CN215301853U - a solar greenhouse - Google Patents

Abstract

The utility model discloses a sunlight greenhouse which comprises an outer layer shed, an inner layer shed, a thick rammed earth wall, a rear heat-insulating layer, a heating system and a cooling system, wherein the outer layer shed is arranged above the inner layer shed, and a gap is formed between the outer layer shed and the inner layer shed. According to the utility model, the sunlight greenhouse is arranged into double layers, namely the inner layer greenhouse and the outer layer greenhouse, and the heating system and the cooling system are arranged in the inner layer greenhouse, so that the heat insulation performance and the ventilation performance of the sunlight greenhouse are improved, the temperature regulation function of the sunlight greenhouse can be realized to the greatest extent, the use is convenient, the sunlight greenhouse is guaranteed to be warm in winter and cool in summer, a good growing environment is provided for plants, and the productivity of fruits and vegetables is greatly improved.

Description

Sunlight greenhouse

Technical Field

The utility model relates to the technical field of agricultural facilities, in particular to a sunlight greenhouse.

Background

A greenhouse, also called a greenhouse, such as a glass greenhouse, a plastic greenhouse, a single-span greenhouse, and a multi-span greenhouse; single-roof greenhouses, heated greenhouses, unheated greenhouses, and the like. The greenhouse structure should be sealed and insulated, but should be convenient for ventilation and cooling. The facility for cultivating plants is used for providing the growth period of a greenhouse and increasing the yield in seasons unsuitable for the growth of the plants, and is mainly used for cultivating or growing seedlings of plants such as warm vegetables, flowers and trees in low-temperature seasons. The traditional sunlight greenhouse in China has the characteristics of low investment, simple structure, quick response and the like, and is an agricultural production facility which is most applied at present, but most of the existing sunlight greenhouses are of single-layer heat-insulating structures, and equipment such as heat-insulating quilts are arranged outside the existing sunlight greenhouses, so that the heat-insulating property of the existing sunlight greenhouses is very limited, the temperature requirement of plant growth cannot be met at the lowest temperature in winter, and the quality and the yield of fruit and vegetable production are seriously influenced.

Disclosure of Invention

The utility model provides a sunlight greenhouse, which is characterized in that the sunlight greenhouse is arranged into double layers, namely an inner layer greenhouse and an outer layer greenhouse, and a heating system and a cooling system are arranged in the inner layer greenhouse, so that the heat insulation performance and the ventilation performance of the sunlight greenhouse are improved, the temperature regulation function of the sunlight greenhouse can be realized to the greatest extent, the sunlight greenhouse is convenient to use, the sunlight greenhouse is guaranteed to be warm in winter and cool in summer, a good growing environment is provided for plants, and the productivity of fruits and vegetables is greatly improved.

The technical scheme adopted by the utility model for solving the technical problems is as follows:

a sunlight greenhouse comprises an outer layer shed 1, an inner layer shed 2, a thick rammed earth wall 3, a rear heat-insulating layer 4, a heating system and a cooling system, wherein the outer layer shed 1 is arranged above the inner layer shed 2, and a gap is formed between the outer layer shed 1 and the inner layer shed 2;

the outer-layer shed 1 comprises a rear slope framework 11, a front slope framework 12, an outer-layer shed left gable wall 13 and an outer-layer shed rear gable wall, a thick rammed earth wall body 3 is arranged below the rear slope framework 11, a rear heat-insulating layer 4 is arranged on the outer wall of the rear slope framework 11, the front slope framework 12 is of an arch structure, a shed film 15 covers the front slope framework 12, an outer-layer anti-seepage cotton quilt 16 is arranged on the outer wall of the shed film 15, a first curtain rolling machine 17 and a first ventilation opening are arranged at the top of the front slope framework 12, a first ventilation fan 18 is arranged at the first ventilation opening, a second ventilation opening 19 is arranged at the lower part of the front slope framework 12, and the first curtain rolling machine 17 is used for rolling up or unfolding the outer-layer anti-seepage cotton quilt 16;

when in use in summer: the outer layer anti-seepage quilt 16 is rolled up by the first curtain rolling machine 17 and is not used; when used in winter: the outer-layer anti-seepage quilt 16 is rolled up by the first curtain rolling machine 17 in the daytime and is unfolded at night, and has the advantages that daylighting is not influenced in the daytime and heat preservation is not influenced at night.

