CN204217577U

CN204217577U - Greenhouse solar anti-season heat accumulation, heat supply in winter device

Info

Publication number: CN204217577U
Application number: CN201420682740.3U
Authority: CN
Inventors: 蒋志新; 王作亮
Original assignee: China Construction Seventh Engineering Division Corp Ltd
Current assignee: China Construction Seventh Engineering Division Corp Ltd
Priority date: 2014-11-16
Filing date: 2014-11-16
Publication date: 2015-03-25
Anticipated expiration: 2024-11-16

Abstract

The utility model discloses a kind of greenhouse solar anti-season heat accumulation, heat supply in winter device, comprise PLC, be arranged on the temperature inductor connected by PLC in greenhouse (1); Solar bracket (4) disposed in the outdoor, and be arranged on the solar energy heating plate (3) on solar bracket (4), solar energy heating plate is connected with the heat storage tank (8) arranged in the soil of below, greenhouse (1) by pipeline; Accumulation of heat liquid is full of in described heat storage tank (8), coiling simultaneously has accumulation of heat liquid carrier pipe (9), described accumulation of heat liquid carrier pipe (9) imports in radiating tube (11) spill the left end earth's surface in greenhouse (1) after the soil of coiling greenhouse (1) below after, is connected from piercing underground after the other end of radiating tube (11) gets out with heat storage tank (8).The utility model structure is simple, easy for operation, and intelligence degree is higher, well make use of the clean sunshine energy, avoid because heat supply and to the expense waste of renewable resources and the pollution to air.

Description

Greenhouse solar anti-season heat accumulation, heat supply in winter device

Technical field

The utility model relates to agriculture vegetables greenhouse cultivation field, is specially a kind of greenhouse solar anti-season heat accumulation, heat supply in winter device.

Background technology

Along with the development of society, improving constantly of people's living standard, the especially popularization and application of heliotechnics, the mode making people obtain the energy is greatly improved again, and clean environmentally safe.

Traditional greenhouse planting house is when winter; the Plants in booth is allowed daytime to absorb illumination fully; obtain warm simultaneously; after the sun sets; still higher temperature is kept in order to the temperature in greenhouse can be allowed; be unlikely to the rapid drawdown as outdoor temperature of coming along with the curtain of night; usual meeting is lit a fire stove or for heating installation in greenhouse; so not only can produce larger pollution to air; if electrically heated words; also can cause larger expending to electric energy, greatly reduce the net profit income that Plants is final.

Therefore, how can be good at utilizing free solar illuminating, and the temperature that time temperature is higher by day, collection illumination produces, time lower to warm indoor temperature, play back in greenhouse from the temperature in the device of savings solar irradiation temperature, improving the air themperature in greenhouse, has been a good problem to study.

Summary of the invention

In order to overcome above-mentioned deficiency of the prior art, it is simple that the utility model provides a kind of structure, easy for operation, and can be good at saving the temperature that produces of solar illuminating, carry out greenhouse solar anti-season heat accumulation, the heat supply in winter device of transfer heat as required at any time.

The purpose of this utility model is achieved in that

Greenhouse solar anti-season heat accumulation, heat supply in winter device, comprise PLC, is arranged on the temperature inductor connected by PLC in greenhouse 1; Solar bracket 4 disposed in the outdoor, and be arranged on the solar energy heating plate 3 on solar bracket 4, solar energy heating plate is connected with the heat storage tank 8 arranged below greenhouse 1 in soil by pipeline; Accumulation of heat liquid is full of in described heat storage tank 8, coiling simultaneously has accumulation of heat liquid carrier pipe 9, described accumulation of heat liquid carrier pipe 9 imports in radiating tube 11 spill the left end earth's surface in greenhouse 1 after the soil below coiling greenhouse 1 after, is connected from piercing underground after the other end of radiating tube 11 gets out with heat storage tank 8;

