CN221058979U - Convection circulation heat storage wall structure of sunlight greenhouse - Google Patents

Abstract

The utility model discloses a convection circulation heat storage wall structure of a sunlight greenhouse, which belongs to the technical field of the sunlight greenhouse and comprises a wall body and a greenhouse body, wherein a heat storage groove is formed in the wall body, a first convection hole and a second convection hole are formed in the wall body through the heat storage groove, and fans are arranged on the wall body through the first convection hole and the second convection hole; a shunt structure is arranged on one side of the wall body, which is positioned in the shed body; the distribution structure comprises an arc-shaped cover arranged on one side of the wall body, and a plurality of air outlets are formed in the bottom of the arc-shaped cover. Through setting up the reposition of redundant personnel structure, start the fan in the second convection hole for in the arc cover is blown into to the hot air in the heat accumulation groove, then by the both ends of guide plate guide to the arc cover, make hot air diffusion distance increase, then discharge through the air outlet, thereby reached the effect that the temperature was raised to the internal great volume of canopy at night, simultaneously, help reducing the use quantity of fan, and then practice thrift the cost.

Description

Convection circulation heat storage wall structure of sunlight greenhouse

Technical Field

The utility model belongs to the technical field of sunlight greenhouses, and particularly relates to a convection circulation heat storage wall structure of a sunlight greenhouse.

Background

The facility agriculture is produced under the condition of relatively controllable environment, so that the limiting factors which are difficult to solve in the traditional agriculture are overcome to a certain extent, each element of the resource can be optimally configured and efficiently utilized, and the production capacity of unit land area can be doubled or even tens of times improved. The sunlight greenhouse is a special facility agriculture building in China, and has obvious economic and social benefits;

At present, a sunlight greenhouse generally comprises a greenhouse body and a convection circulation heat storage wall body structure, in order to improve the circulation speed of the convection circulation heat storage wall body structure and the indoor flow of the greenhouse body, fans are generally arranged in convection holes, the sunlight greenhouse is generally larger to be constructed, and a large number of convection holes are arranged at night so that the hot air of the convection circulation heat storage wall body can be more uniformly filled in the indoor, therefore, the fans are required to be assembled in each convection hole, the fan quantity required to be used is larger, and the cost is further improved;

In order to solve the problems, the application provides a convection circulation heat storage wall structure of a sunlight greenhouse.

Disclosure of utility model

Aiming at the problems in the related art, the utility model provides a convection circulation heat storage wall structure of a sunlight greenhouse, so as to overcome the technical problems existing in the prior related art.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

The convection circulation heat storage wall structure of the sunlight greenhouse comprises a wall body and a shed body, wherein a heat storage groove is formed in the wall body, a first convection hole and a second convection hole are formed in the wall body through the heat storage groove, and fans are installed on the wall body through the first convection hole and the second convection hole;

A shunt structure is arranged on one side of the wall body, which is positioned in the shed body;

the distribution structure comprises an arc-shaped cover arranged on one side of the wall body, and a plurality of air outlets are formed in the bottom of the arc-shaped cover;

a guide plate is arranged on the inner side of the arc-shaped cover, and the guide plate is close to the second convection hole;

The air outlet is inclined.

The arc cover is provided with a heat inlet, the arc cover is provided with a mounting groove through the heat inlet, the arc cover is provided with an electric telescopic rod through the mounting groove, the telescopic end of the electric telescopic rod is provided with a baffle, and the second convection hole is convenient for normal air circulation through the heat inlet, the mounting groove, the electric telescopic rod and the baffle.

The bottom of wall body is installed pre-buried base, pre-buried base is interior to be seted up with the expansion groove that the heat accumulation groove is linked together, through setting up pre-buried base and expansion groove for increase the heat storage.

The embedded base is provided with a supporting rod through the expansion groove, and the supporting rod is used for supporting the wall body.

