RU2172582C2 - Greenhouse - Google Patents

Abstract

FIELD: agriculture. SUBSTANCE: greenhouse has grid 1 covered with transparent film 8. Grid is composed of separate concave sections 2 defining required greenhouse section. At least one end of sections 2 is anchored in ground or foundation. Greenhouse has at least one flat end wall 4. Each section 3, as well as wall 4, is manufactured from metal wire welded in intersection points so as to define cells formed as flat geometric figures. Various embodiments of greenhouse are presented. EFFECT: reduced labor consumption, simplified manufacture and assembling of greenhouse by creating carcass less, self-sustained and reliable construction. 4 cl, 3 dwg

Description

 The invention relates to agriculture, and in particular to devices of sheltered soil for growing plants for small farmers, horticultural and private households.

 Most of the technical solutions in this area are aimed at improving the design of greenhouse frames and attaching the thermal insulation coating. This task is costly and has not yet been effectively resolved.

 Known film greenhouse (ed. Certificate. USSR N 247693, 45f 9/14, 1969), containing a frame consisting of arches and battens, on top of which are two layers of film coating and a coolant placed on the ridge between the films. Obreshetina have V-shaped grooves located along the greenhouse, and between the films parallel to the arches cables are embedded in the grooves of the obreshetin.

 The disadvantage of the described film greenhouse is the complexity of manufacturing the frame and lathing and a large number of parts, which leads to the complexity of the assembly.

 Known film greenhouse (ed. Certificate. USSR N 1344282, A 01 G 9/14, 1987) containing a frame made of sections. Sections are formed by two pipes on which a piece of tubular film coating is put on. Pipes are extended along the width of the sleeve and with their ends they are put on the rods protruding above the soil. The pipes are installed so that the pipe of one section overlaps the adjacent pipe of the other section. The distance between the axes of the rods is equal to the two outer diameters of the pipes. To create an air gap between two layers of film, a cord is laid.

 The disadvantage of this film greenhouse is its high material consumption, because each arch is made of two bent pipes, one of which performs the function of a connecting element between sections, and the other is actually a carrier. The standard sleeve of the film is 1.5 m. In the described construction, the film will sag and tear in places of fastening during periods of wind load. If you use a smaller sleeve, then the material consumption of the frame increases even more, and as a result, the cost of the greenhouse increases sharply.

 A greenhouse is known for areas with a sharply continental climate (autosw. USSR N 1704699, A 01 G 9/14, 1992), including a frame and a translucent coating, which is equipped with a vaulted structure made in the form of separate lattice panels in contact with the coating of the greenhouse. The frame is made of metal bars. The described greenhouse is used in large greenhouse farms.

 The disadvantage of the greenhouse is its large metal consumption and the need for accurate manufacture of panels for their subsequent docking, which leads to difficulties in assembling the greenhouse.

 A known greenhouse for growing cultivated plants (Japanese application N 4-360626, A 01 G 9/14, 1992), having a number of movable and fixed elements, moved in the horizontal direction and designed to open and close part of the greenhouse in the daytime. The design contains movable elements located between the stationary elements that make up the frame of the greenhouse. If it is necessary to open the greenhouse, the movable elements are moved horizontally by the engine, depending on the ambient temperature.

 The disadvantage of the greenhouse is its complexity and high cost, due to the need to manufacture accurate mechanical guides for moving the arch structure and the availability of electrical equipment.

 Closest to the technical nature of the claimed one is a greenhouse (USSR patent N 2062019, A 01 G 9/14, 1996), containing a frame with a grid fixed to it, on which a transparent film is placed, and the cell sizes of the grid located on the top of the frame, smaller sizes of mesh cells located on its side parts. The design contains side racks on which a flexible mesh is attached, paired with a film. In the tented version of the implementation, in addition to the side racks, an additional rack is installed in the center of the greenhouse and braces and pegs are used to fix the flexible grid.

 The disadvantages of the above greenhouse are significant labor costs and cost, as well as the complexity of manufacturing and assembly due to the presence of a separate frame, racks, fasteners necessary to stretch a flexible mesh and fasten a film over it.

 The objective of the invention is to reduce labor costs, cost, simplifying the manufacture and assembly of the greenhouse by creating a frameless, self-supporting and reliable design.

 The problem is solved in the invention in that the greenhouse containing the grid, on which the transparent film is placed, contains at least one end flat wall, and the grid consists of separate sections curved to form the necessary section of the greenhouse, at least one end of which is fixed in the ground or the foundation, with each section and the end flat wall made of metal wire welded at the intersection with the formation of cells in the form of flat geometric shapes.

 Separate sections are connected to each other, for example, by bending the protruding parts of the wire, or installed with an overlap.

 The doors of the greenhouse are made in the end flat wall or in one of the sections.

 The foundation is made in the form of bars with grooves longitudinal along the entire length of the bars, in which rods or pipes with a transparent film wound and fixed on them are placed.

 In FIG. 1 presents the inventive greenhouse with a gable roof; in FIG. 2 - terrace version of the arched greenhouse; in FIG. 3 - wall-mounted version of the greenhouse.

