RU2561979C1 - Method of pipes cleaning and device for its implementation - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: method of pipes cleaning includes gas injection in the pneumatic accumulator, and creation in the pipe of the pressure jump by means of quick gas release from the accumulator. At that the pneumatic accumulator is installed in the pipe, and pressure jump is formed by destruction of the pneumatic accumulator.

EFFECT: simple design and increased cleaning efficiency.

13 cl, 3 dwg

Description

The invention relates to public utilities and can be used in everyday life and in other sectors of the economy.

The prototype is a method of cleaning pipes, including connecting the pneumatic accumulator to the pipeline, injecting air into it to a certain pressure and generating a shock wave by supplying air to the pipeline from the pneumatic accumulator using an opening valve [Pat. RF 2168378, IPC В08В 9/027, 2001].

The disadvantages of the prototype are:

- inconvenience in operation associated with the need for a tight connection (installation) of the battery to the pipeline;

- pressure loss with a large length of the pipeline, which reduces the cleaning efficiency;

- the complexity of the design of the device that implements the method, and its relatively large weight and size characteristics;

- low cleaning efficiency of fat deposits on the inner surface of the pipeline.

The objective of the invention is to remedy these disadvantages, namely, simplifying the design and improving performance.

The problem is solved in that in a method of cleaning pipes, including pumping gas into a pneumatic accumulator and forming a pressure jump in the pipe by quickly releasing from the last gas, the pneumatic accumulator is installed in the pipe, and the pressure jump is formed by breaking the pneumatic accumulator.

The gas used is air. The pneumatic accumulator is performed with a transformable volume. The pneumatic accumulator is made of an elastic material. The gas in the pneumatic accumulator is heated. The magnitude of the pressure jump is changed by the thickness of the material from which the pneumatic accumulator is made. The magnitude of the pressure jump is changed by the value of the permissible tensile stress of the material from which the pneumatic accumulator is made. The pneumatic accumulator is made of a material that can withstand temperatures of more than 70 ° C. Partial gas injection is carried out to the place of installation of the pneumatic accumulator in the pipe. The gas used is a combustible mixture, and the destruction is carried out by arson. In the device for implementing the method of cleaning pipes containing a pneumatic accumulator connected by an air duct to a gas blower, the pneumatic accumulator is made of a material that can withstand a tensile pressure less than the allowable pressure of the medium in the pipe. The pneumatic accumulator and air duct are made respectively with a heater and an electric conductor. At least part of the duct is performed with an internal section of not more than 1 mm ² .

These distinctive features allow you to achieve the following advantages compared with the prototype.

The installation of a pneumatic accumulator in the pipe (closer to the blockage) contributes to more efficient cleaning regardless of the length of the pipe, since the pressure loss associated with the pressure is reduced. In addition, the liquid behind the pneumatic accumulator prevents the gas bubble from moving backward through the pipe, which improves the effect of gas on the blockage and ensures the subsequent one-way forward movement of the gas after eliminating the blockage, which entrains the garbage (residues of blockage). If there is no liquid in the pipe behind the pneumatic accumulator, it is advisable to fill it with the pipe before cleaning.

The formation of a pressure jump by destroying the pneumatic accumulator and the use of air as gas simplifies the design of the device that implements the method.

The implementation of a pneumatic accumulator with a transformable volume makes it easier to advance it in the pipe to the installation site and pass obstacles, such as a grate, which improves performance.

The implementation of the pneumatic accumulator of elastic material allows you to additionally clean the inner surface of the pipe by contacting the body of the pneumatic accumulator with this surface, and it is also easier to pass the bends of the pipe, which improves performance.

Gas heating in the pneumatic accumulator improves the quality of cleaning due to the melting of fat deposits, which increases operational characteristics.

Changing the magnitude of the pressure jump in thickness and the magnitude of the allowable tensile stress of the material from which the pneumatic accumulator is made makes it relatively easy to obtain a set of pneumatic accumulators operating from different gas pressures, which improves operational characteristics.

The implementation of the pneumatic accumulator of a material that can withstand temperatures of more than 70 ° C, makes it possible to heat fusible deposits, such as paraffins, which improves performance.

Partial injection of gas to the place of installation of the pneumatic accumulator in the pipe makes it possible to clean the pipe along with the installation, which improves performance. The use of a combustible mixture as gas and the destruction of the pneumatic accumulator by setting it on fire makes it possible to obtain significant pressures when cleaning large diameter pipes in a relatively small and light pneumatic accumulator, which can be easily moved along the pipe, which increases operational characteristics. The implementation of the pneumatic accumulator of a material withstanding tensile pressure less than the permissible pressure of the medium in the pipe, eliminates damage to the pipe during cleaning, which also improves performance. The implementation of the pneumatic accumulator and duct, respectively, with a heater and an electrical conductor simplifies the design of the device. The implementation of at least part of the duct with an internal cross-sectional area of not more than 1 mm ² eliminates the flame leakage through the duct when using a combustible mixture, which increases safety.

The invention is illustrated by drawings.

In FIG. 1 shows a diagram of a device for cleaning a pipe at the time of its entry into the pipe. In FIG. 2 shows the device at the place of its installation in the pipe. In FIG. 3 shows an embodiment of a device with a heater.

A device for implementing the method of cleaning pipes contains a pneumatic accumulator 1, which is connected by an air duct 2 to a gas (air) supercharger (not shown). The pneumatic accumulator and the air duct can be made respectively with a heater 3 and an electric conductor 4 having insulation 5. The pneumatic accumulator together with the air duct are placed in a pipe 6 with a liquid 7 and a blockage 8.

A device for cleaning pipes as follows.

If there is a blockage 6 in the pipe 6 (for example, sewer), an air accumulator 1 is introduced into it using a duct 2, which can be placed in a spring or made integral with it for stiffness and placed closer to the blockage (Fig. 1). After that, using a pump or compressor, air is supplied to the pneumatic accumulator through the air duct 2, so that the pneumatic accumulator made, for example, of rubber, begins to increase in volume (Fig. 2). After some time, the pressure in the pneumatic accumulator reaches a value that exceeds the tensile strength of the material, as a result of which the material, and therefore the pneumatic accumulator made from it, is destroyed. This, in turn, causes the rapid growth of a gas (air) bubble, the pressure of which directly or through a liquid 7 (medium) acts on the blockage 8, eliminating the latter. