RU2015654C1 - Hothouse for use in underground workings - Google Patents

Abstract

FIELD: agriculture; hydroponic hothouses. SUBSTANCE: hothouse comprises multitier hydroponic installations with brackets for plant containers, auxiliary passages and blocks of utility and auxiliary rooms. Hothouse is provided with multisectional transverse frames 2 extending throughout the section of working 1 one after another along a specified length. Each section consists of hydroponic installations and auxiliary passages 10. Hothouse has auxiliary transverse 11 and central 12 passages. Transverse passages 11 alternate with auxiliary ones 10 while central passages 12 extend along working center. Multisectional transverse frames 2 are interconnected by covering floors 7. Passages 10,11,12 extend throughout the height of the working and have story coverings 14 aligned with covering floors. EFFECT: improved design. 7 cl, 7 dwg

Description

 The invention relates to agriculture, in particular to devices for growing plants in a nutrient-free environment without soil, namely, hydroponic greenhouses.

 Known greenhouse, made in a trench and containing installation-racks for containers with plants and a transparent coating.

 The disadvantage of this known greenhouse is that it is intended for placement in certain small underground recesses, has a small volume and it is not practical to place it in industrial underground workings.

 The closest technical solution chosen for the prototype is a hydroponic greenhouse containing multi-tiered hydroponic plants with brackets for containers with plants, technological corridors and blocks of household and auxiliary premises.

 The disadvantages of such greenhouses are the limited amount of use, the placement of technological and technical equipment in one corridor, which affects the purity of the technological process of growing plants, as well as the inefficiency of use and even the inability to mount them in various underground workings, which is necessary and appropriate when using worked out mines, workings . Famous greenhouses require special, one-story rooms.

 Creating a greenhouse with an increased volume of use, which can be mounted in any underground mine and having high operational properties, which in turn provides increased yield, is an urgent task.

 The proposed invention solves the problem of creating a universal greenhouse, which can be mounted in any underground mine for a given length, has an increased volume of use due to the economic multi-section (multi-storey) filling of the entire production volume with multi-tiered hydroponic plants with brackets for containers with plants, convenient in operation, because conditions have been created for a clean technological process of growing plants due to the removal of technical equipment from technological corridors to special technical ones.

 The greenhouse for underground mining, comprising multi-tiered hydroponic installations with brackets for containers with plants, technological corridors and blocks of domestic and auxiliary premises, according to the invention is equipped with multi-sectional transverse frames located throughout the cross section of the working at a given length, and technical corridors located between the frames, and technological corridors are made transverse and central, while the transverse technological corridors are placed alternating between technical ones, and the center linen - in the center of the mine and pass through the transverse multisectional frames and technical corridors and exit into the transverse technological corridors, and the multisectional transverse frames are connected by floor ceilings, and the corridors and blocks are made along the entire height of the mine and have floor floors at the level of floor-floors, combined with them.

 In a preferred embodiment, multi-sectional transverse frames, technical and transverse technological corridors in the curved section of the development are located radially, and the central technological corridor is diametrical.

 Preferably, each section of the multi-section transverse frame is made in the form of a multi-tiered hydroponic installation having two vertical crossbars rigidly connected by a beam, while the crossbars of adjacent multi-section frames are connected by brackets for containers with plants.

 In a preferred embodiment, each upper section of the multisectional transverse frame has only vertical crossbars and is rigidly fixed by means of them in the upper part of the excavation, and each extreme side section is rigidly fixed by the beam console in the walls of the excavation.

 Multisectional transverse frames, technical and transverse technological corridors are located from each other at a distance corresponding to 3-4 heights of the plant being grown.

 The inner surface of the mine has a reflective coating in the form of sprayed lime, the outer surface of the corridors also has a reflective coating.

 The claimed invention allows to achieve the following technical result.

 Supply of the greenhouse with multi-sectional transverse frames located along the entire section of the mine at a given length, in which each section is made in the form of a multi-tiered hydroponic installation, and connecting them with floor-floors makes it possible to create a single, multi-story greenhouse design in the underground mine, i.e. significantly increase the efficiency of use due to the multistory filling of the entire useful volume of output.

