CN209403176U - A kind of heliogreenhouse ground source accumulation of heat temperature-increasing system - Google Patents

Abstract

A kind of the utility model discloses heliogreenhouse source accumulation of heat temperature-increasing system, including indoor greenhouse, air inlet, blower, intake stack, wind pipe, air outlet, blast pipe fixing piece, blast pipe base portion discharge pipe and soil；The intake stack, wind pipe, blast pipe base portion discharge pipe are placed under soil plane；The wind pipe is the multiple pipelines extended to soil and is serially connected, and the caliber of the intake stack is less than the caliber of wind pipe, and the intake stack is built in wind pipe and corresponding with the position that wind pipe is serially connected is serially connected.Solve the problems, such as that brick wall, assembled daylight greenhouse accumulation of heat heat, the system Construction expense is low, operating cost is low, construction is rapid, the utility model can be with the temperature environment of cheap cost-effective improvement brick wall, assembled daylight greenhouse, it is more practical and convenient needed for guaranteeing that production is normally cultivated in hypothermic phase greenhouse.

Description

A kind of heliogreenhouse ground source accumulation of heat temperature-increasing system

Technical field

The utility model belongs to heliogreenhouse field, and in particular to the ground source accumulation of heat temperature-increasing system in a kind of heliogreenhouse.

Background technique

Heliogreenhouse is the abbreviation of energy saving sunlight greenhouse, also known as brooder, by two side gables, maintenance back wall, support frame And covering material composition.Heliogreenhouse as China original creation horticultural greenhouse types, greatly improve living standards of the people and Agriculture production benefit.It is got in current practice using cob wall heliogreenhouse, brick wall heliogreenhouse, assembled daylight greenhouse as the north The main Types of winter production.But the heliogreenhouse of these types have the shortcomings that it is respective, such as: cob wall heliogreenhouse accumulation of heat protect Warm nature is good, but land utilization ratio is low；Brick wall heliogreenhouse high construction cost, heat storing and heat preserving performance are general；Assembled daylight greenhouse Although constructing, quick, at low cost, land utilization ratio is high, and thermal isolation and heat storage performance needs additional facilities to equip, and is not very practical, behaviour Make not easy.

In practical applications, in order to improve brick wall, assembled daylight greenhouse thermal environment, exploration heliogreenhouse master, which passively stores, is put Hot systems have become industrial hot spot.Currently, reported or the storage thermal desorption system that uses in production there are many, e.g., phase transformation bulk, Fire-pit and underground heating exchange system, steel pipe thermal-arrest temperature-increasing system, water curtain wall active hold over system, solar energy heating Initiative heating system System, water bag active accumulation of heat temperature-increasing system, heat pump accumulation of heat temperature-increasing system etc..

Above to store in thermal desorption system, phase transformation bulk belongs to passive hold over system, is influenced by weather, and effect is used under the conditions of the cloudy day Fruit is bad, and implementation cost is high；Other systems, which belong to, actively stores thermal desorption system, but there are implementation cost height, operating cost are high The problems such as.Therefore, active hold over system at low cost, effect is good is for improving brick wall, assembled daylight greenhouse promotes and applies has It is significant.

Utility model content

The purpose of this utility model is to provide kind of construction accumulation of heat temperature-increasing systems in ground source rapid, at low cost, on solving State the high problem of the ineffective and implementation cost proposed in background technique.

To achieve the above object, the utility model provides the following technical solutions: a kind of heliogreenhouse source accumulation of heat heat and be System, including indoor greenhouse, air inlet, blower, intake stack, wind pipe, air outlet, blast pipe fixing piece, blast pipe base portion Discharge pipe and soil；The intake stack, wind pipe, blast pipe base portion discharge pipe are placed under soil plane；Described goes out Air piping is the multiple pipelines extended to soil and is serially connected that the caliber of the intake stack is less than the pipe of wind pipe Diameter, the intake stack are built in wind pipe and corresponding with the position that wind pipe is serially connected are serially connected；It is described The setting of intake stack one end forms air inlet in soil plane, and the base portion shape of discharge pipe is arranged in the other end of the air inlet At the blast pipe base portion discharge pipe to soil outlet air；The lower end of the air inlet is provided with blower, and the blower is circumscribed with One probe of differential temperature controller, the differential temperature controller is fixed in greenhouse air, another probe is fixed on pipeline depth The position at place.

