MD703Z - Multi-season greenhouse - Google Patents

Abstract

The invention relates to agriculture, namely to the agricultural facilities for cultivation on protected ground, in particular to an all-season greenhouse.The greenhouse, according to the invention, consists of a carcass (1) formed of sections, mounted on a foundation (2), wherein each section consists of a frame made of tubes (7), fixed with cross braces, and two layers of polymer film (8, 9), fixed on the frame and hermetically connected to form an air insulating layer. The outer layer (8) of the film is made of light-permeable film and the inner (9) is combined, one longitudinal and one frontal wall being made of light-reflecting film, the remaining parts - of light-permeable film, the longitudinal walls are provided with transoms (6) installed in staggered order, and between the film layers (8, 9) is placed an infrared film heater (10) and a device (11) for air forced transport.

Description

The invention relates to agriculture, namely to agricultural constructions for cultivation on protected land, in particular to a multi-seasonal greenhouse.

A greenhouse is known, the body of which consists of a frame made of a thin cold-rolled steel sheet profile, curved in the form of arcs of a certain shape, and a light-permeable film covering, which forms a chamber for growing plants. The indicated greenhouse is easy to assemble and operate, is characterized by a low production cost, however, the main disadvantage is the impossibility of operation in winter [1].

There is also known a greenhouse, the casing of which is made of expanded polystyrene, on the inner surface of which is applied a light and heat reflecting element, and the chamber for growing plants is equipped with an air conditioning device, which allows to operate the greenhouse all year round, including in winter. The casing of the greenhouse, mounted on support blocks, is multi-section. The length can be any, but a multiple of the length of the section, since the multi-section greenhouse is formed by joining the end-to-end front surfaces of the sections in the longitudinal direction. However, the execution of the greenhouse casing from expanded polystyrene, impermeable to light, leads to the need to use intensive electric lighting during the entire period of use of the greenhouse [2]. Therefore, the main disadvantage of this technical solution is the increased energy consumption and the relatively high production cost of the greenhouse.

The closest technical solution is a multi-section all-season greenhouse, the body of which consists of vertical wooden or brick walls, thermally insulated from the inside with expanded polyethylene and covered with a light and heat reflective material - an aluminum foil. The roof is made of curved plastic pipes, fixed with transverse tension wires, which rest on the walls and two layers of polycarbonate with the formation of an air insulating layer [3].

In such a greenhouse construction, there is also a need for additional lighting. This leads to significant energy consumption. In addition, the use of expensive materials significantly increases the production cost of the greenhouse.

The problem solved by the present invention consists in creating a comfortable microclimate in the greenhouse with reduced energy consumption, simplifying the construction and reducing the production cost of the greenhouse.

The indicated problem is solved by the fact that the multi-season greenhouse consists of a casing formed by sections, installed on a foundation, in which each section consists of a frame made of pipes, fixed with transverse tension wires, and two layers of polymer film, fixed on the frame and tightly joined to form an air insulating layer, at the same time the outer layer of film is made of light-permeable film, and the inner one is combined, one longitudinal and one front wall being made of light-reflecting film, the remaining parts - of light-permeable film, the longitudinal walls are equipped with skylights installed in a checkerboard pattern, and between the layers of film an infrared film heater and a device for forced air transport are placed.

A thermally insulated foundation, buried in the ground, or the roof of a room for animals or birds is used as the foundation for the greenhouse.

The greenhouse is equipped with racks and seedlings and/or a green fodder production line system.

The device for forced air transport is connected to air ducts located under the racks with the possibility of transporting the air exhausted from the animal and poultry rooms.

The nursery consists of a casing, on which two layers of polymer film are fixed, tightly joined to form an air-insulating layer, while the outer layer is made of light-permeable film, the inner one - of light-reflecting film, and between them is placed an infrared film heater.

The essence of the invention is explained with the help of the drawings in Fig. 1, 2, which represent:

- Fig. 1, general view of the greenhouse on a foundation buried in the ground;

- Fig. 2, cross-section of the greenhouse located on the roof of a room for maintaining animals.

The greenhouse is made of a casing made up of sections 1, installed on a thermally insulated foundation buried in the ground 2, or on the roof of a room for animals, birds, etc. 3. In the case of using a foundation buried in the ground 2, the inner part is thermally insulated during its execution.

The greenhouse casing 1 is made of vertical or slightly inclined walls 4 and a roof 5, which can be single-pitched or double-pitched. The longitudinal walls 4 are equipped with pivoting skylights with an inclination in both directions 6. The skylight is rotated inward or outward depending on the air temperature, direction and strength of the wind. The skylights are arranged in a staggered manner, which eliminates direct drafts, expands the ventilation area and significantly reduces the number of skylights. They are equipped with fasteners (not shown). Each section consists of a frame made of plastic pipes 7 with a diameter of 3…4 cm, which rests on the foundation 2 or the roof of the room 3. The distance between the tension wires is 1…1.5 m. Two layers of polymer film are fixed on the frame - outer 8 and inner 9, at a distance of 10…12 cm from each other. In each section, the outer 8 and inner 9 layers of the film are hermetically sealed with the formation of an air-insulating layer, between the layers in the lower part there is an infrared film heater 10 and a fan 11, which ensures the forced transport of air into the formed space. In the case when air from the premises for keeping animals is used for heating, the air space between the layers 8 and 9 is connected through the air duct 12 to a hot air supply device, which includes a fan and a bactericidal treatment and dust removal unit 13. Air ducts 14, located under the racks for growing seedlings, vegetables, flowers, etc. 15, are also connected to this device.

When assembling the greenhouse, the sections are fixed with their front surfaces end to end in the longitudinal direction. The length of the multi-section greenhouse can be any. Such a construction of the greenhouse casing does not allow the formation of a layer of snow on the roof, thus contributing to an increase in the degree of illumination of the greenhouse working chamber and a reduction in operating costs for removing snow from the roof, compared to the closest solution.

The outer layer 8 of the greenhouse casing is made of light-permeable film, the inner layer 9 is combined: the greenhouse walls, oriented to the north and east, are made of light-reflecting film, the rest of the inner surface of the casing - of light-permeable film.

The greenhouse is equipped with racks for growing vegetables, flowers, etc. 15, and additionally with a seedling 16 for growing seedlings and/or a green fodder production line system 17. Due to the seasonal nature of the additional production, their organization and operation are carried out periodically. The greenhouse located on the roof of a room for keeping animals is necessarily equipped with a green fodder production line system during the winter.

The seedling consists of a casing 18, on which two layers of polymer film are fixed, tightly joined to form an air insulating layer, while the outer layer is made of light-permeable film 19, the inner one - of light-reflecting film 20, and between them an infrared film heater is placed.

The advantage of the present invention in comparison with the closest solution is the ability to increase the degree of illumination of the room for growing plants due to the application of photoconductive materials on the entire surface of the greenhouse casing, except for a longitudinal wall and a front wall. In addition, the use of modern light-permeable polymer films allows to protect plants from ultraviolet and violet rays harmful to them and simultaneously ensure the flow of yellow-red rays for photosynthesis, as a result, unlike the closest solution (the use of polycarbonate as a light-permeable material), plants tolerate overheating better. Unlike the closest solution, the claimed greenhouse during long days does not require additional lighting.

The use of light-reflecting film on north- and east-facing walls allows the heat accumulated in the greenhouse to be retained, the losses of which are considerable during winter.

The presence of an insulating layer of air in the hermetically sealed space creates a thermos effect, reducing the heat transfer from the greenhouse to the environment in winter and in the opposite direction - in the warm months of the year. The infrared film heater additionally placed in this space and the organization of forced heat transfer make it possible to consume minimal energy and maintain comfortable conditions for plant growth and development in the greenhouse in winter.