 The execution of each upper section of the multisectional transverse frame in the form of only vertical crossbars rigidly fixed in the upper part of the excavation, and the fixing of each extreme lateral section by means of the beam console in the excavation walls allow the greenhouse to be mounted in any underground excavation, filling its entire volume, i.e. allow you to create a universal greenhouse, which can be mounted and placed in any underground mine.

 The implementation in the greenhouse of technological corridors transverse, alternating with technical and central, as well as supplying it with separate technical corridors, can improve the convenience of its operation and, in addition, technical equipment is removed from the technological process zone of plant growth and does not interfere with it.

 The arrangement of multisectional transverse frames, technical and transverse technological corridors is radial, and the central technological - diametrically on the curved section of the mine allows you to use any sections of the mine most efficiently, while creating a single greenhouse design.

 Connection of crossbars of multi-tiered hydroponic installations of adjacent multi-section frames with brackets for containers with plants, and also strengthens the structure, making it unified and rigid.

 The location of multisectional transverse frames, technical and transverse technological corridors from each other at a distance corresponding to 3-4 heights of the grown plants allows to fill the volume of underground production to the greatest extent and creating the best conditions for servicing and conducting the technological process of growing the plant itself.

 A reflective coating in the form of sprayed lime on the inner surface of the mine and on the outer surface of the corridors creates the best conditions for illumination, humidity and phytosanitary conditions when growing plants in underground workings.

 The proposed greenhouse for underground workings differs from the known one in that it is equipped with multi-sectional transverse frames located along the entire section of the development at a given length, in which each section is made in the form of a multi-tiered hydroponic installation, and technical corridors located between the frames, and technological corridors are transverse and central, while the transverse technological corridors are located, alternating between technical, and the central ones are in the center of the mine and pass through the transverse plots gosektsionnye frame and the technical corridor and enter the cross-technology corridors, and multi-section transverse frames connected by beams, floors, corridors and blocks are made over the entire height of development and have storey floors to ceilings, floor-level, combined with them.

 A comparative analysis of the proposed solution with the known allows us to conclude that the proposed technical solution meets the criteria of the invention of "novelty."

 From the patent and scientific and technical literature for a specialist, a greenhouse is not known that contains multi-sectional transverse frames located along the entire production section at a given length and connected by technical corridors alternating with transverse technological and transverse multi-section frames, technological central corridors located in the center workings passing through transverse corridors and multi-sectional frames, thus, the proposed solution meets the criteria of the invention retatelsky level. "

 The proposed technical solution can be used in agriculture, it allows you to increase the usable volume of use, can be mounted and installed in any underground mine, filling its entire height and specified length, and is convenient to operate. Thus, the proposed solution meets the criteria of the invention of "industrial applicability".

 In FIG. 1 shows a cross-sectional view of a general view of a greenhouse for underground mining; in FIG. 2 is a cross-sectional view of a general view of a greenhouse for underground production of a different volume; in FIG. 3 is a section AA in FIG. 1; in FIG. 4 is a view of four central sections of multi-tiered hydroponic units of two adjacent multi-sectional transverse frames connected by floor ceilings and brackets for containers with plants; in FIG. 5 is a front view of a multi-tiered hydroponic installation, which is a section of a multi-section transverse frame; FIG. 6 is a side view of a multi-tiered hydroponic installation; in FIG. 7 is a general view of the floor-floor section.

 The greenhouse is located in an underground mine 1, in which multisectional transverse frames 2 are located over the entire cross section one after the other for a given length. Each section of the frame 2 is made in the form of a multi-tiered hydroponic installation having two vertical crossbars 3, rigidly connected by a beam 4, having two sides cantilever sections 5. The upper sections of the multisectional transverse frame 2 have only vertical crossbars 6 and are rigidly fixed in the upper part of the underground mine 1.

