RU2563662C2 - Cover for greenhouse - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to agriculture and is intended for use as heat-insulating translucent cover of greenhouses and interior gardens. The cover for greenhouse comprises a number of vacuum bags containing translucent sheets of monolithic polycarbonate, spacers and tubulations. The tabulations of the vacuum bags are connected with common pipeline provided with a pressure sensor. The pipeline is connected to the pumping system operating in automatic mode. The spacer has the shape of an extended triangular prism which edges are parallel to one side of the sheet. Two edges of the prism coincide with the surface of the polycarbonate sheet and belong to it. The package sheets are unfolded towards each other by 90° and contact each other at the intersection points of edges of prisms, which form the spacers and do not belong to the sheet surface.

EFFECT: calculated level of heat transfer resistance of the vacuum bag is maintained for the entire period of operation, heat loss through the spacers is reduced.

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Description

The invention relates to agriculture and is intended for use as a heat-insulating translucent coating of greenhouses and winter gardens.

To date, several basic translucent materials known in the construction of greenhouse coatings are known. These include film, glass and cellular polycarbonate (http://www.oknainfo.ru/n_konstruk/konstruk_019.htm). The use of film and glass in coatings is gradually abandoned. From films - due to fragility. From glass - because of their fragility, complexity of installation, injury hazard. They are replaced with such modern material as cellular polycarbonate. Polycarbonate is characterized by increased strength and lightness compared to glass or the same film, safety (it is extremely difficult to break it). In addition, polycarbonate greenhouses create the most favorable climate and retain moisture. This is explained quite simply: if glass helps to dry the earth, then polycarbonate, due to its cellular structure, scatters direct sunlight, retaining moisture.

But the best result in thermal insulation is given by replacing air (or inert gas) in the space between the glasses with a vacuum, which improves the heat-insulating and sound-absorbing properties of the glass packet.

For example, a vacuum package is built on this principle, the description of which is given in the link (http://www.rmnt.ru/catalog/windows_block/384536.htm). The vacuum package in its design features is close to the proposed technical solution, so it can be chosen as a prototype. The vacuum package consists of two 3 mm translucent panels with a vacuum gap. As a translucent material, glass or monolithic polycarbonate can be selected. The total thickness of the bag is only 6 mm. So that the structure can withstand atmospheric pressure, an array of spacers (spacers) is installed uniformly in the inter-glass space, which at the same time guarantee a fixed distance between translucent materials. Spacers are usually made of metal or glass ceramics and arranged on a grid with a pitch of about 20-40 mm. A vacuum is created by pumping air through a plug (non-return valve), placed on the translucent material of the vacuum bag. As a result, a vacuum is created in the inter-glass space. The edges of the vacuum bag are treated with an epoxy sealant that matches the expansion coefficient for float glass. Thus, this vacuum package is ideal for structures such as translucent roofs, winter gardens, shop windows, etc.

The disadvantages of the vacuum bag include the fact that any bending during installation can damage the sealant. In addition, over time, under the influence of external factors, the sealant changes its physicochemical properties, which can lead to a violation of the tightness of the vacuum bag, and air and moisture penetrate the layer between the translucent materials, which leads to fogging. If you do not restore the tightness, the inner surfaces of the glasses will darken, which will sharply reduce their light transmission and heat-insulating properties. In addition, heat loss occurs through the spacers, as they touch the surface of the translucent material in a line. Since spacers are independent structural parts, the technology of their uniform installation between translucent materials is hindered.

The technical problem solved by the proposed invention is to maintain the calculated degree of heat transfer resistance of the vacuum package for the entire period of operation, that is, to maintain vacuum in the inter-glass space, as well as to reduce heat transfer through spacers.

The technical result is achieved by the fact that the coating for the greenhouse includes a number of vacuum bags containing translucent sheets of monolithic polycarbonate, spacers and pins. In this case, the plugs of the vacuum bags are connected by a common pipe equipped with a pressure sensor, and the pipe is connected to a pumping system operating in automatic mode. In addition, each of the spacers has the shape of an extended triangular prism, the edges of which are parallel to one of the sides of the sheet, and the two edges of the prism coincide with the surface of the polycarbonate sheet and belong to it, in addition, the sheets of the packet are rotated 90 ° relative to each other and are in contact with each other points of intersection of the edges of the prisms forming spacers.

This technical solution allows you to constantly control the pressure in the system. When the pressure in the pipeline changes by the signal of the pressure sensor, the pumping system is automatically switched on and the pressure is adjusted to the optimum value.

The coating device is shown in the drawings.

In FIG. 1 shows a diagram of the connection of vacuum packages into a single system.

In FIG. 2 is a drawing of a vacuum bag.

The vacuum package contains sheets 1 and 2, made of translucent monolithic polycarbonate. One side of the sheet 1 and 2 is equipped with spacers 3 having the shape of an extended triangular prism. Spacers are made integral with polycarbonate sheets. The sheets are rotated relative to each other 90 degrees. The vacuum bag is equipped with a plug 4. The vacuum bag is lubricated with a sealant along the circuit 5. The plugs of the vacuum bags are hermetically connected to the pipe 6. The pipe is equipped with a pressure sensor 7 and is connected to the pumping system 8, which operates in automatic mode. S ₁ -S _i - vacuum bags.

Greenhouse coating is used as follows:

Vacuum bags S ₁ -S _i are installed on the finished frame of the greenhouse _. After that, the plugs 4 of all vacuum packages are hermetically connected to the pipeline 6. The pipeline is connected to the pumping system 8. When the pressure in the pipe 6 changes, the pumping system 8 is automatically turned on by the signal from the pressure sensor 7 and the pressure is adjusted to the optimum value.

Claims (1)

The cover for the greenhouse, including a series of vacuum bags containing translucent sheets of monolithic polycarbonate, spacers and pins, the pads of the vacuum bags are connected by a common pipe equipped with a pressure sensor, and the pipe is connected to a pumping system operating in automatic mode, each of the spacers has the shape of an extended triangular prism, the edges of which are parallel to one of the sides of the sheet, and two edges of the prism coincide with the surface of the polycarbonate sheet and belong to it, in addition, ists package deployed with respect to each other by 90 ° and are in contact with each other at the points of intersection of the prism edges forming spacers.

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