The differential temperature controller setting temperature difference is >=3 DEG C, when in air themperature and accumulation of heat pipeline surface temperature >=3 DEG C When, the heliogreenhouse source accumulation of heat temperature-increasing system automatically begin to run.

Preferably, the intake stack is fixed on wind pipe using blast pipe fixing piece.

Preferably, the blower is pipeline fan.

Preferably, the blower is axial flow blower.

Preferably, the blast pipe fixing piece is ventilation structure.

Compared with prior art, the utility model has the beneficial effects that carrying out accumulation of heat using deep soil, night carries out empty Gas heats；High temperature air passes through heat exchanging pipe in daytime room, air cooling-down may be implemented, and heat can be effectively stored in depth In layer soil；Night indoor low temperature air is heated by heat exchanging pipe realization, and indoor air temperature can be improved.Solves brick Wall, assembled daylight greenhouse accumulation of heat heat problem, and the system Construction expense is low, operating cost is low, construction is rapid, the utility model It can guarantee that hypothermic phase greenhouse is normally cultivated with the temperature environment of cheap cost-effective improvement brick wall, assembled daylight greenhouse It is more practical and convenient needed for production.

Detailed description of the invention

Fig. 1 is the accumulation of heat temperature-increasing system structural schematic diagram of the utility model；

Fig. 2 is the accumulation of heat temperature-increasing system cross-sectional view of the structure of the utility model；

Fig. 3 is the blast pipe fixing piece schematic diagram of the utility model.

In figure: 1, air inlet；2, blower；3, intake stack；4, wind pipe；5, air outlet；6, blast pipe fixing piece； 7, blast pipe base portion discharge pipe；8, soil；9, indoor greenhouse.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work Every other embodiment obtained, fall within the protection scope of the utility model.

Fig. 1-3 is please referred to, the utility model provides a kind of technical solution: a kind of heliogreenhouse ground source accumulation of heat temperature-increasing system, Including indoor greenhouse 9, air inlet 1, blower 2, intake stack 3, wind pipe 4, air outlet 5, blast pipe fixing piece 6, blast pipe Base portion discharge pipe 7 and soil 8；The intake stack 3, wind pipe 4, blast pipe base portion discharge pipe 7 are placed in 8 plane of soil Under；The wind pipe 4 is the multiple pipelines extended to soil and is serially connected that the caliber of the intake stack 3 is less than The caliber of wind pipe 4, the intake stack 3 are built in the position being serially connected in wind pipe 4 and with wind pipe 4 Correspondence is serially connected；The setting of described 3 one end of intake stack forms air inlet in 8 plane of soil, the intake stack 3 it is another The base portion that wind pipe 4 is arranged in end forms the blast pipe base portion discharge pipe 7 to soil outlet air；The lower end of the air inlet 1 It is provided with blower 2, the blower 2 is circumscribed with differential temperature controller, and a probe of the differential temperature controller is fixed on greenhouse In air, another, which is popped one's head in, is fixed on the position of pipeline depths.The differential temperature controller setting temperature difference is >=3 DEG C, when in sky Temperature degree and when accumulation of heat pipeline surface temperature >=3 DEG C, the heliogreenhouse source accumulation of heat temperature-increasing system automatically begin to run.Institute The intake stack 3 stated is fixed on wind pipe 4 using blast pipe fixing piece 6.