The inner shed 2 comprises an arched framework 21, an inner-layer anti-seepage quilt 22 covers the arched framework 21, a second curtain rolling machine 23 is further arranged at the top of the arched framework 21, and the second curtain rolling machine 23 is used for rolling up or unfolding the inner-layer anti-seepage quilt 22; the inner-layer anti-seepage quilt is rolled up by the second curtain rolling machine 23 in the daytime and unfolded at night, and has the advantages of not influencing lighting in the daytime and heat preservation at night.

The heating system comprises a calandria radiator 51, a cylindrical radiator 52 and a water tank 53, wherein the calandria radiator 51 is arranged at the lower part of one side of the inner shed 2 close to the thick rammed earth wall 3, the water tank 53 is arranged at the upper part of one side of the inner shed 2 close to the thick rammed earth wall 3, the calandria radiator 51 is connected with the water tank 53 through a pipeline, a pipeline pump is arranged on the pipeline, and the cylindrical radiator 52 is arranged at the lower part of the other side of the inner shed 2 far away from the thick rammed earth wall 3; the water tank 53 can absorb the heat of the sunlight greenhouse, the water tank 53 and the calandria radiator 51 heat the water temperature through the self-circulation principle when the temperature in the sunlight greenhouse is high in daytime, and the pipeline pump is started to circularly dissipate the heat when the temperature is low at night, so that the temperature of the sunlight greenhouse is adjusted.

The cooling system comprises a water curtain 61, a ventilation fan and an air blower 62, wherein the water curtain 61 is arranged between the left gable 13 of the outer shed and the inner shed 2, the air blower 62 is arranged on the left gable 13 of the outer shed, and the ventilation fan is arranged on the rear gable of the outer shed. The setting of cooling system can deal with summer high temperature weather. The air blower 62 on the left gable 13 of the outer shed and the ventilation fan on the rear gable of the outer shed form convection, and air in the inner shed 2 is cooled after passing through the water curtain 61.

Moreover, still be equipped with detachable on the inlayer canopy 2 and hide the cloudy net for the weather of illumination overstrong, high temperature utilizes to hide the cloudy net and shelters from the sunlight and reduce the interior temperature of canopy, ensures that the sunlight greenhouse reaches the requirement of planting the temperature.

Moreover, the cylindrical heat sink 52 is externally connected with a heat supply pipeline; when the temperature is extremely cold in winter, the external heat supply pipeline of the cylindrical radiator 52 supplies heat to the sunlight greenhouse, so that the temperature of the sunlight greenhouse is increased, and the fruits and vegetables in the sunlight greenhouse are prevented from being frostbitten.

Moreover, a film rolling machine 121 is further disposed on the front slope frame 12 above the second ventilation opening 19, and the film rolling machine 121 is configured to roll up or unroll the greenhouse film covering the second ventilation opening 19. The arrangement of the second ventilation opening 19, the first ventilation opening and the first ventilator 18 can ensure the air flow of the sunlight greenhouse.

Moreover, the lower ends of the arched frameworks 21 and the front slope framework 12 are 50-70cm lower than the ground, and the cultivation layer in the greenhouse is 50-70cm lower than the ground. The cultivation layer surface in the greenhouse is 50-70cm lower than the ground, and heat preservation of the sunlight greenhouse is facilitated.

Moreover, a single window 31 is arranged above the thick rammed earth wall body 3. The provision of a single window 31 may increase the ventilation of the solar greenhouse.

Furthermore, the rear insulating layer 4 comprises an EPC insulating module layer 41 and a protective plastic film layer 42 covering the insulating module layer 41. The EPC heat-insulation module layer 41 is formed by piling EPC heat-insulation modules, and the EPC heat-insulation modules are of hollow structures, so that the EPC heat-insulation module layer has a good heat-insulation effect and further enhances the heat-insulation effect of the sunlight greenhouse.

Moreover, the distance between the vertex of the outer shed 1 and the vertex of the inner shed 2 is 2-4 m.

Moreover, the height of the outer layer shed 1 is 8-9 meters, and the height of the inner layer shed 2 is 5-7 meters.

