RU185877U1 - Polymer pressure tower - Google Patents

Abstract

The utility model relates to the use of water towers and can be used to regulate the uniformity of water disposal, water consumption, preservation of reserve and fire water reserves, to supply settlements, small enterprises and agricultural facilities. The water tower consists of a cylindrical tank with a conical cap and a cylindrical support, connected by a transition in the form of a truncated cone, and the cap in the upper part is made with a guard, while the tank body is a two-layer shell of sheet polymer, and the support is a three-layer cylinder, the middle layer which is made of sheet steel, and the inner and outer layers of sheet polymer, and the truncated cone also consists of three layers, the middle layer of which is made of sheet steel, and Cored oil and outer layers - a sheet of polymer, wherein the tower elements are welded together under high davleniem.Soglasno utility models: - the internal dimensions of the tank up: D = 2,370, h = 7500 mm, volume 33.09 m; the internal dimensions of the support are: D = 1240 and h = 12000 mm, volume: 14.49 m; the internal dimensions of the cone are: D = 1240/2370, h = 500 mm and a volume of 1.32 m; - the shell of the tank body includes an outer layer of sheet polypropylene (PP) and an inner layer of sheet polyethylene (PE); - the inner layer of the support is made from sheet polyethylene (PE), the outer layer is from sheet polypropylene (PP), and the middle layer is from sheet steel St3ps GOST 14637-89, 5 mm thick; - the outer layer of the truncated cone is made from sheet polyethylene (PE) or polypropylene (PP) , the inner layer is made of sheet polyethylene (PE), and the middle layer is made of sheet steel St 3ps; - black sheet polyethylene (RE) with a thickness of 15 mm was used as sheet polyethylene (PE). An increase is achieved in the life of the polymer tower while maintaining high environmental performance during operation. 2 ill.

Description

The utility model relates to the use of water towers and can be used to regulate the uniformity of water disposal, water consumption, preservation of reserve and fire water reserves, to supply settlements, small enterprises and agricultural facilities.

The well-known water towers of Rozhnovsky (http://www.ipag.com.ua/cat/post46678/s-551497810.html).

A well-known water tower, consisting of a control tank, water-bearing supports with pipelines, inlet and outlet pipelines, a float valve, an elastic diaphragm that divides the tank into two parts: internal hydraulic and external air, valve systems and additional valves. The inner side of the steel tank is covered with a liquid ceramic thermal insulator TC Ceramic (patent RU117483, IPC E04H 12/30, published on June 27, 2012).

The disadvantages of the known towers - periodic cleaning of the inner cavity of the tower and constant monitoring of its sanitary condition due to the contact of the metal of the tower with water and the formation of rust, which is almost never done, are required; the difficulty of operating the tower in the winter, when due to low air temperatures the ice layer freezes on the inner surfaces of the tower, which often leads to its overturning; deterioration in water quality due to temperature differences during changing seasons; low corrosion resistance.

Known water towers made of polymer polyethylene pipes (http://euplast.ru/use/polyetilen/vodonapornyix-bashen.html), including a tank in the form of a cylinder and a barrel structure (support). The structure of the walls of the structure is made in the form of honeycombs, which allows you to effectively control uneven water consumption.

The disadvantage of towers made of polyethylene pipes are as follows.

Polyethylene pipes are usually made of secondary raw materials of low quality, and therefore harmful substances can be released into the water during operation of the tower. A tower made of polyethylene pipes has insufficient weld strength. In addition, the range of polyethylene pipes for the manufacture of towers of the required sizes and configurations is very limited.

The objective of the utility model is to create an environmentally friendly and durable water tower (hereinafter BPN), which is corrosion resistant and has a longer life compared to traditional Rozhnovsky water towers, as well as expanding the arsenal of water towers.

The technical result is an increase in the life of the polymer tower while maintaining high environmental performance during operation due to the materials used.

The problem is solved, and the technical result is achieved by the water tower, consisting of a cylindrical tank with a conical cap and a cylindrical support, connected by a transition in the form of a truncated cone, the cap in the upper part is made with a guard, while the tank body is a two-layer shell made of sheet polymer, and the support is a three-layer cylinder, the middle layer of which is made of sheet steel, and the inner and outer layer of sheet polymer, and the truncated cone also consists of three layers c, the middle layer of which is made of sheet steel, and the inner and outer layer of sheet polymer, while the tower elements are welded together under high pressure.