Described radiating tube 11 is coiled on the earth's surface in greenhouse, and the left end of radiating tube 11 is provided with fan blower 12, radiating tube body is provided with multiple air dispelling hole 13; Right-hand member and the interior radiating tube 11 worn in its body of described radiating tube are tightly connected;

Described radiating tube 11 is provided with the siphon control valve pump 10 controlled by PLC;

The inlet of the top of the heating fluid case at described solar energy heating plate 3 back side is connected with feed tube 2, connects heat storage tank 8 by feed tube 2; Described feed tube 2 is provided with and controls its suction pumps 6 controlled by PLC; The liquid outlet of the below of the heating fluid case at solar energy heating plate 3 back side connects drain pipe 5, and drain pipe 5 connects heat storage tank 8;

Described drain pipe 5 is provided with the control valve 7 received PLC and control.

positive beneficial effect:the utility model structure is simple, easy for operation, and intelligence degree is higher, when daytime, the high temperature that luminous energy produces is absorbed in heat accumulation liquid by accumulation of heat liquid large for amount of stored heat under the heating of solar energy equipment, be then delivered in the heat storage tank in the soil below greenhouse.When the temperature in evening greenhouse drop to need to heat time, PLC opens the siphon control valve pump be positioned on accumulation of heat liquid carrier pipe, the high-temperature heat accumulation liquid be stored in heat storage tank is delivered in greenhouse through accumulation of heat liquid carrier pipe, first accumulation of heat liquid carrier pipe heated the Soil Surrounding of its process being positioned at greenhouse bottom, secondly arrive after in greenhouse, in airtight radiating tube, be back in heat storage tank by after the air heat be coiled in the radiating tube on temperature earth's surface; In order to strengthen distributing of hot-air in radiating tube, radiating tube being provided with air dispelling hole and fan blower, accelerating the quick flowing of hot-air.The utility model well make use of the clean sunshine energy, avoid because heat supply and to the expense waste of renewable resources and the pollution to air.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model;

In figure be: greenhouse 1, feed tube 2, solar energy heating plate 3, solar bracket 4, drain pipe 5, suction pumps 6, control valve 7, heat storage tank 8, accumulation of heat liquid carrier pipe 9, siphon control valve pump 10, radiating tube 11, fan blower 12, air dispelling hole 13.

Embodiment

Below in conjunction with accompanying drawing, the utility model is described further:

As shown in Figure 1, greenhouse solar anti-season heat accumulation, heat supply in winter device, comprise PLC, is arranged on the temperature inductor connected by PLC in greenhouse 1; Solar bracket 4 disposed in the outdoor, and be arranged on the solar energy heating plate 3 on solar bracket 4, solar energy heating plate is connected with the heat storage tank 8 arranged below greenhouse 1 in soil by pipeline; Accumulation of heat liquid is full of in described heat storage tank 8, coiling simultaneously has accumulation of heat liquid carrier pipe 9, described accumulation of heat liquid carrier pipe 9 imports in radiating tube 11 spill the left end earth's surface in greenhouse 1 after the soil below coiling greenhouse 1 after, is connected from piercing underground after the other end of radiating tube 11 gets out with heat storage tank 8;

During use, when Cold Winter has sunlight, daytime, temperature canopy was under the irradiation of sunshine, and temperature is also relatively be applicable to temperature to produce, and now under the control of PLC, siphon control valve pump is in closed condition; PLC opens the suction pumps be positioned on feed tube, accumulation of heat liquid in heat storage tank is heated in the heating fluid case that inlet enters solar panels rear, after being heated to preset temperature, PLC opening controlling valve, accumulation of heat liquid after heating is back in heat storage tank through liquid outlet and drain pipe, anyway heat cycles, final plant closure suction pumps and control valve.When going down the hill along with the sun, the reduction of outdoor temperature, when the temperature inductor being positioned at greenhouse detects the temperature in greenhouse lower than setting value, can by information feed back to PLC, now PLC opens siphon control valve pump, the high-temperature heat accumulation liquid being positioned at heat storage tank is spilt earth's surface after the heating of accumulation of heat liquid carrier pipe is positioned at the soil of underground, greenhouse, and then enter in the radiating tube that is coiled on greenhouse surface, be back in heat storage tank after temperature in radiating tube airtight for one end is heated rapidly, and by the high temperature air in the radiating tube that heats under the advertising of fan blower, take a walk in warm through being arranged on air dispelling hole on radiating tube, by the air heat of greenhouse inner sealing to design temperature, repeatedly carry out, until after being warmed to preset temperature, the temperature inductor being positioned at greenhouse by information feed back to PLC, then siphon control valve pump is closed.