The utility model has the beneficial effects that:

1. according to the utility model, the sunlight greenhouse is arranged into double layers, namely the inner layer greenhouse and the outer layer greenhouse, and the heating system and the cooling system are arranged in the inner layer greenhouse, so that the heat insulation performance and the ventilation performance of the sunlight greenhouse are improved, the temperature regulation function of the sunlight greenhouse can be realized to the greatest extent, the use is convenient, the sunlight greenhouse is guaranteed to be warm in winter and cool in summer, a good growing environment is provided for plants, and the productivity of fruits and vegetables is greatly improved.

2. The first curtain rolling machine is used for rolling or unrolling the outer-layer anti-seepage quilt; when in use in summer: the outer layer anti-seepage quilt is rolled up by the first curtain rolling machine and is not used; when used in winter: the outer-layer anti-seepage quilt is rolled up by the first curtain rolling machine in the daytime and is unfolded at night, and has the advantages of not influencing lighting in the daytime and heat preservation at night.

3. The water tank can absorb the heat of the sunlight greenhouse, the water tank and the calandria radiator heat the water temperature by the self-circulation principle when the temperature in the sunlight greenhouse is high in daytime, and the pipeline pump is started to circularly radiate the heat when the temperature is low at night, so that the temperature of the sunlight greenhouse is adjusted, and the sunlight utilization rate is greatly improved.

4. The cooling system can be arranged to cope with high-temperature weather in summer. When the temperature is higher in summer daytime, the film rolling machine is utilized to roll up the shed film covering the second ventilation opening, the first ventilator is started to cool the sunlight greenhouse, when the first ventilator is started, the temperature reduction requirement cannot be met, the ventilation fan and the air blower can be started, air passes through the water curtain to move towards the direction of the rear gable wall of the outer shed under the action of the ventilation fan and the air blower, and therefore the sunlight greenhouse is further cooled. In addition, be equipped with detachable on the inlayer canopy and hide the cloudy net for the weather of illumination overstrong, high temperature ensures that the plant reaches the requirement of planting the temperature.

5. The cylindrical radiator is externally connected with the heat supply pipeline, and when the temperature is extremely cold in winter, the cylindrical radiator is externally connected with the heat supply pipeline to supply heat to the sunlight greenhouse, so that the temperature of the sunlight greenhouse is increased, and the fruits and vegetables in the sunlight greenhouse are prevented from being frostbitten.

6. The utility model is provided with a thick rammed earth wall body, an outer layer shed left gable wall and an outer layer shed rear gable wall, and has strong heat preservation and energy storage performance; the cultivation layer surface in the greenhouse is 50-70cm lower than the ground, and the heat preservation effect is further achieved.

Drawings

FIG. 1 is a schematic cross-sectional view of the structure of the present invention;

FIG. 2 is a schematic view of the temperature elevation system of the present invention;

FIG. 3 is a schematic view of the cooling system of the present invention;

FIG. 4 is a view of the rear insulation layer structure of the present invention;

FIG. 5 is a schematic cross-sectional view of the left gable of the outer canopy of the present invention.

Wherein: the greenhouse comprises an outer shed 1, an inner shed 2, a rammed earth wall 3, a rear heat-insulating layer 4, a rear slope skeleton 11, a front slope skeleton 12, an outer shed left gable 13, a shed film 15, an outer anti-seepage quilt 16, a first curtain rolling machine 17, a first ventilator 18, a second ventilation opening 19, an arch skeleton 21, an inner anti-seepage quilt 22, a second curtain rolling machine 23, an inner shed rear wall 24, a single window 31, a heat-insulating module layer 41, a protective plastic film layer 42, a calandria radiator 51, a cylindrical radiator 52, a water tank 53, a water curtain 61 and an air blower 62.

Detailed Description

The present invention will be described below based on examples, but it should be noted that the present invention is not limited to these examples. In the following detailed description of the present invention, certain specific details are set forth. However, the present invention may be fully understood by those skilled in the art for those parts not described in detail.

Furthermore, those skilled in the art will appreciate that the drawings are provided solely for the purposes of illustrating the utility model, features and advantages thereof, and are not necessarily drawn to scale. Also, unless the context clearly requires otherwise, throughout the description and the claims, the words "comprise", "comprising", and the like are to be construed in an inclusive sense as opposed to an exclusive or exhaustive sense; that is, the meaning of "includes but is not limited to".

As shown in fig. 1-5, a sunlight greenhouse comprises an outer layer shed 1, an inner layer shed 2, a thick rammed earth wall 3, a rear heat-insulating layer 4, a heating system and a cooling system, wherein the outer layer shed 1 is arranged above the inner layer shed 2, and a gap is formed between the outer layer shed 1 and the inner layer shed 2;

the outer-layer shed 1 comprises a rear slope framework 11, a front slope framework 12, an outer-layer shed left gable wall 13 and an outer-layer shed rear gable wall, a thick rammed earth wall body 3 is arranged below the rear slope framework 11, a rear heat-insulating layer 4 is arranged on the outer wall of the rear slope framework 11, the front slope framework 12 is of an arch structure, a shed film 15 covers the front slope framework 12, an outer-layer anti-seepage cotton quilt 16 is arranged on the outer wall of the shed film 15, a first curtain rolling machine 17 and a first ventilation opening are arranged at the top of the front slope framework 12, a first ventilation fan 18 is arranged at the first ventilation opening, a second ventilation opening 19 is arranged at the lower part of the front slope framework 12, and the first curtain rolling machine 17 is used for rolling up or unfolding the outer-layer anti-seepage cotton quilt 16;

when in use in summer: the outer layer anti-seepage quilt 16 is rolled up by the first curtain rolling machine 17 and is not used; when used in winter: the outer-layer anti-seepage quilt 16 is rolled up by the first curtain rolling machine 17 in the daytime and is unfolded at night, and has the advantages that daylighting is not influenced in the daytime and heat preservation is not influenced at night.

The inner shed 2 comprises an arched framework 21, an inner-layer anti-seepage quilt 22 covers the arched framework 21, a second curtain rolling machine 23 is further arranged at the top of the arched framework 21, and the second curtain rolling machine 23 is used for rolling up or unfolding the inner-layer anti-seepage quilt 22; the inner-layer anti-seepage quilt is rolled up by the second curtain rolling machine 23 in the daytime and unfolded at night, and has the advantages of not influencing lighting in the daytime and heat preservation at night.

The heating system comprises a calandria radiator 51, a cylindrical radiator 52 and a water tank 53, wherein the calandria radiator 51 is arranged at the lower part of one side of the inner shed 2 close to the thick rammed earth wall 3, the water tank 53 is arranged at the upper part of one side of the inner shed 2 close to the thick rammed earth wall 3, the calandria radiator 51 is connected with the water tank 53 through a pipeline, a pipeline pump is arranged on the pipeline, and the cylindrical radiator 52 is arranged at the lower part of the other side of the inner shed 2 far away from the thick rammed earth wall 3; the water tank 53 can absorb the heat of the sunlight greenhouse, the water tank 53 and the calandria radiator 51 heat the water temperature through the self-circulation principle when the temperature in the sunlight greenhouse is high in daytime, and the pipeline pump is started to circularly dissipate the heat when the temperature is low at night, so that the temperature of the sunlight greenhouse is adjusted.

The cooling system comprises a water curtain 61, a ventilation fan and an air blower 62, wherein the water curtain 61 is arranged between the left gable 13 of the outer shed and the inner shed 2, the air blower 62 is arranged on the left gable 13 of the outer shed, and the ventilation fan is arranged on the rear gable of the outer shed. The setting of cooling system can deal with summer high temperature weather. The air blower 62 on the left gable 13 of the outer shed and the ventilation fan on the rear gable of the outer shed form convection, and air in the inner shed 2 is cooled after passing through the water curtain 61.

Still be equipped with detachable on the inlayer canopy 2 and hide the cloudy net for the weather of illumination overstrong, high temperature utilizes to hide the cloudy net and shelters from the sunlight and reduce the interior temperature of canopy, ensures that the sunlight greenhouse reaches the requirement of planting the temperature.

The cylindrical radiator 52 is externally connected with a heat supply pipeline; when the temperature is extremely cold in winter, the external heat supply pipeline of the cylindrical radiator 52 supplies heat to the sunlight greenhouse, so that the temperature of the sunlight greenhouse is increased, and the fruits and vegetables in the sunlight greenhouse are prevented from being frostbitten.

A film rolling machine 121 is further arranged on the front slope framework 12 above the second ventilation opening 19, and the film rolling machine 121 is used for rolling or unfolding the shed film covered on the second ventilation opening 19. The arrangement of the second ventilation opening 19, the first ventilation opening and the first ventilator 18 can ensure the air flow of the sunlight greenhouse.

The lower end of the arched framework 21 and the lower end of the front slope framework 12 are 50-70cm lower than the ground, and the cultivation layer in the greenhouse is 50-70cm lower than the ground. The cultivation layer surface in the greenhouse is 50-70cm lower than the ground, and heat preservation of the sunlight greenhouse is facilitated.

A single open window 31 is arranged above the thick rammed earth wall body 3. The provision of a single window 31 may increase the ventilation of the solar greenhouse.

The rear heat-insulating layer 4 comprises an EPC heat-insulating module layer 41 and a protective plastic film layer 42 covering the heat-insulating module layer 41. The EPC heat-insulation module layer 41 is formed by piling EPC heat-insulation modules, and the EPC heat-insulation modules are of hollow structures, so that the EPC heat-insulation module layer has a good heat-insulation effect and further enhances the heat-insulation effect of the sunlight greenhouse.

The distance between the top point of the outer shed 1 and the top point of the inner shed 2 is 2-4 m.

The height of the outer layer shed 1 is 8-9 meters, and the height of the inner layer shed 2 is 5-7 meters.

The use method of the utility model comprises the following steps:

when in use in summer: the outer-layer anti-seepage quilt 16 is rolled up by a first rolling curtain machine 17, and the inner-layer anti-seepage quilt 22 is rolled up by a second rolling curtain machine 22; when the temperature is high in summer and daytime, the film rolling machine 121 is utilized to roll up the shed film covering the second ventilation opening 19, the first ventilation machine 18 is started to cool the sunlight greenhouse, when the first ventilation machine 18 is started and cannot meet the temperature reduction requirement, the ventilation fan and the air blower 62 can be started, air passes through the water curtain 61 to move towards the direction of the right gable wall of the outer shed under the action of the ventilation fan and the air blower 62, and therefore the sunlight greenhouse is further cooled; in addition, the water tank 53 on the upper portion of one side of the inner layer shed close to the thick rammed earth wall 3 can absorb the heat of the sunlight greenhouse, when the temperature in the sunlight greenhouse is high in daytime, the water tank 53 and the calandria radiator 51 heat the water temperature through the self-circulation principle, and when the temperature is low at night, the pipeline pump is started to perform circulation heat dissipation to adjust the temperature of the sunlight greenhouse. Still be equipped with detachable on the inlayer canopy 2 and hide the cloudy net for the weather of illumination overstrong, high temperature shelters from sunlight through hiding the cloudy net and reduces the interior temperature of canopy, ensures that the plant reaches the requirement of planting the temperature.

When in use in winter: when the temperature is higher in the daytime, the outer-layer impermeable quilt 16 is rolled up by using the first curtain rolling machine 17, the inner-layer impermeable quilt 22 is rolled up by using the second curtain rolling machine 23, the shed film covering the second ventilation opening 19 is unfolded by using the film rolling machine 121, the first ventilator 18, the ventilation fan, the blower 62 and the water curtain 61 are closed, the water tank 53 positioned at the upper part of the inner shed 2 close to the thick rammed earth wall 3 can absorb the heat of the sunlight greenhouse, and when the temperature is high in the sunlight greenhouse, the water tank 53 and the calandria radiator 51 heat the water temperature by the self-circulation principle; and at low temperature at night, the outer-layer anti-seepage quilt 16 is unfolded by using the first curtain rolling machine 17, the inner-layer anti-seepage quilt 22 is unfolded by using the second curtain rolling machine 23, and a pipeline pump is started for circulating heat dissipation to adjust the temperature of the sunlight greenhouse. The water stored in the water tank 53 can be mixed with tap water and then poured to the ground, so as to increase the indoor ground temperature and be beneficial to plant growth. When the method cannot meet the temperature increasing requirement, the external heat supply pipeline starts to supply heat to the cylindrical radiator 52, so that the temperature of the sunlight greenhouse is increased to prevent the fruits and vegetables in the sunlight greenhouse from being frozen.

