SU1486582A1 - Hothouse - Google Patents

Description

The invention relates to the construction, namely to use in the agro-industrial complexes of waste heat from the coolers of the water recycling systems of industrial enterprises. The aim of the invention is to reduce material consumption, improving the manufacturability of installation and safety. The greenhouse includes a reinforced concrete frame of the cooling tower.

1, made of volumetric blocks 18 of a U-shaped cross section with radial vertical walls turned outward and rigidly attached to them by horizontal plates 20. Symmetric grooves are horizontal on the outer surface of the shelves. There is also a heat exchanger 2, louvered devices 12, fans 13, engineering communications, a cylindrical translucent vertical fencing structure 3, a covering 15 of a cooling tower and a grating 6. The grating is made of individual elements trapezoidal in plan along one of the side faces attached to the core consoles 8 tavrovogo section. The latter are installed in the slots of adjacent blocks with a shift in height by a step, with the formation of a screw ramp with a fence 25 from the side of the translucent shell, which is fixed on the consoles. 1 hp ff, 6 ill.

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The invention relates to the construction, in particular to the use in the agro-industrial complexes of waste heat from cooling towers and other coolers of water recycling systems of industrial enterprises, in particular thermal and nuclear power plants.

The purpose of the invention is to reduce material consumption, improve the manufacturability of the installation and increase safety.

FIG. 1 shows a greenhouse, side view with a partial section along the vertical axis; in fig. 2 - greenhouse, a top view with a partial horizontal section; in fig. 3 shows the layout of the grating around the perimeter of the greenhouse; in fig. 4 is a diagram of fixing the flooring on the volumetric block of the tower frame with the formation of a screw ramp; in fig. 5 is a section A — A in FIG. four; in fig. 6 - attachment of the grid floor element to the rod console.

The greenhouse consists of a cylindrical cooling tower 1 with a heat exchanger 2 located inside a vertical translucent building envelope 3. Holes 4 and adjustable dampers 5 are provided in the tower. Flooring 6 for maintaining containers with plants 7 is made of lattice from separate elements fixed on radially helix rod consoles 8 T-section. In the lower part, along the outer perimeter of the greenhouse, heat exchangers 9 and louvres 10 are installed, and for operation of heat exchangers in summer mode, channels 11 with louvres 12 and adjustable flaps 13 are provided for supplying external air. For repairs and washing the outer surface of the translucent greenhouse shell , as well as for transportation of the crop, seedlings, fertilizers, etc., a cradle 14 is used, mounted on the roof 15 of the cooling tower. The cradle moves radially with the help of the carriage 16, and vertically with a winch and cables 17. The frame of the cooling tower is made of bulk blocks 18 of U-shaped cross-section with radial vertical walls 19 outward and rigidly attached to them horizontal plates 20. Volumetric blocks have outlets fittings 21 and embedded parts 22, which are welded in the process of installation of the cooling tower of the greenhouse. On the outer surface of the radial shelves there are grooves. 23 for fastening in them one end of the rod consoles 8 T-section. At the other end of each rod console fixed element 23 of grating 6, made of a trapezoidal shape in the plan. Rod consoles are located shelf down, which allows you to rely on it on both sides of the edges of the ends of the flooring. Rod consoles are installed in adjacent grooves of volumetric blocks with a shift by a step of height. This allows you to form a screw lattice ramp 24. On the free ends of the consoles is also based translucent shell from which the ramp has a fence 25.

The required cooling depth of the coolant and the required microclimate in the greenhouse is provided as follows.

In the winter mode, the air from the inner-space space, driven by the fan 26, enters the heat exchangers 2. The heated air, moving along the cooler tower, enters the greenhouse through the hole 4, while the flaps 5 are open, the flaps 13 and the louvers 12 are closed.

In summer mode, the air heated in the heat exchangers through the open valve 13 is released into the atmosphere, while the valves 5 are closed and the fans are stopped. External air enters the heat exchangers through the channels 11 through the open louvers 10.

In transitional periods, the temperature and humidity of the air in the greenhouse is regulated depending on the outside air temperature and the intensity of solar radiation by changing the amount of heated air supplied to the greenhouse. Regulation is made by flaps and louvers.

Installation of the tower-cooler greenhouses carried out in this sequence.

Install the first row of volumetric blocks, for example, using an annular conductor located inside the tower (not shown). Weld issues of reinforcement 21 and embedded parts 22, monolith seams. Then assembled grating 6. For this, the first console is inserted into the lowermost groove 23. Then the second console is inserted into the next groove. Between consoles mounts an element of grating decking 6 with a fence 25. The third console is inserted into the third slot from the bottom and between the consoles is also obliquely mounted the next flooring element with a fence, etc. Due to this installation, decking 6 with a fence will be located along a helix around the first ring tower. Next, the conductor is raised up and similarly assemble the next ring of the tower with flooring and fencing.

The outer translucent shell is mounted as follows.

On the radial consoles 8 vertically fix the steel strips, to which the elements of the translucent shell, for example the glazed frames, are fixed.

Claims (2)

Claim 1. Greenhouse, including reinforced concrete cylindrical support frame towers1486582 cooler, horizontal plates cantilevered on its outer surface to accommodate containers with plants, a heat exchanger, louver devices, fans, engineering communications, a cylindrical translucent vertical enclosing structure and a cooling tower cover, adjustable dampers in the openings of the supporting frame of the cooling tower and lattice flooring elements,, θ characterized by the fact that, in order to reduce material consumption and improve the manufacturability of the installation, the bearing cylindrical frame of the tower-cool The driver is made of three-dimensional U-shaped cross-section blocks with radial vertical walls turned outwards with horizontal plates rigidly attached to them and horizontally arranged symmetrical grooves on the outer surface of the radial shelves, and the greenhouse is equipped with T-shaped rod consoles mounted at one end in the grooves adjacent volumetric blocks shelf down, while the elements of the grating is made of a trapezoidal shape in plan and supported on the shelves of consoles mounted on height offset by a step, with the formation of a screw ramp, with translucent fencing attached to consoles. 2. Greenhouse on π. 1, characterized in that, in order to increase the safety of work, the elements of the grating are equipped with a fence fixed from the side of the translucent shell. fig 2 four 1486582 figa ~ Α - 1β fi ?. 6