CN206744031U - Solar energy storage assembled greenhouse - Google Patents

Abstract

The utility model belongs to the field of greenhouses for plant growth, in particular to a solar energy storage assembled greenhouse, comprising a main channel, a wedge, a pressure taking tube and a differential pressure transmitter. The gauge is installed in series on the flange of the pipeline, the wedge is set in the middle of the main channel, there are two pressure pipes, which are respectively set on both sides of the wedge, and the differential pressure transmitter is installed on the main channel through a bracket Externally, the two pressure joints on the differential pressure transmitter are respectively connected to the two pressure ports on the main channel through pressure tubes. The outer side of the main channel is fixed with studs, and the wedges are Cooperate with the nut and fasten in the opening of the main channel. The wedge in the utility model adopts a detachable design. When the most vulnerable wedge is damaged by fluid erosion or corrosion, it only needs to be replaced separately. Yes, it is not necessary to replace the flowmeter as a whole, thereby prolonging the service life and reducing the cost of use.

Description

Solar Energy Storage Prefabricated Greenhouse

technical field

The utility model belongs to the technical field of greenhouses for plant growth, in particular to a solar energy storage assembled greenhouse.

Background technique

Greenhouse, also known as greenhouse. A facility that can transmit light, keep warm (or warm), and be used to grow plants. In seasons that are not suitable for plant growth, it can provide a greenhouse growth period and increase production. It is mostly used for planting or raising seedlings of temperature-loving vegetables, flowers, forest trees and other plants in low temperature seasons. In the prior art, in order to ensure the temperature in the greenhouse, a large amount of fuel needs to be consumed, so the use cost is relatively high. Therefore, be necessary to invent a kind of greenhouse with better energy-saving property.

Contents of the invention

The utility model provides a solar energy storage assembled greenhouse to solve the problems raised in the above-mentioned background technology.

The technical problems solved by the utility model are achieved by the following technical schemes: the utility model provides a solar energy storage assembled greenhouse, including a left gable, a right gable, a rear wall and a shed film, the left gable, the right gable and the The composition of the rear wall includes a biomass insulation layer made of straw and a soft insulation layer made of cotton quilts. The inner sides of the left gable, right gable and the rear wall are all equipped with water barriers made of black plastic film. The water jacket is provided with heat collection and heat exchange tubes, the top of the rear wall is equipped with a solar collector, the solar collector is connected to the heat collection and heat exchange tubes, and the solar heat collector is provided with a heat conduction Medium, after absorbing solar energy, the heat transfer medium circulates in the solar heat collector and the heat collection heat exchange tube under the action of the pump, so that the collected heat energy is stored in the water in the water jacket to realize energy storage;

A heat dissipation heat exchanger and a heat dissipation fan are arranged on the rear wall, and a heat dissipation heat exchange pipe is also arranged in the water jacket, and the heat dissipation heat exchanger is connected with the heat dissipation heat exchange pipe, and the heat dissipation heat exchanger and the heat dissipation heat exchange pipe It is also equipped with a heat transfer medium. The heat transfer medium after absorbing the heat in the water jacket circulates in the heat dissipation heat exchanger and the heat dissipation heat exchange tube under the action of the pump, and is released into the greenhouse through the heat dissipation fan, thereby dissipating the energy stored in the water jacket. released;

The right gable is provided with a door, between the two gables, a partition wall is provided on the side close to the right gable, and a buffer zone for improving the thermal insulation performance of the greenhouse is left between the partition wall and the right gable. The shed film has two layers, namely the outer shed film and the inner shed film, and there is an air interlayer in the two layers of shed film;

The front side of the greenhouse is provided with a low wall, the low wall is provided with a front ventilation opening, and the rear wall is provided with a rear ventilation opening.

The upper side of the outer shed film is covered with a thermal insulation quilt. The heat conduction medium is a graphene material, and its composition is 60% of silazane and 40% of two-dimensional carbon. At least two planting blocks are arranged in parallel on the ground of the greenhouse, and an aisle is arranged between two adjacent planting blocks, and a water jacket made of a black plastic film is also arranged at the aisle.