 In the particular embodiment shown in FIG. 1, the greenhouse with a gable roof contains a grid 1, consisting of separate sections 2, curved to form the necessary section of the greenhouse. Both ends of sections 2 are fixed in the foundation 3. Doors 6 are made in the end flat walls 4 and 5. A rod or pipe 7 is placed in the foundation 3 with a transparent film 8 wound and fixed on it, which covers the mesh 1.

 Separate curved sections 2 of the greenhouse, as well as end flat walls 4 and 5, are made of metal wire welded at the intersection with the formation of cells in the form of flat geometric shapes. By changing the diameter of the wire, the size and geometry of the cells of the sections (for example, square, rectangle, rhombus, ellipse, etc.), it is possible to adjust the rigidity of the self-supporting design of the greenhouse over a wide range. This is necessary to create greenhouses of various sizes and the use of greenhouses in any climatic zones to ensure reliability under mechanical loads, especially wind. The mesh sizes on the sides of the greenhouse may be smaller than the mesh sizes on the top of the greenhouse to increase structural rigidity. A greenhouse can consist of any number of sections. The individual sections 2 can be interconnected by any known methods, for example, by bending the horizontal protruding parts of the wire of one section around the horizontal or vertical parts of the other section. The end flat walls 4 and 5 can also be attached to the end sections 2 in any known manner. In the case of using the foundation, it can be made in the form of bars (Fig. 1) of concrete, wood and other materials. The ends of the sections 2 are fixed in the foundation 3 by pouring, driving, etc. A transparent film 8 is placed on top of the metal mesh 1, two opposite ends of which are wound on rods or pipes 7 placed in the grooves of the foundation 3. To maximize the use of the area and volume of protected soil, the section of the greenhouse can have a different geometric shape: arched, gable, single-pitch, triangular or different.

 In FIG. Figure 2 shows a terrace version of an arched greenhouse installed on a slope plot. The greenhouse contains a grid 1, consisting of separate sections 2, curved to form the necessary section of the greenhouse. Both ends of sections 2 are fixed in the foundation 3, the bars of which are located at different levels. The end flat walls 4 and 5 are connected to the extreme sections 2. For convenience, the door 6 is located in one of the sections 2. In the foundation 3 there is a rod or pipe 7 with a transparent film 8 wound and fixed on it, which covers the grid 1.

 In FIG. 3 shows a wall-mounted version of the greenhouse. The greenhouse contains a grid 1, consisting of separate sections 2, curved to form the necessary section of the greenhouse. One end of sections 2 is fixed in the foundation 3, and the other end is fixed in the wall of the building (houses, barn, fence, etc.). The end flat walls 4 and 5 are connected to the extreme sections 2. In one of the end flat walls there is a door 6; the door 6 can also be located in one of the sections 2. In the foundation 3 there is a rod or pipe 7 with a transparent film 8 wound and fixed on it, which covers the net 1. The second end of the film 8 is attached to the wall of the building by any known method. In another wall-mounted version of the greenhouse, one of the end flat walls (not shown) may adjoin the wall of the structure.

 To improve the heat-shielding properties of the greenhouse due to the formation of an air gap between the two layers of the transparent film, each individual section 2 can be placed in the "sleeve" of the transparent film, after which the desired section of the greenhouse is formed from the sections 2. Section 2 in this case overlap (by laying tiles). The ends of the sections 2 are fixed by any of the methods described above, depending on the version of the greenhouse.

 When installing a greenhouse on the soil, the ends of the sections 2 are dug to the required depth or secured, for example, with wire V-brackets. When installing a greenhouse on a wooden foundation, the protruding parts of the wire of sections 2 are bent by 15-20 mm and nailed to the bars. When using strip concrete foundations, the protruding parts of the wire of sections 2 are poured into a concrete solution. When installing a greenhouse, the desired area of protected ground and, accordingly, the height of the greenhouse are selected. After installing a self-supporting mesh structure, end flat walls 4 and 5 with a transparent film pre-fixed on them are attached to the end sections 2. The transparent film 8 is tightly pulled over the curved sections 2, and the free ends of the film 8 are screwed onto the rods or pipes 7, which are laid in the grooves of the foundation 3. The film 8 is held over the metal mesh 1 due to the tension of the ends of the film with rods or pipes 7. the film 8 can be further attached internally to the net 1 by adhesive tape.

Claims (4)

 1. A greenhouse containing a grid on which a transparent film is placed, characterized in that it contains at least one end flat wall, and the grid consists of sections, at least one end of which is curved to form the necessary section of the greenhouse, fixed to soil or foundation, each section and end flat wall made of metal wire welded at the intersection with the formation of cells in the form of flat geometric shapes.  2. The greenhouse according to claim 1, characterized in that the individual sections are connected to each other, for example, by bending the protruding parts of the wire, or installed overlap.  3. The greenhouse according to claim 1, characterized in that the doors of the greenhouse are made in the end flat wall or in one of the sections.  4. The greenhouse according to claim 1, characterized in that the foundation is made in the form of bars with grooves longitudinal along the entire length of the bars, in which rods or pipes with a transparent film wound and fixed on them are placed.

Images