CZ106692A3 - Solar greenhouse - Google Patents

Abstract

A solar greenhouse has a square base whose cross-section in the perpendicular direction to its longitudinal axis has the shape of a polygon with five or six sides. The longitudinal walls (12, 13) have different inclinations with respect to the horizontal plane and enclose a 90 DEG angle at the apex. The greenhouse essentially consists of modular trapezoidal windows (1) and is provided with a ventilation flap (14) with swivelling windows (4).

Description

Technical field

The invention relates to greenhouses for growing plants.

BACKGROUND OF THE INVENTION

The known solar greenhouses are mostly symmetrical about a vertical plane passing through the longitudinal axis. They usually have the shape of a rectangular prism with a gabled roof or have a circular section in section. Their advantage is simple assembly. However, these greenhouses do not adequately capture the sun's radiation. Rays falling approximately perpendicular to the greenhouse surface are particularly important for the growth of cultivated plants. Most of the other rays reflect off the walls and are essentially lost for growing plants inside the greenhouse. The solar greenhouse according to patent no. 133 009 solves this problem by the fact that the roof of a four-sided pyramid-shaped greenhouse is inclined so that one of its longitudinal walls stands perpendicular to the direction of the noon sunlight on December 21. The greenhouse is composed of transparent panels, preferably trapezoidal in shape. The disadvantage of this solution is that it is latitude-dependent and therefore not unambiguous in terms of greenhouse production and assembly. Moreover, not all trapezoid shapes are suitable for the construction of the panels of such greenhouses, so the invention does not actually solve the construction of such a greenhouse.

The object of the present invention is to provide a greenhouse that optimally captures perpendicular solar radiation over a greater part of the year and is practical and simple to design and install.

SUMMARY OF THE INVENTION

The solar greenhouse according to the invention has a rectangular base, has a polygonal shape with five or six walls on a cross-section perpendicular to the longitudinal axis, and its longitudinal walls have a different inclination to the horizontal plane. The longitudinal walls of the greenhouse form an angle of 90 ° at the top and are made up of the same rectangular odd-runner windows, the trapezoidal height being the module by which the dimensions of the greenhouse are determined. .

The shape of the greenhouse is determined by the mutual aspect ratio of the trapezoid and the slope of the southern wall.

The windows of which the solar greenhouse according to the invention is assembled are formed by trapezoidal glasses fitted into the frames and connected to each other by screw connections.

According to a further embodiment of the invention, the uppermost part of the greenhouse is provided with hinged ventilation windows.

The solar greenhouse according to the invention is of a self-supporting construction. The frames of the individual trapezoidal glasses are preferably made of thin-walled profiles, the joints of the inclined windows are complemented by an inter-lap. of V-profiles. the structure is further reinforced by fastening bars.

The basis of the greenhouse construction is the described modular window, which allows modular construction of various sizes depending on the purpose for which the greenhouse is to be used. The construction of the solar greenhouse according to the invention may be supplemented by rectangular windows derived from the module.

An advantage of the solar greenhouse according to the invention is that by inclining its longitudinal wall after it has been set up so that it is turned into p? readily to the south, it captures the sun's rays in relatively optimal amounts throughout most of the year. The design of the greenhouse, complete with ventilation, allows to maintain suitable temperature limits in the summer months without using air conditioning.

The modular design of the greenhouse made of modular trapezoidal windows is very strong and at the same time it enables efficient and simple production and assembly of greenhouses of various sizes.

BRIEF DESCRIPTION OF THE DRAWINGS

The invention is described in more detail by means of the examples shown in the accompanying drawings in which Figs. 1-5 represent different types of solar greenhouses according to the finding in an axonometric view; Fig. 6 is a cross-section of a solar greenhouse;

DETAILED DESCRIPTION OF THE INVENTION?

The solar greenhouse consists of 18 modular trapezoidal windows 11 forming a south longitudinal sloping wall 12 and a longitudinal support wall 13. they form an angle of 90 ° together. One of the longitudinal walls is raised by one row of modular windows. The vent canopy 14 comprises two fixed triangular windows 5, four fixed trapezoidal windows 6 and four hinged rectangular windows 4. The side walls 17 are formed by side windows 7 of triangular, rectangular and trapezoidal shape. The entrance to the greenhouse is through the door Ί1. The mutually glazed walls are connected by means of hardening plates 9 formed by 4 V-profiles. The lower edges of the greenhouse windows are fixed by their frames 13 to the fixing frame 8 of the base 16.

Example_2_

As in Example 1 but without the side walls 17 and the base 16. This variant is an extension tunnel for other variants.

? example_3

The greenhouse consists of 20 modular trapezoidal windows assembled together with the extension windows 3 into the longitudinal wall 12, 13. The extension window has a shorter side at half the length of the module represented by the height of the modular trapezoidal window 7. The vent canopy 14 is comprised of two fixed triangular windows 5, four trapezoidal windows 6 and eight openable rectangular windows 4. The side walls 17 are formed as in example 1. The door 11 is two-piece. The windows are made of glass embedded in a rubber seal and are fixed in frames made of glass-wall profile.

Example 4

The solar greenhouse, as in Example 1, consists essentially of 18 modular trapezoidal windows 2 assembled into a sloping wall 12 and a supporting wall 13. The vent canopy 11 is formed as in Example 3, but all windows are openable. The greenhouse is raised by a base 16 on which it is mounted by means of a fastening frame 8 and further by raising in the longitudinal walls 12, 13 by windows 2 whose height represents half of the greenhouse module.

Example 5

The solar greenhouse consists of 42 assembled to each other by means of walls 12 and 13 and into the lifting tubs as in Example 4.

The modular trapezoidal windows 11 of the screw connections 18 into the longitudinal walls 19. Otherwise, the greenhouse is a construct.

As Example 1, however, the greenhouse has a truncated cone shape with a single hinged window.

Industrial applicability

The invention is widely applicable to the cultivation of plants in large-scale horticulture and in small gardens. Its great advantage is its simple modular construction, which is self-contained and very strong. This design allows easy and relatively inexpensive manufacture and assembly. Functional parameters exceed this type of greenhouse used hitherto used greenhouses.

The modular construction of the greenhouse according to the invention is applicable to any shape and type of greenhouse or steamship.

Claims (4)

Patent claims A solar greenhouse with a rectangular base, having a cross-section perpendicular to the longitudinal axis of a polygon with five or six sides, characterized in that its longitudinal walls (12, 13) have a different inclination to the horizontal plane forming an angle of 90 ° to each other . Solar greenhouse according to claim 1, characterized in that it is composed of the same rectangular trapezoidal windows (1), the trapezoidal height being the module from which the dimensions of the greenhouse are derived. Solar greenhouse according to claim 1-2, characterized in that the shape of the greenhouse is determined by the relative aspect ratio of the trapezoidal window and the inclination of its southern wall. Solar greenhouse according to claims 1-3, characterized in that the trapezoidal windows (1) are formed by trapezoidal glasses fitted into frames (15) connected to each other by screw connections (18).