The heat storage tank and the amplification tank are internally provided with heat preservation cotton, and the heat preservation cotton is used for preserving heat in the heat storage tank and the amplification tank.

In summary, the technical effects and advantages of the present utility model are: according to the sunlight greenhouse convection circulation heat storage wall structure, the split flow structure is arranged, the fans in the second convection holes are started, so that hot air in the heat storage groove is blown into the arc-shaped cover, then the hot air is led to the two ends of the arc-shaped cover by the guide plates, so that the diffusion distance of the hot air is increased, and then the hot air is discharged through the air outlet, so that the effect of raising the temperature of a large volume space in the greenhouse body at night is achieved, meanwhile, the use quantity of the fans is reduced, and the cost is further saved; by arranging the amplification tank for amplifying the heat storage space, more heat is accumulated when the temperature of the white strip is higher.

Drawings

FIG. 1 is a schematic cross-sectional view showing the whole structure of the device;

FIG. 2 is a schematic cross-sectional view showing an arcuate cover and its related structure in accordance with the present utility model;

FIG. 3 is an enlarged view of the utility model at A in FIG. 2;

Fig. 4 is a schematic diagram showing a baffle and its related structure.

In the figure:

1. a wall body; 101. a heat storage tank; 102. a first convection hole; 103. a second convection hole;

2. A shed body;

3. a shunt structure; 301. an arc-shaped cover; 302. a heat inlet; 303. an electric telescopic rod; 304. a baffle; 305. an air outlet; 306. a deflector; 307. a mounting groove;

4. Pre-burying a base; 401. an amplification tank; 402. a support rod;

5. A fan.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments.

Referring to fig. 1 and 2, a sunlight greenhouse convection circulation heat storage wall structure comprises a wall body 1 and a shed body 2, wherein a heat storage groove 101 is formed in the wall body 1, a first convection hole 102 and a second convection hole 103 are formed in the wall body 1 through the heat storage groove 101, during daytime, hot air enters the heat storage groove 101 through the second convection hole 103 when the temperature in the shed body 2 is higher, cold air in the heat storage groove 101 enters the shed body 2 through the first convection hole 102, and air in the heat storage groove 101 and air in the shed body 2 are subjected to continuous convection replacement along with the time, so that the temperature of the air in the heat storage groove 101 is continuously increased for storing daytime heat.

The fan 5 is installed through the first convection hole 102 and the second convection hole 103 in the wall body 1, the specific model of the fan 5 is FD150, the blowing direction of wind of the fan 5 can be changed, and the fan 5 is started to drive the circulation speed of air in the first convection hole 102 and the second convection hole 103, so that the circulation speed of air in the heat storage tank 101 and the greenhouse body 2 is reduced.

Referring to fig. 1 to 4, a shunt structure 3 is disposed on one side of the wall 1 located in the shed body 2, the shunt structure 3 includes an arc-shaped cover 301 mounted on one side of the wall 1, a plurality of air outlets 305 are formed in the bottom of the arc-shaped cover 301, at night, the fan 5 in the second convection hole 103 blows into the arc-shaped cover 301, the fan 5 in the first convection hole 102 blows into the heat storage tank 101, and then hot air is discharged through the air outlets 305 for heating up in the shed body 2.

The guide plate 306 is installed on the inner side of the arc-shaped cover 301, the guide plate 306 is close to the second convection hole 103, hot air blown out of the first convection hole 102 is blown to the guide plate 306, and is guided to the two ends of the arc-shaped cover 301 by the guide plate 306, so that the diffusion distance of the hot air is increased, and the larger inner volume of the shed body 2 can be covered.

The air outlet 305 is inclined, and the inclination angle of the air outlet 305 is opposite to the direction of the hot air, so that the hot air can be blown to a longer distance and then discharged, and the hot air can be further ensured to cover the larger internal volume of the shed body 2.