The utility model structure is simple, easy for operation, and intelligence degree is higher, when daytime, the high temperature that luminous energy produces is absorbed in heat accumulation liquid by accumulation of heat liquid large for amount of stored heat under the heating of solar energy equipment, be then delivered in the heat storage tank in the soil below greenhouse.When the temperature in evening greenhouse drop to need to heat time, PLC opens the siphon control valve pump be positioned on accumulation of heat liquid carrier pipe, the high-temperature heat accumulation liquid be stored in heat storage tank is delivered in greenhouse through accumulation of heat liquid carrier pipe, first accumulation of heat liquid carrier pipe heated the Soil Surrounding of its process being positioned at greenhouse bottom, secondly arrive after in greenhouse, in airtight radiating tube, be back in heat storage tank by after the air heat be coiled in the radiating tube on temperature earth's surface; In order to strengthen distributing of hot-air in radiating tube, radiating tube being provided with air dispelling hole and fan blower, accelerating the quick flowing of hot-air.The utility model well make use of the clean sunshine energy, avoid because heat supply and to the expense waste of renewable resources and the pollution to air.

The above is preferred embodiment of the present utility model; it should be pointed out that for those skilled in the art, under the prerequisite not departing from the utility model principle; can also make some improvements and modifications, these improvements and modifications are also considered as protection domain of the present utility model.

Claims

1. greenhouse solar anti-season heat accumulation, heat supply in winter device, is characterized in that: comprise PLC, is arranged on the temperature inductor connected by PLC in greenhouse (1); Solar bracket (4) disposed in the outdoor, and be arranged on the solar energy heating plate (3) on solar bracket (4), solar energy heating plate is connected with the heat storage tank (8) arranged in the soil of below, greenhouse (1) by pipeline; Accumulation of heat liquid is full of in described heat storage tank (8), coiling simultaneously has accumulation of heat liquid carrier pipe (9), described accumulation of heat liquid carrier pipe (9) imports in radiating tube (11) spill the left end earth's surface in greenhouse (1) after the soil of coiling greenhouse (1) below after, is connected from piercing underground after the other end of radiating tube (11) gets out with heat storage tank (8).

2. greenhouse solar anti-season heat accumulation according to claim 1, heat supply in winter device, it is characterized in that: described radiating tube (11) is coiled on the earth's surface in greenhouse, the left end of radiating tube (11) is provided with fan blower (12), radiating tube body is provided with multiple air dispelling hole (13); Right-hand member and the interior radiating tube (11) worn in its body of described radiating tube are tightly connected.

3. greenhouse solar anti-season heat accumulation according to claim 1, heat supply in winter device, is characterized in that: described radiating tube (11) is provided with the siphon control valve pump (10) controlled by PLC.

4. greenhouse solar anti-season heat accumulation according to claim 1, heat supply in winter device, it is characterized in that: the inlet of the top of the heating fluid case at described solar energy heating plate (3) back side is connected with feed tube (2), connect heat storage tank (8) by feed tube (2); Described feed tube (2) is provided with and controls its suction pumps (6) controlled by PLC; The liquid outlet of the below of the heating fluid case at solar energy heating plate (3) back side connects drain pipe (5), and drain pipe (5) connects heat storage tank (8).

5. greenhouse solar anti-season heat accumulation according to claim 4, heat supply in winter device, is characterized in that: described drain pipe (5) is provided with the control valve (7) received PLC and control.