According to the utility model:

- the internal dimensions of the tank are D = 2370, h = 7500 mm, volume 33.09 m ³ ; the internal dimensions of the support are D = 1240 and h = 12000 mm, volume: 14.49 m ³ ; the internal dimensions of the cone are D = 1240/2370, h = 500 mm and a volume of 1.32 m ³ ;

- the shell of the tank body includes an outer layer of sheet polypropylene (PP) and an inner layer of sheet polyethylene (PE);

- the inner layer of the support is made of sheet polyethylene (PE), the outer layer is of sheet polypropylene (PP), and the middle layer is of sheet steel St3ps GOST 14637-89 with a thickness of 5 mm;

- the outer layer of the truncated cone is made of sheet polyethylene (PE) or polypropylene (PP), the inner layer of sheet polyethylene (PE), and the middle layer of sheet steel St3ps;

- as sheet polyethylene (PE) used black sheet polyethylene (PE) 15 mm thick.

The technical result is an increase in the life of the polymer tower while maintaining high environmental performance during operation, is achieved by the design features of the tower. Namely, the implementation of the tower elements - tank, support and a truncated cone consisting of several layers, including sheet polymer and sheet steel between the layers of sheet polymer. Elements of the tower are welded together under high pressure. The strength of the welds is achieved, which, together with the materials used, ensures the strength and durability of the entire tower. The material used does not react with water or any other medium, the material is 100% resistant to corrosion processes and is not subject to any type of corrosion. A material with a higher density and, therefore, greater strength and resistance to aggressive environments, therefore, products from it can be used in the most severe conditions. The exception is the contact of drinking water with metal - there is no metal oxidation, no rust is formed (unlike metal water towers, where the metal of the water tower is oxidized and there is an intensive appearance of rust entering the water). Polymers are fully biodegradable. The service life is increased to 40 years. The thermal conductivity of polymers is two hundred times worse than metal, therefore, in winter - the absence of internal freezing of water, and in summer - the absence of heating of water, thereby reducing the risk of bacteria.

In addition, the use of sheet materials provides the ability to manufacture towers of any required size and configuration.

The essence is illustrated by drawings, where:

figure 1 - shows a General view of the tower;

figure 2 - layers of the constituent elements of the tower:

a) the layers of the tank;

b) layers of support;

c) layers of a truncated cone.

The water tower includes a tank 1 with a conical cover 2 and a cylindrical support 3, connected by a transition in the form of a truncated cone 4, and the cover in the upper part is made with a fence 5.

Position 6 shows the outer layer of the tank, 7 - the inner layer of the tank, 8 - the middle layer of the support, 9 - the inner and 10 - the outer layer of the support of polymers, and the truncated cone also consists of three layers, the middle layer 11 of which is made of sheet steel, the inner 12 and the outer 13 layer of polymers.

The tower polymer pressure (BPN) works as follows.

At the installation site, the tower is assembled by specialists. For alignment of two cylinders (tank and support), a nipple connection is used. The tower is assembled in a single structure on the ground in a horizontal position. The screed is carried out using eyebrows and belts. After joining the support and the tank, extrusion welding is carried out with Wegener hand tools inside and out.

After the construction of the BPN, it is vertically staged using geodetic instruments and a lifting mechanism (truck crane). BPN is installed on a reinforced concrete foundation, absolutely flat. BPN is fixed on a monolithic reinforced concrete foundation by means of embedded and connecting parts.

The height of the BPN - is determined by the height of the support 3 and the height of the tank 1. In the roof of the BPN there is an inspection hatch. A pressure supply pipe (acts according to the customer’s existing production line), an overflow and drain pipe (not shown) are brought to the BPN. From the pumping station through the pipeline, water enters the tank 1 BPN. A pipeline is located in the lower part of the BPN support 3; it serves to drain water from the tower to consumers.

The operation of the BPN is that during hours of decreasing water consumption, excess water supplied by the pumping station accumulates in the tower and the flow from it occurs during hours of increased water consumption.

The device of the tower water supply system includes the following elements: a pump for supplying water from the well; automation for controlling the water supply system; communications for water supply (piping well) - not shown.

Depending on a number of factors, including the estimated water flow rate, type of well or depth of the aquifer, different water supply schemes can be used for autonomous water supply systems. For example, water supply and water distribution can be carried out similarly to the Rozhnovsky tower via the link (https://www.syl.ru/article/184240/new_kak-rabotayut-vodonapornyie-bashni-vodonapornaya-bashnya-rojnovskogo).

