RU180667U1 - Greenhouse - Google Patents

Abstract

The utility model is aimed at improving the microclimate for plants and improving the convenience of their care and processing. The technical result is achieved due to the fact that the greenhouse, including a rectangular box, which is additionally equipped with a metal plate made around the perimeter of the box, and side faces, three of which are connected pivotally with a metal plate, and one side face is rigidly connected to the metal plate and provided with a cover pivotally connected to this side face. This design of the greenhouse allowed achitelno improve the microclimate for plants, because not only its upper part is opened, but also its side faces, which creates an unhindered approach to the plant and its root system from all sides, the necessary blowing and pollinating of plants. 6 ill.

Description

    The utility model relates to agriculture, in particular to the construction of sheltered soil, and can be used on personal plots and in farms.

    Known frame greenhouse (patent No. 103272), which is made in the form of a cylinder having a longitudinal section directed downward, including side arcs, which are part of a circle and guides (stiffeners). To create rigidity and structural integrity, each side arc is rigidly connected to two diametrically extending jumpers rigidly connected in the center of the segment. In the place of rigid fastening of the said jumpers, a round pin is welded, which is the axis of the hinged attachment of the vertices of the sectors of the lateral moving sheets enclosed in the frame to the jumpers of the end wall of the supporting frame of the greenhouse. The frame arcs are fastened to stiffeners using a bolted connection.

The disadvantages of the known supporting frame of the greenhouse are the low functionality associated with the limited internal volume of the greenhouse, which depends on the radius of the cylinder of the supporting frame, not allowing to grow different types of crops in the greenhouse, which worsens the microclimate for growing plants. In addition, the design of the known frame of the greenhouse involves rigidly fixing on top of the fixed top sheet, as a result, access to plants is carried out directly from the sides using moving sectors, which does not allow access to plants in the center of the greenhouse, making it difficult to process the upper parts of plants, for example , pinch plants, reduces the operating conditions of the device. The presence of integral stiffening ribs of the greenhouse frame increases the overall dimensions of the product during transportation and storage.

   The known greenhouse (patent No. 146334), which contains end elements interconnected by horizontal guides, movable elements, the tops of the sectors of which are pivotally connected to the end elements of the frame. The greenhouse is equipped with a supporting frame, the end elements of which are made rectangular, consisting of two pairs of end posts that are connected to the horizontal upper and lower rungs, the end elements of the supporting frame are interconnected by at least four horizontal guides, while one of the guides is connected to the midpoints of the opposite end racks. The movable elements, including the end walls, made in the form of sectors, the arcs of which are rigidly connected to horizontal guides, form the arched roof of the greenhouse frame and are installed with the possibility of free movement relative to each other, while the tops of the sectors of the end walls of the movable elements are pivotally connected to the midpoints of the upper horizontal crossbars end elements of the supporting frame of the greenhouse. The central angle of the sectors of the movable elements is straight, the radius of the small sector of the end wall of the movable element is equal to half the length of the upper crossbar of the end element of the bearing frame and less than the radius of the sector of the end wall of the large moving element, while the large moving element is equipped with a rectangular element to overlap the open area of the bearing frame, limited horizontal guide connecting the middle of the opposite end racks, while all the guides of the frame of the greenhouse are made fail p.

The main disadvantage of this frame of the greenhouse is that it is impossible to open both sides of the greenhouse at the same time, which worsens the microclimate for growing plants. Also, access to the plants themselves for their processing is difficult.

Known greenhouse mini-greenhouse from the frame panels (patent No. 113454) (prototype). The greenhouse consists of a base consisting of four eight frame panels perpendicularly connected by screws and nuts and screwed-on end posts with pipes welded to them under hinges to which ridge panels are mounted through the kingpin. The role of the skate is performed by the frames themselves. The gap between the frames in the ridge is covered with a layer of plastic film screwed with self-tapping screws, and the ridge frames can be raised and lowered at a large angle and held or adjusted by stops.

The disadvantages of the greenhouse are the low functionality associated with the limited internal volume of the greenhouse. It is necessary to select plants in height so that plants located closer to the edge of the greenhouse do not rest against the upper wings of the greenhouse. Plants will feel comfortable only those that are located in the center of the greenhouse. Also, open sashes will impede access to the greenhouse itself for processing plants. At maximum opening, the wings will experience a lot of pressure during windy weather and there is a chance of damage to the fastening of the wings themselves or the coating on them due to the large windage.

The objective of this utility model is to create the necessary microclimate for the plant in any weather and convenient access to the root of the plant.

EFFECT: improved microclimate for plants and increased convenience for their care and treatment.

The technical result is achieved due to the fact that the greenhouse, including a rectangular box, is additionally equipped with a metal plate made along the perimeter of the box, and side faces, three of which are pivotally connected to the metal plate, and one side side is rigidly connected to the metal plate and provided with a lid, articulated to this side face.

This design of the greenhouse has significantly improved the microclimate for the plant, because not only its upper part is opened, but also its side faces, which creates an unhindered approach to the plant and its root system from all sides, the necessary blowing and pollinating of plants.

A polymer coating is attached to the proposed greenhouse. This coating may be optically transparent or translucent. The sheet coating can be made of cellular polycarbonate, polyethylene or any other similar material. The use of cellular polycarbonate allows to achieve high strength coatings and durability of the greenhouse at reasonable costs. In order to protect cultivated plants from ultraviolet (UV) radiation during the assembly of the greenhouse, sheets of a polymer coating that do not allow UV radiation to enter the greenhouse can be used. In particular, a layer can be applied to the polymer coating to prevent the penetration of UV radiation.

All elements of the greenhouse, except for the box, are made of a profile pipe of rectangular, square, triangular or other cross-sectional profile. This profile pipe, as a rule, is hollow, however, manufacturing options for the frame from incomplete formations are possible. The profile pipe from which the frame elements are made can be made of metal or another material with the necessary strength characteristics. Particular cases of the manufacture of a profile pipe include its manufacture from steel, galvanized steel, polymer coated steel, polymer coated galvanized steel, another metal, another polymer coated metal.

In the event that the greenhouse is made from a hollow profile pipe, then this pipe can be made in such a way that it will have a weld seam or will not have this seam. In the presence of a weld, this seam may be continuous or non-continuous.

In FIG. 1 shows all the components of the greenhouse disassembled.

The greenhouse consists of a box (1), which can be made of different materials (concrete, wood, brick, iron, etc.). The metal plate (2), made around the perimeter of the box, is rigidly attached to it with the help of fasteners (screws, nails, screws, etc.). Three side faces (3) are connected to the metal plate (2) using hinges (4), which make it possible to open these side faces 180 degrees. One side face (5) is firmly attached to the metal plate (2). A cover (7) is fixed to the side face (5) using hinges (6), which make it possible to open 270 degrees.

In FIG. 2 shows a greenhouse assembled with ajar side edges (3) and ajar lid (7).

In FIG. Figure 3 shows a greenhouse when assembled when closed.

In FIG. 4 shows a greenhouse with closed side edges (3) and an open lid (7). This position is optimal for plants (8) in windy but sunny weather. Plants (8) are protected from the wind and open to the sun.

In FIG. 5 shows a greenhouse with closed side edges (3) and ajar lid (7), which is fixed in a certain position with the help of a latch (9). The position of the cover (7) is selected depending on weather conditions and the plant itself (8).

In FIG. 6 shows a greenhouse with open side faces (3) and an open lid (7). Plants (8) are very well blown and pollinated, which gives an increase in yield. This position is optimal for plants (8) in sunny, calm weather. It is very convenient to process plants (8), because access is available not only to its upper part, but also to the stem and root system.

A greenhouse is going to be very simple. A metal plate (2) is rigidly fixed to the finished box (1). On the metal plate (2), the side faces (3) are fixed from three sides through the hinges (4), and the side face (5) is rigidly fixed on the fourth side. On the side face (5) through the hinges (6), the cover (7) is fixed and the latches (9) are installed. The greenhouse is ready. The side faces are held together by fasteners. The metal plate (2), faces (3), face (5) and cover (7) may be welded, or may consist of individual elements and assemble into finished products at the assembly site.

Claims (1)

A greenhouse comprising a rectangular box, characterized in that the box is equipped with a metal plate made around the perimeter of the box and side faces, three of which are pivotally connected to the metal plate, and one side face is rigidly connected to the metal plate and provided with a lid pivotally connected to this side face.

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