MD1160Z - Greenhouse - Google Patents

Abstract

The invention relates to agriculture, namely to agricultural structures for growing tall plants from seeds or seedlings, in particular to a greenhouse.The greenhouse consists of a body, formed of vertical beams, installed on foundation blocks (2), a roof (20) and side walls (21). The beams consist of lower (15) and upper (14) parts, located on thrust bearings (3). On the lower parts (15) of the beams are placed a bevel drive (4), connected to an electric motor (6), and two bearings (7), connected to the shelves of the racks (10). On the lower shelves of the racks (10) are placed plastic capacities (9), and on the upper shelves - boxes with soil (11). On the upper parts (14) of the beams are made threaded portions, on which is placed one support nut (18) with at least one retainer (19) for securing the roof (20). From the inside, on the sides of the greenhouse are placed radiators, above which are placed pipes, formed of two component parts, in the lower part of which are placed fans, and the upper part is conically expanded and attached to the roof (20).

Description

The invention relates to agriculture, namely to agricultural constructions for cultivating tall plants from seeds or seedlings, in particular to a greenhouse.

A greenhouse housing for growing tall plants with a movable roof mounted on vertical poles is known, at the upper ends of which lifting-lowering devices are rigidly fixed, which raise the roof in accordance with the height of the plants [1].

The disadvantage of this greenhouse casing is the lack of the possibility of remotely controlling the position of the roof mounted on high poles.

Also known is a greenhouse, which contains a casing with side walls, roof, soil for plants, equipped with a sliding mechanism for moving the nets driven by an electric motor [2].

The disadvantage of this greenhouse is the high energy consumption for heating, as the height of the greenhouse roof is constant, which requires additional heating of the remaining free space while the plants are small.

The problem that the invention solves consists in reducing energy consumption, while maintaining the possibility of remote control of the movement of the greenhouse roof.

The greenhouse, according to the invention, eliminates the above-mentioned disadvantage by consisting of a casing formed by vertical beams installed on foundation blocks, a roof and side walls, made of light-permeable film. The beams are formed by lower and upper parts, joined by means of connecting tubes and placed with the possibility of rotation around its axis on axial bearings, on the lower part of each beam a bevel gear is placed, which by means of a coupling is connected to an electric motor, and on the upper part of each beam threaded portions are made, on which a support nut with at least one fastener for fixing the roof, equipped with protection cones, is placed, at the same time at the end of the upper parts of the beams a limit switch is fixed. On the lower part of each beam, above the bevel gears, there are two radial bearings connected to the shelves of racks, the legs of which, located near the side walls, are made with extensions in the upper part, on which reflective films are fixed. On the lower shelves of the racks are placed plastic containers filled with water, and on the upper shelves - boxes with soil for growing plants. On the inner sides of the greenhouse are placed radiators for heating, and above them are placed pipes consisting of two component parts, in the lower part of which are located fans, and the upper part is widened conically and is fixed to the roof.

The technical result of the invention consists in the fact that a change in the position of the roof is ensured along with the growth of the plants, which makes it possible to save energy. It also ensures a reduction in energy consumption when heating the space by means of radiators, above which pipes consisting of two component parts are placed, at the bottom of which fans and plastic containers filled with water are placed along the side walls, which serve as heat accumulators during the day, and the movement of the roof can be performed remotely.

The invention is explained by the drawings in Fig. 1 ... 3, which represent:

- Fig. 1, greenhouse in cross-section;

- Fig. 2, location of the heating and air circulation system in the greenhouse;

- Fig. 3, air movement under the roof (relative to one of the side walls).

List of elements in Fig. 1, 2 and 3:

1 - foundation, 2 - foundation blocks, 3 - thrust bearings, 4 - bevel gears, 5 - coupling, 6 - electric motor, 7 - radial bearings, 8 - shelf, 9 - plastic containers filled with water, 10 - racks, 11 - boxes with soil, 12 - plants, 13 - connecting tube, 14 - upper part of the beam, 15 - lower part of the beam, 16 - rack foot, 17 - light-permeable film, 18 - support nut, 19 - fastener, 20 - greenhouse roof, 21 - side walls, 22 - protective cones, 23 - limit switch, 24 - heating radiators, 25 - fans, 26 - lower part of the pipe consisting of two parts, 27 - upper part of the pipe consisting of two parts components, 28 - conical expansion of the pipe. The arrows indicate the movement of air currents.