 The extreme lateral sections of the multi-sectional transverse frames 2 are rigidly fixed in the walls of the excavation 1 by means of consoles of 5 beams 4. The sections of the adjacent multi-sectional frames 2 are rigidly interconnected by floor slabs 7. Vertical crossbars 6, 3 of multi-level hydroponic units have brackets 8 for containers 9 with plants, which connect the crossbars of adjacent multi-tiered frames 2. The greenhouse is equipped with 10 technical corridors and has transverse 11 and central 12 technological corridors. Technical 10 and transverse 11 technological corridors are located alternating between transverse multi-sectional frames 2, and the central 12 technological corridors are located in the center of excavation 1, pass through transverse multi-sectional frames 2 and technical 10 corridors and enter into transverse 11 technological corridors. In the technical 10 corridors, blocks of 13 domestic and auxiliary premises are located. Corridors 10, 11, 12 and blocks 13 are made over the entire height of the excavation 1 and have floor floors 14 located at the level of floor-floors 7 and combined with them. Each section of the floor-floor 7 has longitudinal guides 15, between which the transverse axes 16 are rigidly fixed. Longitudinal guides 15 are mounted and fixed on the consoles 5 of the beams 4 of the adjacent multi-tiered hydroponic installations forming multi-section frames 2, are combined with floor floors 14 of corridors 10, 11, 12 and blocks 13 of household and auxiliary premises and go into them.

 In the curved sections of the mine 1 transverse multisection frames 2, technical 10 and transverse 11 technological corridors are located radially; and the central 12 technological corridor - diametrically. The distances between the frames 2 and the corridors 10, 11 correspond to 3-4 heights of the plant being grown.

 In order to increase rigidity, each vertical crossbar 3 is fastened with a beam 4 on both sides by struts 17. The number of multi-tiered hydroponic installations installed one above the other and forming transverse multi-sectional frames 2 can be different (from two floors or more) and depends on the height of the underground mine. The inner surface of the mine 1 is covered with a reflective coating in the form of sprayed lime, which allows to reduce the appearance of putrefactive bacteria in the underground mine, to create good phytosanitary conditions. The outer surfaces of the corridors are covered with a reflective coating, which allows you to increase the illumination of the underground mine and create the best light regime for the technological process of growing plants.

 Using the proposed solution allows you to create a unified greenhouse with an increased volume of use, multi-storey, which can be mounted in any underground mine and have high operational properties.

Claims (7)

 1. GREENHOUSE FOR UNDERGROUND PRODUCTION, containing multi-tiered hydroponic plants with brackets for containers with plants, technological corridors and blocks of domestic and auxiliary premises, characterized in that it is equipped with multi-sectional transverse frames located one after the other over the entire production section in a given length, in of which each section is made in the form of a mono-tiered hydroponic installation, and technical corridors located between the frames, and technological corridors are transverse and central while the transverse technological corridors are placed alternating between the technical ones, and the central ones are located in the center of the mine and pass through the transverse multisectional frames and technical corridors and enter the transverse technological corridors, with the multisectional transverse frames connected by floor ceilings, and the corridors and blocks are made throughout working height and have floor ceilings at the level of floor-floors, combined with them.  2. The greenhouse according to claim 1, characterized in that the multisectional transverse frames, technical and transverse technological corridors on the curved section of the mine are radially arranged, and the central technological corridor is diametrically.  3. The greenhouse according to claim 1, characterized in that each section of the multi-section transverse frame is made in the form of a multi-tiered hydroponic installation having two vertical crossbars rigidly connected by a beam, while the crossbars of adjacent multi-section frames are connected by brackets for containers with plants.  4. The greenhouse according to claim 1, characterized in that each upper section of the multisectional transverse frame has only vertical crossbars and is rigidly fixed by means of them in the upper part of the excavation, and each extreme side section is rigidly fixed to the walls of the excavation by means of the beam console.  5. A greenhouse according to claim 1, characterized in that the multisectional transverse frames, technical and transverse technological corridors are located from each other at a distance corresponding to 3-4 height of the plant being grown.  6. The greenhouse according to claim 1, characterized in that the inner surface of the mine has a reflective coating in the form of sprayed lime.  7. The greenhouse according to claim 1, characterized in that the outer surface of the corridors has a reflective coating.

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