In the present embodiment, the ground source accumulation of heat temperature-increasing system, two probes of differential temperature controller are automatic to calculate temperature, When air themperature differs >=3 DEG C with accumulation of heat pipeline surface temperature, differential temperature controller automatically controls this system and brings into operation.When white When temperature is low in the high soil of its room temperature and the temperature difference >=3 DEG C, indoor high temperature air is blasted blast pipe by blower, is then led to It crosses blast pipe base portion discharge pipe to exchange to high temperature air in soil, be flowed into air again after carrying out underground heat exchange, come with this It realizes air cooling-down, and heat can be effectively stored in deep soil.When night, due to temperature in thermal energy exchange soil on daytime It is higher, and when room temperature is lower and the temperature difference >=3 DEG C, which starts automatically heats operation, and Cryogenic air is handed over through overheat It changes pipeline realization to heat, indoor air temperature is improved with this.

In the present embodiment, it is preferred that the blower 2 is pipeline fan.

In the present embodiment, it is preferred that the blower 2 is axial flow blower.

In the present embodiment, it is preferred that the blast pipe fixing piece 6 is ventilation structure.Accumulation of heat is carried out using deep soil, Night carries out air temperature raising；High temperature air passes through heat exchanging pipe in daytime room, air cooling-down may be implemented, and heat can be had Effect is stored in deep soil；Night indoor low temperature air is heated by heat exchanging pipe realization, and Interior Space temperature can be improved Degree.Solve the problems, such as that brick wall, assembled daylight greenhouse accumulation of heat heat, the system Construction expense is low, operating cost is low, construction is fast Speed, the utility model can guarantee hypothermic phase with the temperature environment of cheap cost-effective improvement brick wall, assembled daylight greenhouse It is more practical and convenient needed for production is normally cultivated in greenhouse.

While there has been shown and described that the embodiments of the present invention, for the ordinary skill in the art, It is understood that these embodiments can be carried out with a variety of variations in the case where not departing from the principles of the present invention and spirit, repaired Change, replacement and variant, the scope of the utility model is defined by the appended claims and the equivalents thereof.

Claims (5)

1. a kind of heliogreenhouse ground source accumulation of heat temperature-increasing system, including indoor greenhouse (9), air inlet (1), blower (2), intake stack (3), wind pipe (4), air outlet (5), blast pipe fixing piece (6), blast pipe base portion discharge pipe (7) and soil (8)；Its feature It is, the intake stack (3), wind pipe (4), blast pipe base portion discharge pipe (7) are placed under soil (8) plane；It is described Wind pipe (4) be the multiple pipelines extended to soil and be serially connected that the caliber of the intake stack (3) is less than outlet air The caliber of pipeline (4), the intake stack (3) are built in the position being serially connected in wind pipe (4) and with wind pipe (4) Correspondence is set to be serially connected；Intake stack (3) one end setting forms air inlet, the intake stack in soil (8) plane (3) other end setting forms the blast pipe base portion discharge pipe (7) to soil outlet air in the base portion of wind pipe (4)；Described The lower end of air inlet (1) is provided with blower (2), and the blower (2) is circumscribed with differential temperature controller, the differential temperature controller One probe is fixed in greenhouse air, another, which is popped one's head in, is fixed on the position of pipeline depths；The differential temperature controller setting The temperature difference is >=3 DEG C, when in air themperature and when accumulation of heat pipeline surface temperature >=3 DEG C, the heliogreenhouse source accumulation of heat heat System automatically begins to run.

2. heliogreenhouse according to claim 1 ground source accumulation of heat temperature-increasing system, which is characterized in that the intake stack (3) it is fixed on wind pipe (4) using blast pipe fixing piece (6).

3. heliogreenhouse according to claim 1 ground source accumulation of heat temperature-increasing system, which is characterized in that the blower (2) is Pipeline fan.

4. heliogreenhouse according to claim 2 ground source accumulation of heat temperature-increasing system, which is characterized in that the blower (2) is Axial flow blower.

5. the ground of heliogreenhouse described in -4 any claims source accumulation of heat temperature-increasing system according to claim 1, which is characterized in that institute The blast pipe fixing piece (6) stated is ventilation structure.