Referring to fig. 2 and 3, the heat inlet 302 is formed in the arc-shaped cover 301, the installation groove 307 is formed in the arc-shaped cover 301 through the heat inlet 302, the electric telescopic rod 303 is installed in the arc-shaped cover 301 through the installation groove 307, the baffle 304 is installed at the telescopic end of the electric telescopic rod 303, and when the temperature in the daytime is high, the baffle 304 does not block the heat inlet 302, so that hot air can enter the arc-shaped cover 301 through the heat inlet 302, then enter the second convection hole 103 through the arc-shaped cover 301, finally, enter the heat storage tank 101, and the hot air can be ensured to smoothly enter the heat storage tank 101.

Referring to fig. 2, a pre-buried base 4 is installed at the bottom of the wall 1, an expansion tank 401 communicating with the heat storage tank 101 is provided in the pre-buried base 4, and the expansion tank 401 is used for expanding the heat storage space, so that more heat is accumulated when the temperature of the white strip is high.

The embedded base 4 is provided with a supporting rod 402 through the expansion groove 401, and the supporting rod 402 is used for supporting the wall body 1.

Thermal insulation cotton is arranged in the thermal storage tank 101 and the amplification tank 401, and is used for insulating the interior of the thermal storage tank 101 and the interior of the amplification tank 401.

Working principle:

According to the sunlight greenhouse convection circulation heat storage wall structure, the fan 5 in the second convection hole 103 is started, so that hot air in the heat storage tank 101 is blown into the arc-shaped cover 301, then the hot air is led to the two ends of the arc-shaped cover 301 by the guide plates 306, so that the diffusion distance of the hot air is increased, and then the hot air is discharged through the air outlet 305, thereby achieving the effect of raising the temperature of a larger volume space in the greenhouse body 2 at night, and simultaneously being beneficial to reducing the use quantity of the fan 5.

According to the sunlight greenhouse convection circulation heat storage wall structure, the expansion groove 401 is arranged and used for expanding a heat storage space, so that more heat is stored when the temperature is high in the daytime.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the utility model.

Claims (6)

1. The sunlight greenhouse convection circulation heat storage wall structure comprises a wall body (1) and a shed body (2), and is characterized in that a heat storage groove (101) is formed in the wall body (1), a first convection hole (102) and a second convection hole (103) are formed in the wall body (1) through the heat storage groove (101), and fans (5) are arranged on the wall body (1) through the first convection hole (102) and the second convection hole (103);

A shunt structure (3) is arranged on one side of the wall body (1) positioned in the shed body (2);

the diversion structure (3) comprises an arc-shaped cover (301) arranged on one side of the wall body (1), and a plurality of air outlets (305) are formed in the bottom of the arc-shaped cover (301);

A guide plate (306) is arranged on the inner side of the arc-shaped cover (301), and the guide plate (306) is close to the second convection hole (103);

The air outlet (305) is inclined.

2. The sunlight greenhouse convection cycle thermal storage wall structure of claim 1, wherein the arc-shaped cover (301) is provided with a heat inlet (302).

3. The sunlight greenhouse convection cycle thermal storage wall structure of claim 2, wherein the arc-shaped cover (301) is provided with a mounting groove (307) through the heat inlet (302), the arc-shaped cover (301) is provided with an electric telescopic rod (303) through the mounting groove (307), and a baffle plate (304) is arranged at the telescopic end of the electric telescopic rod (303).

4. The sunlight greenhouse convection cycle heat storage wall structure according to claim 1, wherein a pre-buried base (4) is installed at the bottom of the wall body (1), and an amplification groove (401) communicated with the heat storage groove (101) is formed in the pre-buried base (4).

5. The sunlight greenhouse convection cycle thermal storage wall structure of claim 4, wherein the pre-buried base (4) is provided with a support rod (402) through an amplifying groove (401).

6. The sunlight greenhouse convection cycle thermal storage wall structure of claim 4, wherein thermal insulation cotton is arranged in the thermal storage tank (101) and the amplification tank (401).