The above-mentioned embodiments are merely embodiments for expressing the utility model, and the description is more specific and detailed, but not intended to limit the scope of the utility model. It should be noted that, for those skilled in the art, various changes, substitutions of equivalents, improvements and the like can be made without departing from the spirit of the utility model, and these are all within the scope of the utility model. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (8)

1. The utility model provides a sunlight greenhouse, includes outer canopy (1), inlayer canopy (2), thick rammed earth wall body (3), back heat preservation (4), heating system, cooling system, outer canopy (1) sets up the top of inlayer canopy (2) and with be provided with clearance, its characterized in that between inlayer canopy (2):

the outer shed (1) comprises a rear slope framework (11), a front slope framework (12), an outer shed left gable wall (13) and an outer shed right gable wall, wherein a thick rammed earth wall body (3) is arranged on the outer wall below the rear slope framework (11), a rear heat-insulating layer (4) is arranged on the outer wall of the rear slope framework (11), the front slope framework (12) is of an arch structure, a shed film (15) covers the front slope framework (12), an outer anti-seepage cotton quilt (16) is arranged on the outer wall of the shed film (15), a first curtain rolling machine (17) and a first ventilation opening are arranged at the top of the front slope framework (12), a first ventilation machine (18) is arranged at the first ventilation opening, a second ventilation opening (19) is arranged at the lower part of the front slope framework (12), and the first curtain rolling machine (17) is used for rolling up or unfolding the outer anti-seepage cotton quilt (16);

the inner shed (2) comprises an arched framework (21), an inner anti-seepage quilt (22) covers the arched framework (21), a second curtain rolling machine (23) is further arranged at the top of the arched framework (21), and the second curtain rolling machine (23) is used for rolling up or unfolding the inner anti-seepage quilt (22);

the heating system comprises a calandria radiator (51), a cylindrical radiator (52) and a water tank (53), wherein the calandria radiator (51) is arranged at the lower part of one side, close to the thick rammed earth wall (3), of the inner shed (2), the water tank (53) is arranged at the upper part of one side, close to the thick rammed earth wall (3), of the inner shed (2), the calandria radiator (51) is connected with the water tank (53) through a pipeline, a pipeline pump is arranged on the pipeline, and the cylindrical radiator (52) is arranged at the lower part of the other side, far away from the thick rammed earth wall (3), of the inner shed (2);

the cooling system comprises a water curtain (61), a ventilation fan and an air blower (62), wherein the water curtain (61) is arranged between the outer-layer shed left gable (13) and the inner-layer shed (2), the air blower (62) is arranged on the outer-layer shed left gable (13), and the ventilation fan is arranged on the outer-layer shed right gable.

2. A sunlight greenhouse according to claim 1, characterized in that: the inner layer shed (2) is also provided with a detachable shading net.

3. A sunlight greenhouse according to claim 1, characterized in that: the cylindrical radiator (52) is externally connected with a heat supply pipeline.

4. A sunlight greenhouse according to claim 1, characterized in that: a film rolling machine (121) is further arranged on the front slope framework (12) above the second ventilation opening (19), and the film rolling machine (121) is used for rolling or unfolding the shed film covered on the second ventilation opening (19).

5. A sunlight greenhouse according to claim 1, characterized in that: the lower end of the arched framework (21) and the lower end of the front slope framework (12) are 50-70cm lower than the ground, and the cultivation layer in the greenhouse is 50-70cm lower than the ground.

6. A sunlight greenhouse according to claim 1, characterized in that: and a single-opening window (31) is arranged above the thick rammed earth wall body (3).

7. A sunlight greenhouse according to claim 1, characterized in that: the rear heat-insulating layer (4) comprises an EPC heat-insulating module layer (41) and a protective plastic film layer (42) covering the heat-insulating module layer (41).

8. A sunlight greenhouse according to claim 1, characterized in that: the distance between the top point of the outer layer shed (1) and the top point of the inner layer shed (2) is 2-4 m.

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