The beneficial effects of the utility model are:

1. The utility model adopts a biomass splicing self-insulating wall made of straw. This wall uses a light steel bracket as the main support. It is customized in the factory according to the size required by the customer, and it is transported to the site for assembly. Easy to install, low cost, good heat preservation effect. The wall is also made of a soft insulation layer made of multi-layer quilts, which further improves the insulation effect. A water jacket made of black plastic film is installed on the inside of the wall, which can absorb the heat in the sun and store it in the water jacket. The water inside realizes heat storage. Chaoyang measurement adopts double-layer shed film. When implementing it, the inner film can be set in a foldable structure so that it can be put into use as needed; there are automatic ventilation windows on the back and south sides of the wall, which can be used in the greenhouse at noon. When the temperature is too high, ventilation is used to cool down; a solar collector is installed on the back wall, which can effectively collect solar energy. The orientation of the greenhouse is to face the sun on the front, 7-15 degrees west by south, direct to the left gable at 9:00 in the morning, directly to the right gable at 2:00 pm, and directly to the rear wall from the front to ensure that the three walls can fully absorb heat.

2. Solar energy storage. In order to ensure sufficient heat storage in the greenhouse and reach the suitable temperature for the growth of any fruit and vegetable, a super heat-conducting medium made of graphene is used. After the solar collector absorbs the heat of the sun, it is stored in the water in the water jacket. When the heat in the greenhouse is insufficient, it is stored in the water jacket. The heat energy in the water can be released into the greenhouse through heat radiation or heat exchange by heat exchangers.

3. Internet + artificial intelligence. Information collection, transmission, and control realize artificial intelligence of greenhouse facilities and intelligent parameter control of various vegetables and fruits. Through the mobile app, the Internet + personalized customized potted fruit and vegetable delivery service + healthy social platform can be realized, and the fun of growing vegetables can be shared. Customers can personally experience the fun of growing vegetables at home, grow them by themselves, and enjoy the most assured fruits and vegetables by themselves.

Description of drawings

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

Fig. 2 is a schematic diagram of the wall structure of the left gable, the right gable or the back wall.

In the figure: 1-left gable, 2-inner canopy film, 3-low wall, 4-front air vent, 5-planting block, 6-aisle, 7-partition wall, 8-door, 9-solar collector , 10-cooling fan, 11-outer shed film, 12-insulation quilt, 13-water jacket, 14-water, 15-biomass insulation layer, 16-soft insulation layer, 17-right gable, 18-rear vent .

detailed description

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

The present embodiment comprises left gable 1, right gable 17, rear wall and shed film, and the composition structure of described left gable 1, right gable 17 and rear wall all comprises the biomass insulation layer 15 that is pressed by straw and is made of cotton The made soft bag insulation layer 16, the inner side of the left gable 1, the right gable 17 and the rear wall are all provided with a water jacket 13 made of black plastic film, and the water jacket 13 is provided with a heat collection and heat exchange tube. The top of the rear wall is equipped with a solar heat collector 9, which is connected to the heat collection and heat exchange tube, and a heat transfer medium is arranged in the solar heat collector 9, and the heat transfer medium after absorbing solar energy acts as a pump. Circulate in the solar heat collector 9 and the heat collecting heat exchange tube, thereby storing the collected heat energy in the water 14 in the water jacket 13 to realize energy storage;

A heat dissipation heat exchanger and a heat dissipation fan 10 are arranged on the rear wall, and a heat dissipation heat exchange tube is also arranged in the water jacket 13, and the heat dissipation heat exchanger is connected with the heat dissipation heat exchange pipe, and the heat dissipation heat exchanger and the heat dissipation heat exchange tube are connected. The heat pipe is also provided with a heat conduction medium, and the heat conduction medium after absorbing the heat in the water jacket 13 circulates in the heat dissipation heat exchanger and the heat dissipation heat exchange tube under the action of the pump, and is released into the greenhouse through the heat dissipation fan 10, so that the water jacket The energy stored in 13 is released;

The right gable 17 is provided with a door 8, between the two gables, a partition wall 7 is arranged on the side near the right gable 17, and a wall for improving the thermal insulation performance of the greenhouse is reserved between the partition wall 7 and the right gable 17. The buffer zone, the shed film has two layers, which are respectively the outer shed film 11 and the inner shed film 2, and an air interlayer is left in the two-layer shed film;

The front side of the greenhouse is provided with a low wall 3, the low wall 3 is provided with a front vent 4, and the rear wall is provided with a rear vent 18.

The upper side of the outer shed film 11 is covered with a thermal insulation quilt 12 . The heat conduction medium is a graphene material, and its composition is 60% of silazane and 40% of two-dimensional carbon. At least two planting blocks are arranged in parallel on the ground of the greenhouse, and an aisle 6 is arranged between two adjacent planting blocks 5, and a water jacket 13 made of a black plastic film is also arranged at the aisle 6.

