RU162195U1 - GREENHOUSE ASSEMBLY - Google Patents

Abstract

1. Greenhouse team, including a translucent fence, a metal supporting frame, including transverse, longitudinal and end elements; containing at least one window leaf made in the form of a sheet of translucent fencing connected to movable elements; guides made of a U-shaped profile containing a base and walls forming a groove in which the sliding elements are located, characterized in that the edges of the walls of the guides are bent inward, and the sliding elements are segments of a U-shaped profile containing the base of the sliding element and the wall sliding element, and placed in the grooves of the guides with the base of the sliding element up. 2. A greenhouse according to claim 1, characterized in that the greenhouse is made of an arched structure. 3. A greenhouse according to claim 1, characterized in that the greenhouse is made with a gable roof. 4. Greenhouse 1-3, characterized in that it contains at least two guides for the movement of each window. 5. A greenhouse according to claim 1, characterized in that the guides are fixed on the transverse elements of the frame. 6. A greenhouse according to claim 1, characterized in that the guides are fixed on the longitudinal elements of the frame. 7. A greenhouse according to claim 1, characterized in that the guides form at least part of the transverse elements of the frame. A greenhouse according to claim 1, characterized in that the guides form at least part of the longitudinal elements of the frame. A greenhouse according to claim 1, characterized in that the translucent fence is made of cellular polycarbonate.

Description

The utility model relates to designs of greenhouses and hotbeds for various agricultural purposes, equipped with devices designed for their ventilation.

At present, in gardening, one of the main trends in improving the design solutions of the greenhouse is the introduction of the so-called “opening roof” in its design, which makes it easy and convenient to open the upper part of the greenhouse due to the movement of the translucent fencing elements relative to the frame of the greenhouse. Such designs allow you to conveniently and quickly ventilate the interior of the greenhouse in the summer, and in winter exclude the snow load on the frame of the greenhouse. Also in winter, snow falling inside the greenhouse protects the earth from the aggressive effects of temperature fluctuations, freezing, provides uniform moisture and supports the natural fertility of the soil. In spring, when snow melts, the soil in the greenhouse is moistened naturally, which supports the natural biosynthesis of soil biota and has a beneficial effect on soil fertility.

Known greenhouse team (options), patent RU 138442, publ. 03/20/2014, A01G 9/14. The specified greenhouse includes a fence made of sheet translucent material, a metal supporting frame of the fence, including transverse, longitudinal and end elements, and at least one window leaf. The window is made in the form of a sheet of solid translucent material, mainly cellular polycarbonate, while the side sections of the window are made in the form of guides fixed on the transverse parts of the greenhouse, having a U-shaped groove with elastic walls to accommodate the edges of the window. In addition, the window leaf on the upper and lower edges has edge strips fixed on it, which simultaneously perform the function of handles.

The greenhouse according to the patent RU 138442 has the following disadvantages. The edges of the window are placed in the U-shaped grooves of the guides, along which they slide. The grooves have a size comparable to the thickness of a sheet of cellular polycarbonate, from which the window is made. Cellular polycarbonate, like many plastics, is subject to thermal expansions, so it is likely that its movement in the groove can become significantly more complicated over time. In addition, problems with the mobility and smoothness of the polycarbonate sheets in the grooves can occur if dirt gets into them or the skeleton is skewed after winter and if the soil shrinks when installed in the ground without a foundation in areas with a high level of groundwater. In the known construction, the guides, in the grooves of which the edges of the window are located, are made elastic, that is, of plastic. Plastic profiles are known to undergo rapid wear, and cracks may appear on them below -30 ° C. Another disadvantage is the unreliability of the fastening of the window, since in addition to the grooves of the guides, the design does not provide any additional fixation elements for a wide sheet of cellular polycarbonate, in connection with which such a sheet may fall out of the grooves with strong gusts of wind.

The famous greenhouse of the brand “Nursery-Umnitsa”, produced by the Metal Service plant, Novosibirsk (see information about the greenhouse on the website: http://zavod-mc.ru/produktsiya/kormilitsa-umnitsa.html), selected as the closest analogue. Known prefabricated greenhouse includes a translucent fence, a metal supporting frame, including transverse, longitudinal and end elements. The greenhouse along the entire length contains one window, made of sheets of translucent material, connected to the movable elements in the form of rollers. On the frame of the greenhouse, rails are made made of a U-shaped profile in which the rollers are placed. The greenhouse also contains a winch opening / closing mechanism for the window and latches mounted on the end elements of the frame for fixing the window in its extreme positions.

The disadvantages of the closest analogue are the design complexity, due to the need to use a winch mechanism and position locks of the window, as well as the impossibility of sectional opening of the greenhouse.

The technical result of the proposed greenhouse team is aimed at simplifying the design while maintaining the smoothness of the window and the reliability of its fastening and providing the possibility of sectional opening of the greenhouse.

The technical result is achieved due to the fact that the proposed greenhouse team, including a translucent fence, a metal supporting frame, including transverse, longitudinal and end elements; containing at least one window leaf made in the form of a sheet of translucent fencing connected to movable elements; guides made of a U-shaped profile containing a base and walls forming a groove in which the sliding elements are placed, while the edges of the walls of the guides are bent inward, and the sliding elements are segments of a U-shaped profile containing the base of the sliding element and the walls of the sliding element , and placed in the grooves of the guides with the base of the sliding element up.

The greenhouse assembly may preferably contain two or more guides for the movement of each window. The guides are fixed either on the transverse or on the longitudinal elements of the frame or form at least part of the transverse or part of the longitudinal elements of the frame. Mostly the translucent fence of the greenhouse is made of cellular polycarbonate. The proposed greenhouse can be made arched or with a gable roof.

The described device is illustrated by the following graphic materials:

In FIG. 1 shows a general view of a greenhouse of a prefabricated arched structure.

In FIG. 2 shows options (I) and (II) for the execution of a sliding element.

The greenhouse prefabricated arch structure includes a translucent fence 1, a metal supporting frame 2, including transverse 3, longitudinal 4 and end 5 elements, for example, three window leaves 6, guides 7. Each window 6 is made in the form of a sheet of translucent fence 8, for example, cellular polycarbonate connected with sliding elements 9. The guides 7 are made of a metal U-shaped profile containing the base 10 and the walls 11 with the edges 12 bent inward, forming a groove 13. The guides 7 are attached to the fastening elements and, for example, with self-tapping screws (not shown in FIG.), to the transverse elements 3 of the frame 2. To close / open the window 6, the polycarbonate sheet 8 is moved, closing / opening the opening, for the handle fixed on it (not shown in FIG.)

In the General case, the sliding element 9 is a segment of a U-shaped profile containing the base of the sliding element 14 and the walls of the sliding element 15, and is placed in the groove 13 of the guide 7 with the base of the sliding element 14 up. The walls of the sliding element 15 can be straight (I variant in Fig. 2) or have edges 16 bent inward (II variant in Fig. 2). The shape and location of the sliding element 9 allows it to slide inside the guide 7 without touching the heads of fasteners, for example self-tapping screws, with which the guides 7 are attached to the frame 2. When the window 6 moves along the guide 7, friction occurs between the curved edges 12 and the sliding element 9, which provides the rigidity of the vent window and allows it to remain stationary in any position without additional fixation, which is an advantage compared to the closest analogue, where the movable elements are in the form of a roller They roll along the U-shaped groove of the guide, and to fix the vents, special clips fixed to the frame of the greenhouse are used.

The vents 6 are fastened to the honeycomb polycarbonate sheet 8 by means of screws 17 in rows, the sliding elements 9 at a distance between the rows corresponding to the distance between the guides 7. The transverse dimensions of the profile and the length of the section of the profile from which the sliding element 9 is made are selected so that it is possible its smooth sliding inside the guide 7, which in the case of an arched design of the greenhouse has radius sections. Mostly the length of the profile section is selected in the range of 1-2 profile heights from which the guide 7 is made.

