury circulating pump；8th, fan coil；9th, water knockout drum；10；Water collector, 11, expansion valve；12nd, first sensor；13rd, second sensor.

Specific embodiment

Below in conjunction with the accompanying drawings structural principle of the present utility model and operation principle are described in detail：As shown in figure 1, this A kind of utility model warmhouse booth heating system, including solar-heating device, buried heating plant, heat pump main frame 3 and control Device；

Solar-heating device includes solar thermal collector 1, the heat storage can 2 being connected by pipeline with solar thermal collector 1, Heat pump main frame 3 is connected with heat storage can 2 by pipeline, and heat pump main frame 3 is also sequentially connected circulating pump 6 and fan coil 8 by pipeline；

Buried circulating pump 7 that buried heating plant includes being sequentially connected by pipeline with heat pump main frame 3, water knockout drum 9, floor heating Coil pipe 5 and water collector 10；

Control device includes controller 4, setting in the first sensor 12 of setting, warmhouse booth in solar thermal collector 1 Second sensor 13, described controller 4 respectively with first sensor 12, second sensor 13, circulating pump 6 and buried circulating pump 7 electrical connections.

Connect on water collector 10 pipeline and be designed with expansion valve 11 on the pipeline of connecting fan coil pipe 8.

The pipeline that solar thermal collector 1 is connected with heat pump main frame 3 is a closed system, and in it, working medium is R134a, solution Determine solar thermal collector 1 preventing freeze in winter problem.

First sensor 12 and second sensor 13 are temperature sensor.

The area of solar thermal collector 1 and warmhouse booth is than for 1：7 to 1:9；So both ensure that suitable in warmhouse booth Preferably temperature can rationally control the operation cost of warmhouse booth again.

Heat storage can periphery is provided with heat-insulation layer, for reducing the loss of heat, improves the thermal efficiency.

Specific embodiment is as follows：In the case of sun abundance, become after the working medium absorption too heat energy in solar thermal collector 1 For gaseous working medium, become high pressure gaseous working medium after the compressor in heat pump main frame 3, then carry out heat friendship through heat pump main frame 3 Be condensed into liquid refrigerant after changing, liquid refrigerant through heat storage can 2 being back in solar thermal collector 1, solar thermal collector 1 and heat The working medium in closed conduct that pump main frame 3 connects and so on carries out this circulation work.

After carrying out heat exchange in heat pump main frame 3, in the closed conduct that is connected between heat pump main frame 3 and fan coil 8 Recirculated water be dispersed in warmhouse booth through 8 heat energy of fan coil in the presence of circulating pump 6, thus reach conducting heat Effect, improve the temperature in warmhouse booth.Meanwhile, open buried circulating pump 7, in heat pump main frame 3 with to be embedded in greenhouse big There is the recirculated water for heat exchange, in heat pump main frame 3 in the closed pipe system connecting between buried coil pipe 5 under soil in canopy The recirculated water inside having carried out heat exchange enters in buried coil pipe 5 through buried circulating pump 7, by thermal energy storage in buried coil pipe 5, It is then shut off buried circulating pump 7, after thermal energy storage is in underground pipe 5, may also function as lifting the effect of soil ground temperature.

When sunlight is inadequate or without sunlight in the case of, open buried circulating pump 7, now buried coil pipe 5 memory storage The recirculated water of heat energy carries out heat exchange in heat pump main frame 3, and open the circulation pump 6 simultaneously, in the buried coil pipe 5 after heat exchange In the recirculated water in circulating pump 6, the sealing tubing of fan coil 8 composition for the mixing water thermal energy exchange, after exchanging heat energy Recirculated water is finally dispersed in warmhouse booth through circulating pump 6 and fan coil 8, thus ensureing to irradiate insufficient situation in sunlight Under, maintain the preference temperature needed for warmhouse booth implants.

Solar thermal collector 1 produce be thermal energy storage in buried coil pipe 5, can be used in the case of sunlight is inadequate The heat energy extracting in buried coil pipe 5 uses for warmhouse booth, may also operate as improving the soil moisture simultaneously, is the life of root system of plant Length provides preference temperature.

This utility model is to realize the temperature in warmhouse booth is automatically controlled by controller 3, passes by first Sensor and second sensor 13 feedback to temperature, the compressor in real-time control heat pump main frame 3, circulating pump 6, buried circulating pump 7 opening or opening, thus implement to control the preference temperature needed for warmhouse booth implants.

This utility model applies also for cultivating (chicken), the heating of flowers isothermal chamber booth.

Certainly, this utility model also can have other various embodiments, spiritual and its substantive without departing substantially from this utility model In the case of, those of ordinary skill in the art work as and can make various corresponding changes and deformation according to this utility model, but these Corresponding change and deformation all should belong to the scope of the claims appended by this utility model.

Claims (7)

1. a kind of warmhouse booth heating system it is characterised in that：Including solar-heating device, buried heating plant, heat pump master Machine and control device；

Described solar-heating device includes solar thermal collector, the heat storage being connected by pipeline with solar thermal collector, heat Pump main frame is connected with heat storage can by pipeline, and heat pump main frame is also sequentially connected circulating pump and fan coil by pipeline；

Buried circulating pump that described buried heating plant includes being sequentially connected by pipeline with heat pump main frame, water knockout drum, warming plate Pipe and water collector；

Described control device includes controller, the of setting in the first sensor of setting, warmhouse booth in solar thermal collector Two sensors, described controller is electrically connected with first sensor, second sensor, circulating pump and buried circulating pump respectively.

2. warmhouse booth heating system as claimed in claim 1 it is characterised in that：Described connection water collector pipeline is provided with swollen Swollen valve.

3. warmhouse booth heating system as claimed in claim 1 it is characterised in that：Set on the pipeline of described connecting fan coil pipe There is expansion valve.

4. warmhouse booth heating system as claimed in claim 1 it is characterised in that：It is provided with heat-insulation layer outside described heat storage can.

5. warmhouse booth heating system as claimed in claim 1 it is characterised in that：In described solar thermal collector, working medium is R134a.

6. warmhouse booth heating system as claimed in claim 1 it is characterised in that：Described first sensor and second sensor It is temperature sensor.

7. warmhouse booth heating system as claimed in claim 1 it is characterised in that：Described solar thermal collector and warmhouse booth Area than for 1：7 to 1:9.