The greenhouse (Fig. 1, 2, 3) consists of a frame formed by identical vertical beams consisting of lower parts 15 and upper parts 14, connected by means of connecting tubes 13, roof 20 and side walls 21, made of light-permeable film. On the foundation blocks 2, located on the foundation 1, electric motors 6 are mounted, the number of electric motors is equal to the number of vertical beams, which are located with the possibility of rotation around their axis on axial bearings 3, on the lower part 15 of each beam a bevel gear 4 is located, which by means of the coupling 5 is connected to the respective electric motor 6. On the upper part 14 of each beam, threaded portions are made, on which a support nut 18 with at least one fastener 19 for fixing the roof 20 is placed, which is made with holes for movement along the upper part 14 of the vertical beam, protected from rain with protective cones 22, at the same time, at the end of the upper parts 14 of the beams, a limit switch 23 is fixed. On the lower part 15 of each beam, above the bevel gears 4, two radial bearings 7 are placed joined to the shelves 8 of the racks 10, the legs 16 of which, located near the side walls, are made with extensions in the upper part, on which reflective films 17 are fixed, installed parallel to the reflective parts located opposite. On the lower shelves 8 of the racks 10 are placed plastic containers 9 filled with water, and on the upper shelves 8 - boxes with soil 11 for growing plants 12. On the inner sides of the greenhouse are placed radiators 24 for heating, and above them are placed pipes consisting of two component parts 26 and 27, in the lower part of which are placed fans 25, and the upper part is widened conically 28 and is fixed to the roof 20.

The greenhouse can be used in the following way.

In the boxes with soil 11, placed on the shelves 8 of the racks 10, seeds or seedlings of plants 12 are planted, the heating radiators 24 are supplied with a heat agent (for example, water), ensuring a favorable temperature in the greenhouse for the growth of plants 12. The roof 20 takes its initial position, being placed at the bottom of the upper part 14 of the vertical beam. The light passing through the side walls 21, made of a light-permeable film, as well as through the transparent roof 20, falls not only on the surface covered with plants 12, but also on the reflective films 17, from which it is reflected to the plants. Due to the parallel arrangement of the reflective parts located opposite the reflective films 17, the light is reflected several times, thus creating the effect of additional lighting installations for plants 12.

The height of the reflective films 17 is 15…20 cm, therefore the effect of increased illumination of the plants is of great importance at the initial stages of development, i.e. in early spring, when the duration of the day with sunlight is shorter than in summer.

Part of the warm air from the radiators 24 is distributed by the fans 25 through the lower component parts 26 of the two-component pipes, from where the warm air through the conical expansions 28 of the upper component parts 27 of the pipes is transmitted to the roof 20 (Fig. 3). The cooled air flows, passing under the roof 20 from the left and right sides of the roof slope, meet at the top of the roof and move down to the center of the greenhouse (Fig. 2). Further, this air is divided into left and right flows and pass around the plastic containers 9 filled with water, which serve as heat accumulators and avoid temperature fluctuations in the greenhouse. In this position of the roof the volume of air in the greenhouse is minimal, therefore, in the cold period of early spring less energy is required to maintain the desired temperature in the greenhouse. As the plants 12 grow, the roof 20 gradually rises by driving the electric motors 6, mounted on the foundation blocks 2, located on the foundation 1. Through the couplings 5 and the bevel gears 4, the electric motors 6 rotate the lower parts 15 of the vertical beams, located on the axial bearings 3. The lower parts 15 of the vertical beams rotate in the nodes of the radial bearings 7.

The rotational movement of the lower parts 15 of the beams is transmitted to the upper parts 14 of the vertical beams, on the threaded portions of which the support nuts 18 with at least one fastener 19 move for fixing the roof 20, thus raising the roof 20. The protective cones 22 do not allow rainwater to enter the holes of the roof 20. At the moment when the roof 20 touches the upper end of the upper parts 14 of the vertical beams, the electric motors 6 are disconnected by means of the control blocks (not shown) operated by the limit switches 23.

The combination of these features allows for reduced energy consumption, while maintaining the possibility of remote control of the greenhouse roof movement.

1. MD 876 Y 2015.02.28

2. SU 1237121 A1 1986.06.15

Claims (1)

Greenhouse, which consists of a frame formed by vertical beams installed on foundation blocks (2), a roof (20) and side walls (21), made of light-permeable film; the beams are made up of lower (15) and upper (14) parts, joined by means of connecting tubes (13) and placed with the possibility of rotation around its axis on axial bearings (3), on the lower part (15) of each beam a bevel gear (4) is placed, which by means of a coupling (5) is connected to an electric motor (6), and on the upper part (14) of each beam threaded portions are made, on which a support nut (18) with at least one fastener (19) for fixing the roof (20), equipped with protection cones (22), is placed, at the same time at the end of the upper parts (14) of the beams a limit switch (23) is fixed; on the lower part (15) of each beam, above the bevel gears (4), there are two radial bearings (7) connected to the shelves of racks (10), the legs of which, located near the side walls, are made with extensions in the upper part, on which reflective films (17) are fixed, at the same time on the lower shelves of the racks (10) there are plastic containers (9) filled with water, and on the upper shelves - boxes with soil (11) for growing plants; on the inner sides of the greenhouse there are radiators (24) for heating, and above them there are pipes made of two component parts (26) and (27), in the lower part of which there are fans (25), and the upper part is widened conically and is fixed to the roof (20).