The number of guides 7 for each window and the sliding elements 9 located in them is selected in such a way as to ensure reliable fixation of the window 6 to the greenhouse. For example, for a two-meter-long window, the recommended number of guides is three pieces. The recommended number of sliding elements 9 for a three-meter-wide greenhouse is three pieces in each rail 7.

If it is necessary to slide the vents 6 along the transverse elements 3 of the carcass 2, the guides 7 can be fixed on the transverse elements 3 of the carcass 2, as shown in FIG. one.

If it is necessary to slide the vents 6 along the longitudinal elements 4 of the frame 2, the guides 7 can be fixed on the longitudinal elements 4 of the frame 2, as shown in FIG. 3. The assembly of the greenhouse in this case is as follows. A metal support frame 2 of the greenhouse is installed, on which a guard 1 is further mounted, for example of cellular polycarbonate, except for the areas where the air vents 6 will be installed. Further, the guides 7 are fixedly attached to the longitudinal elements of the frame, while the guides are fixed in places where there is a guard 1 on top of it. The guides 7 are fixed with screws or screws, while the heads of the fasteners remain inside the guides. Next, in the grooves 13 of the guides 7 set the sliding elements 9 with a translucent fence 8 attached to them.

The proposed window 6 and the guides 7 can be installed on any previously mounted greenhouse or greenhouse. Namely, this installation is possible by removing part of the fence in the upper part of the existing greenhouse / greenhouse, securing the guides 7 on the frame and installing vents 6 in their grooves 13.

In the case where the guides 7 constitute at least a portion of the transverse or longitudinal elements of the carcass 2, the greenhouse assembly is characterized in that the guard 1 is fixed on the inside of the guides 7.

As the profile from which the guides 7 and the sliding elements 9 are made, a profile of different sections described in patent RU 112976 can be used.

The proposed greenhouse can be made as arched construction, and with a gable roof. In the case of the design of a greenhouse with a two-roof roof, the greenhouse roof is provided with window leaves.

The proposed constructive solution can be used in the construction of a greenhouse of any modification and size, including in greenhouse structures.

The inventive greenhouse has several advantages compared to the closest analogue:

- it is more simple to manufacture, because to open / close the window of the greenhouse does not require a winch mechanism and locks to fix the window in its extreme positions;

- possible sectional opening of the greenhouse when installing more than one window;

- the window and rails described in the greenhouse can be installed on any previously installed greenhouse or greenhouse.

Thus, the proposed greenhouse has a simplified design compared to the closest analogue, preserving the smooth running of the window and the reliability of its fastening and providing the possibility of sectional opening of the greenhouse.

Claims (9)

1. Greenhouse team, including a translucent fence, a metal supporting frame, including transverse, longitudinal and end elements; containing at least one window leaf made in the form of a sheet of translucent fencing connected to movable elements; guides made of a U-shaped profile containing the base and walls forming a groove in which the sliding elements are located, characterized in that the edges of the walls of the guides are bent inward, and the sliding elements are segments of a U-shaped profile containing the base of the sliding element and the wall sliding element, and placed in the grooves of the guides with the base of the sliding element up. 2. The greenhouse according to claim 1, characterized in that the greenhouse is made of arched construction. 3. The greenhouse according to claim 1, characterized in that the greenhouse is made with a gable roof. 4. Greenhouse according to paragraphs. 1-3, characterized in that it contains at least two guides for the course of each window. 5. A greenhouse according to claim 1, characterized in that the guides are fixed on the transverse elements of the frame. 6. A greenhouse according to claim 1, characterized in that the guides are fixed on the longitudinal elements of the frame. 7. A greenhouse according to claim 1, characterized in that the guides form at least part of the transverse elements of the frame. 8. A greenhouse according to claim 1, characterized in that the guides form at least part of the longitudinal elements of the frame. 9. A greenhouse according to claim 1, characterized in that the translucent fence is made of cellular polycarbonate.

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