CN205830555U - Wall after a kind of heliogreenhouse liquid circulation heat accumulating type - Google Patents

Abstract

This utility model belongs to greenhouse heating technical field, it is provided that wall after kind heliogreenhouse liquid circulation heat accumulating type, is made up of insulated wall, fixed support, time liquid supervisor, time liquid arm, vent valve, feed flow supervisor, feed flow arm, storage heat liberation board；Described insulated wall side in greenhouse sets two rows fixed support, liquid supervisor is installed back on upper row's fixed support, installing feed flow on lower row's fixed support to be responsible for, time liquid is responsible for and feed flow supervisor is connected to storage heat liberation board by time liquid arm and feed flow arm respectively, and time liquid arm is provided with vent valve.The heliogreenhouse circulation that this utility model provides stores wall after release type liquid, utilize unique structure design, mixing gas in a liquid can be made to discharge and to store heat liberation board, make liquid be full of and store heat liberation board, it is fully contacted the heat-absorbent surface storing heat liberation board, both increased storage heat liberation board and to the absorbtivity of solar radiation and too increased the effective the quantity of heat convection stored between heat liberation board and air, and improved and store exothermal efficiency.

Description

Wall after a kind of heliogreenhouse liquid circulation heat accumulating type

Technical field

This utility model belongs to greenhouse heating technical field, after being specifically related to a kind of heliogreenhouse liquid circulation heat accumulating type Wall.

Background technology

One of marked feature of heliogreenhouse is that it has north wall structure: daytime, surface of wall was by receiving through front roof The solar radiation shone in carries out accumulation of heat；Night is by conduction process in body of wall and surface of wall and room air Convective Heat Transfer constantly to indoor release heat to improve air themperature.But, limited by materials for wall thermophysical property, The heat storage capacity of north wall is limited, and the temperature in greenhouse is the most relatively low after midnight, and chilling injury phenomenon happens occasionally, and affects crop Efficiently produce.

For meeting plant growth, the demand of temperature is generally required heating apparatus.General conventional heating apparatus is coal-fired pot Stove and oil burning boiler, it is big generally to there is energy consumption in these mode of heatings, and energy consumption of heating in China's north latitude 30 °, about 40 ° regional winters is divided Do not account for its run totle drilling cost 30%-40%, 40%-50%, and in heating process produce carbon dioxide, carbon monoxide, The gaseous contamination environment such as sulfur dioxide, application is restricted.

To sum up, increasing greenhouse amount of stored heat, reducing heating and reducing energy consumption is to improve the important channel of hothouse production benefit.

Utility model content

The pattern absorbtivity effective to solar radiation passively storing heat release for existing solar greenhouse wall body is less, night in greenhouse Between the problems such as temperature is low, the purpose of this utility model is to propose wall after a kind of heliogreenhouse liquid circulation heat accumulating type, increases body of wall Effectively accumulate heat.

Wall after a kind of heliogreenhouse liquid circulation heat accumulating type, by insulated wall, fixed support, time liquid supervisor, time liquid arm, puts Air valve, feed flow supervisor, feed flow arm, storage heat liberation board are constituted；Described insulated wall side in greenhouse sets fixing of two rows Frame, upper row's fixed support installs back liquid supervisor, and lower row's fixed support is installed feed flow supervisor, returns liquid supervisor and feed flow supervisor point It is not connected to store heat liberation board by time liquid arm and feed flow arm, and time liquid arm is provided with vent valve.

Described feed flow supervisor, the other end of time liquid supervisor are connected on liquid storage pool, and feed flow supervisor equipped with water pump.

Wherein, described storage heat liberation board is warming plate towards the one side of insulated wall, and another side is collecting plate, if between two plates with Dry deflection plate connects, and surrounding seals.

Wherein, described collecting plate is preferably the metallic plate that heat absorption coefficient is high.

Wherein, described insulated wall for stop the heat in greenhouse to outdoor transmission, preferably thick 15cm-20cm.

Wherein, described time liquid supervisor, time liquid arm, feed flow supervisor, feed flow arm are preferably PVC water pipe.

Wherein, described support bracket fastened material is preferably hard PVC section bar.

After heliogreenhouse liquid circulation heat accumulating type, the using method of wall, specifically comprises the following steps that

Flow through feed flow arm by feed flow supervisor and inject fluid media (medium) in storing heat liberation board, will stream by the guiding of deflection plate It is full of storage heat liberation board to body homogeneous media, until fluid media (medium) flows out from returning liquid supervisor through returning liquid arm.

Described fluid media (medium) is the liquid that heat absorption coefficient is high, preferably water.

On daytime, fully absorb the heat in solar radiation and greenhouse air by collecting plate and exist in fluid media (medium), night, By the heat convection of collecting plate Yu air, the heat deposited in fluid media (medium) is discharged into greenhouse, fluid will be blended in simultaneously and be situated between Air in matter is discharged in air by vent valve, the effective contact area increasing fluid media (medium) with storing heat liberation board, improves and stores Exothermal efficiency.

The beneficial effects of the utility model are:

The heliogreenhouse circulation that this utility model provides stores wall after release type liquid, utilizes unique structure design, it is possible to While making liquid circulate in storing heat liberation board, mixing gas in a liquid is discharged storage heat liberation board, make liquid be full of storage heat release Plate, is fully contacted the heat-absorbent surface storing heat liberation board, had both increased storage heat liberation board and to the absorbtivity of solar radiation and has too increased storage heat release Effective the quantity of heat convection between plate and air, the storage exothermal efficiency of wall after raising circulation storage release type liquid.