Installing the greenhouse on the roof of the livestock room allows to reduce heat losses from the farm by about 20%, as well as energy consumption for heating the greenhouse. The milking parlor drains and drains containing manure serve as fertilizer for plants, which reduces operating costs for both the farm due to drain cleaning and the greenhouse - for the purchase of fertilizers. In addition, equipping the greenhouse with a green fodder production system allows to supply the animals with green mass in winter, which promotes normal vital activity and maintenance of milking of animals. A similar effect is achieved when placing the greenhouse on a foundation buried in the ground, tightly attached to the wall of a room for keeping animals.

Equipping the greenhouse with seedlings allows you to produce seedlings both for the greenhouse and for sale, which helps reduce greenhouse operating costs. The use of two tightly joined polymer film layers as the roof of the greenhouse, mounted on the casing to form an air insulating layer, between which an infrared film heater is placed, allows you to operate the greenhouse at low temperatures in winter, with reduced energy consumption.

The use of modern polymer materials (films, pipes) contributes to simplifying and facilitating the construction of the greenhouse, as well as significantly reducing its production cost due to the simplicity of the greenhouse assembly and the relatively low cost of materials for its manufacture.

The greenhouse is assembled as follows. First, the site is selected with the obligatory drainage of wastewater. Taking into account the wind rose, the foundation is installed buried in the ground, thermally insulating it from the inside along the entire perimeter. The uprights and connecting bridges of the greenhouse casing are installed on the foundation. Frames for skylights are installed in a staggered manner on the casing of the longitudinal walls of the greenhouse, in the front part - the door sill. From the inside of the casing, the inner layer of the film is fixed, at the bottom of which the infrared film heater is fixed and the fan is installed, after which the outer layer of the film is fixed on the casing. The outer and inner layers of the film are tightly interconnected. The sealing of the casing gaps, in which the skylights are installed, is carried out by fixing the bevels to the upper and lower parts of the gap (not shown). If the greenhouse is assembled tightly against the wall of a room for keeping animals, an air duct is mounted at the bottom of the casing, which is connected to a hot air supply device in the room.

If the greenhouse is assembled on the roof of a room for keeping animals, the roof is prepared in advance, installing a support for fixing the casing and a device for supplying warm air from the room. Further assembly is carried out as described above.

After assembly, the greenhouse is equipped with racks, seedlings and/or a green fodder production system.

The prototype of the greenhouse built according to the proposed invention was successfully tested in cold winter conditions, confirming the aforementioned result.

1. RU 2196420 C2 2003.01.20

2. RU 2426302 C2 2009.09.10

3. Self-made winter greenhouse with a cellular polycarbonate roof. Found Internet: <URL: http://mojparnik.ru/index/zimnjaja_teplica/0-62 >

Claims (5)

1. Multi-season greenhouse consisting of a sectioned casing installed on a foundation, in which each section consists of a frame made of pipes, fixed with transverse tension wires, and two layers of polymer film, fixed to the frame and tightly joined to form an air-insulating layer, at the same time the outer layer of film is made of light-permeable film, and the inner one is combined, one longitudinal and one front wall being made of light-reflecting film, the remaining parts - of light-permeable film, the longitudinal walls are equipped with skylights installed in a checkerboard pattern, and between the layers of film there is placed an infrared film heater and a device for forced air transport. 2. Greenhouse according to claim 1, wherein a thermally insulated foundation buried in the ground or the roof of a room for animals or birds is used as the foundation. 3. Greenhouse according to claim 1, which is equipped with racks and seedlings and/or a green fodder production belt system. 4. Greenhouse, according to claims 1 and 3, in which the device for forced air transport is connected to air ducts placed under the racks with the possibility of transporting the air exhausted from the rooms for animals and birds. 5. Greenhouse, according to claim 3, in which the seedling consists of a casing, on which two layers of polymer film are fixed, tightly joined to form an air insulating layer, while the outer layer is made of light-permeable film, the inner one - of light-reflecting film, and between them an infrared film heater is placed.