The utility model adopts the biomass splicing self-insulation wall made of straw. This wall uses light steel brackets as the main support. It is designed and customized in the factory according to the size required by the customer, and is transported to the site for assembly. The installation is simple, the cost is low, and the heat preservation effect is good. The wall also adopts a soft-pack insulation layer 16 made of multi-layer quilts, which further improves the insulation effect. The inside of the wall is provided with a water jacket 13 made of black plastic film, which can absorb heat from the sun and store it in The water in the water jacket 13 realizes heat storage. On the sunny side, double-layer shed film is used. In practice, the inner shed film 2 can be set into a foldable structure so that it can be put into use as needed; there are automatic vents on the back and south sides of the wall, which can be used in the greenhouse at noon. When the internal temperature is too high, ventilation and cooling; solar heat collector 9 is installed on the back wall, which can effectively collect solar energy. The orientation of the greenhouse is to face the sun on the front, 7-15 degrees west by south, direct to the left gable at 9:00 in the morning, directly to the right gable at 2:00 pm, and directly to the rear wall from the front to ensure that the three walls can fully absorb heat.

Solar energy storage. In order to ensure sufficient heat storage in the greenhouse and reach the suitable temperature for the growth of any fruit and vegetable, a super heat-conducting medium made of graphene is used. After the solar heat collector 9 absorbs the heat of the sun, it is stored in the water in the water jacket 13. When the heat in the greenhouse is insufficient, The heat energy stored in the water 14 can be released into the greenhouse through heat radiation or heat exchange by heat exchangers.

Internet + artificial intelligence. Information collection, transmission, and control realize artificial intelligence of greenhouse facilities and intelligent parameter control of various vegetables and fruits. Through the mobile app, the Internet + personalized customized potted fruit and vegetable delivery service + healthy social platform can be realized, and the fun of growing vegetables can be shared. Customers can personally experience the fun of growing vegetables at home, grow them by themselves, and enjoy the most assured fruits and vegetables by themselves.

Claims (4)

1. A solar energy storage assembled greenhouse, comprising a left gable (1), a right gable (17), a rear wall and a shed film, characterized in that: the left gable (1), the right gable (17) and the rear gable The composition and structure of the walls all include a biomass insulation layer (15) made of straw pressing and a soft bag insulation layer (16) made of cotton quilts, and the inside of the left gable (1), right gable (17) and the rear wall Both are provided with water jackets (13) made of black plastic film, heat collecting and heat exchange tubes are arranged in the water jackets (13), solar heat collectors (9) are installed on the top of the rear wall, and solar heat collecting The device (9) is connected with the heat-collecting heat-exchanging tube, and the solar heat collector (9) is provided with a heat-conducting medium, and the heat-conducting medium after absorbing solar energy passes between the solar heat collector (9) and the heat-collecting medium under the action of the pump. Circulating in the heat exchange tubes, thereby storing the collected thermal energy in the water (14) in the water jacket (13), realizing energy storage; A heat dissipation heat exchanger and a heat dissipation fan (10) are arranged on the rear wall, and a heat dissipation heat exchange tube is also arranged in the water jacket (13). The radiator and heat exchange tubes are also provided with a heat transfer medium, and the heat transfer medium after absorbing the heat in the water jacket (13) circulates in the heat dissipation heat exchanger and heat exchange tubes under the action of the pump, and is released by the heat dissipation fan (10). into the greenhouse, thereby releasing the energy stored in the water jacket (13); Described right gable (17) is provided with door (8), between two gables, is provided with partition wall (7) near the side of right gable (17), partition wall (7) and right gable (17) ), a buffer zone for improving the thermal insulation performance of the greenhouse is left between, and the greenhouse film has two layers, which are respectively the outer greenhouse film (11) and the inner greenhouse film (2), and an air interlayer is left in the two-layer greenhouse film; The front side of the greenhouse is provided with a low wall (3), the low wall (3) is provided with a front air vent (4), and the rear wall is provided with a rear air vent (18). 2. A solar energy storage prefabricated greenhouse according to claim 1, characterized in that: the upper side of the outer shed film (11) is covered with a thermal insulation quilt (12). 3. A solar energy storage prefabricated greenhouse according to claim 1, characterized in that: the heat conduction medium is a graphene material, and its composition is 60% of silazane and 40% of two-dimensional carbon . 4. A solar energy storage prefabricated greenhouse according to claim 1, characterized in that: at least two planting blocks are arranged in parallel on the ground of the greenhouse, and two adjacent planting blocks (5) are arranged between There is an aisle (6), and the aisle (6) place is also provided with a water jacket (13) made of black plastic film.