Further, storage heat liberation board of the present utility model be absorber plate be also heat liberation board, heat-absorbent surface is directly and in greenhouse Air contact.On daytime, temperature indoor air temperature is high, stores heat liberation board and can absorb the heat in air by the heat convection with air Amount；At night, temperature indoor air temperature is low, again by storing heat liberation board, rejects heat in air.

Accompanying drawing explanation

Fig. 1 is wall construction schematic diagram after heliogreenhouse liquid circulation heat accumulating type described in this utility model embodiment 1.

Fig. 2 is the outer portion that after heliogreenhouse liquid described in this utility model embodiment 1 circulates heat accumulating type, wall removes insulated wall Structural perspective (not showing vent valve).

In figure, 1 is vent valve, and 2 are back liquid arm, and 3 are back that liquid is responsible for, and 4 is fixed support, and 5 for storing heat liberation board, and 6 for protecting Temperature wall, 7 are responsible for for feed flow, and 8 is feed flow arm, deflection plate 9.

Detailed description of the invention

Following example are used for illustrating this utility model, but are not used in restriction scope of the present utility model.

In embodiment, if no special instructions, the method and apparatus used is the method and apparatus that this area is conventional.

Embodiment 1: wall after heliogreenhouse liquid circulation heat accumulating type

The heliogreenhouse of the present embodiment does not set tradition north wall, but replaces with wall after heliogreenhouse liquid circulation heat accumulating type.

Wall after heliogreenhouse liquid circulation heat accumulating type, as it is shown in figure 1, be vent valve by 1,2 are back liquid arm, and 3 are back liquid Supervisor, 4 is fixed support, and 5 for storing heat liberation board, and 6 is insulated wall, and 7 are responsible for for feed flow, and 8 are constituted for feed flow arm；Described insulated wall 2 sides in greenhouse set two rows fixed support 4, and upper row's fixed support 4 installs back liquid supervisor 3, lower row's fixed support 4 Upper installation feed flow supervisor 7, returns liquid supervisor 3 and feed flow supervisor 7 is connected to store heat release by time liquid arm 2 and feed flow arm 8 respectively Plate 5, and return liquid arm 2 be provided with vent valve 1.

Described storage heat liberation board 5 is warming plate towards the one side of insulated wall 6, and another side is the metallic plate that heat absorption coefficient is high, two Connecting (see Fig. 2) with some deflection plates 9 between plate, surrounding seals.

Embodiment 2: the using method of wall after heliogreenhouse liquid circulation heat accumulating type

Wall after embodiment 1 heliogreenhouse liquid circulation heat accumulating type, flows through feed flow arm 8 by feed flow supervisor 7 after installation past Inject water in storing heat liberation board 5, by the guiding of deflection plate 9, uniform fluid flow is full of storage heat liberation board, until water is through returning liquid arm 2 From returning liquid supervisor 3 outflow.Use flow process at ordinary times is as follows:

On daytime, fully absorbing the heat in solar radiation and greenhouse air by collecting plate and exist in water, night, by collection The heat deposited in water is discharged into greenhouse with the heat convection of air by hot plate, simultaneously by the air being blended in water by exitting Valve is discharged in air, the effective contact area increasing water with storing heat liberation board, improves and stores exothermal efficiency.

In this example, exceed 3～5 equipped with wall after heliogreenhouse liquid circulation heat accumulating type than common heliogreenhouse nighttime temperature DEG C, add gentle energy-saving effect notable.

Above embodiment is only to be described preferred implementation of the present utility model, not to this utility model Scope be defined, without departing from this utility model design spirit on the premise of, this area ordinary skill technical staff to this Various modification that the technical scheme of utility model is made and improvement, all should fall into the guarantor that claims of the present utility model determine In the range of protecting.

Claims (6)

1. wall after a heliogreenhouse liquid circulation heat accumulating type, it is characterised in that by insulated wall, fixed support, time liquid supervisor, return Liquid arm, vent valve, feed flow supervisor, feed flow arm, storage heat liberation board are constituted；Described insulated wall side in greenhouse sets upper and lower two Row's fixed support, upper row's fixed support installs back liquid supervisor, and lower row's fixed support is installed feed flow supervisor, returns liquid supervisor and supplies Liquid supervisor is connected to store heat liberation board by time liquid arm and feed flow arm respectively, and time liquid arm is provided with vent valve.

2. rear wall as claimed in claim 1, it is characterised in that described storage heat liberation board is warming plate towards the one side of insulated wall, Another side is collecting plate, connects with some deflection plates between two plates, and surrounding seals.

3. rear wall as claimed in claim 2, it is characterised in that described collecting plate is metallic plate.

4. rear wall as claimed in claim 1, it is characterised in that described insulation wall thickness 15cm-20cm.

5. rear wall as claimed in claim 1, it is characterised in that described time liquid supervisor, time liquid arm, feed flow supervisor, feed flow prop up Pipe is PVC water pipe.

6. rear wall as claimed in claim 1, it is characterised in that described support bracket fastened material is hard PVC section bar.