The principle of operation of the tower is based on the law of communicating vessels. To maintain a constant pressure in the pipes, a constant difference in the heights of the water column is necessary. At the same time, water from the tower’s reservoir should be distributed through the pipeline to consumers, which means that it should be above the highest point of water intake. A submersible pump lowered into the well supplies water to the BPN. When the water rises to the upper BPN mark, the level sensor gives a shutdown command. Turning the pump on and off is done by the simplest automation. As water flows from the tower through the main water supply, the surface level decreases, and when the bottom mark is reached, the level sensor (DU) gives the command to turn on the well pump. Thus, the water tower constantly has a supply of water, determined by the volume of the tower from zero to the upper level. The advantages of the claimed tower.

Elements of the tower are welded together under high pressure, on German equipment WEGENER SM440. The material used does not react with water or any other medium, the material is 100% resistant to corrosion processes and is not subject to any type of corrosion. A material with a higher density and, therefore, greater strength and resistance to aggressive environments, therefore, products from it can be used in the most severe conditions. The exception is the contact of drinking water with metal - there is no metal oxidation, no rust is formed (unlike metal water towers, where the metal of the water tower is oxidized and there is an intensive appearance of rust entering the water). Polymers are fully biodegradable. The service life is increased to 40 years. The thermal conductivity of polymers is two hundred times worse than metal, therefore, in winter - the absence of internal freezing of water, and in summer - the absence of heating of water, thereby reducing the risk of bacteria.

An example of a specific implementation of the tower.

Tank. The main strength structure (middle shell) is made of steel sheet St3ps GOST 14637-89, 5 mm thick. It is in addition processed by anticorrosive enamel. Then lined inside with black sheet polyethylene (PE) 15 mm thick, and outside with polyethylene (PE) or polypropylene (PP) - 5 mm. The tank body is made of sheet polyethylene (PE). The inner shell is black polyethylene (PE), and the outer one is made of polypropylene (PP), where PE and PP are international terms. The tank is a two-layer shell: internal, external, with a thickness of 30 and from 3 to 5 mm, respectively. Internal dimensions: D = 2370, h = 7500 mm. Volume: 33.09 m3.

The support is a three-layer cylinder. The main strength structure (middle shell) is made of steel sheet St3ps GOST 14637-89, 5 mm thick. It is in addition processed by anticorrosive enamel. Then it is lined inside with black sheet polyethylene (PE) with a thickness of 15 mm, and outside with polypropylene (PP) - 5 mm, or 3 mm thick with lacquered polypropylene (PP). Internal dimensions: D = 1240 and h = 12000 mm. Volume: 14.49 m3.

The truncated cone is made of 3 layers. The first layer (outer) is polypropylene (PP) 5 mm. The second of St3ps sheet steel is 5 mm. The third is 15 mm thick made of polyethylene (PE). Internal dimensions: D 1240/2370 h = 500 mm. Volume: 1.32 m3.

Achieving an increase in the life of the polymer tower while maintaining high environmental performance during operation.

Claims (6)

1. A water tower, consisting of a cylindrical tank with a conical cap and a cylindrical support, connected by a transition in the form of a truncated cone, and the cap in the upper part is made with a fence, while the tank body is a two-layer shell of sheet polymer, and the support is a three-layer cylinder the middle layer of which is made of sheet steel, and the inner and outer layers of sheet polymer, and the truncated cone also consists of three layers, the middle layer of which is made of sheet steel and, and the inner and outer layers are made of sheet polymer, while the tower elements are welded together under high pressure. 2. The water tower according to claim 1, characterized in that the internal dimensions of the tank are: D = 2370, h = 7500 mm, volume 33.09 m ³ ; the internal dimensions of the support are: D = 1240 and h = 12000 mm, volume: 14.49 m ³ ; the internal dimensions of the cone are: D = 1240/2370, h = 500 mm and a volume of 1.32 m ³ . 3. The water tower according to claim 1, characterized in that the shell of the tank body includes an outer layer of sheet polypropylene (PP) and an inner layer of sheet polyethylene (PE). 4. The water tower according to claim 1, characterized in that the inner layer of the support is made of sheet polyethylene (PE), the outer layer is made of sheet polypropylene (PP), and the middle layer is made of sheet steel St3ps GOST 14637-89 with a thickness of 5 mm. 5. The water tower according to claim 1, characterized in that the outer layer of the truncated cone is made of sheet polyethylene (PE) or polypropylene (PP), the inner layer is made of sheet polyethylene (PE), and the middle layer is made of St3ps sheet steel. 6. A water tower according to any one of claims 3, 4, 5, characterized in that 15 mm thick black sheet polyethylene (PE) is used as sheet polyethylene (PE).

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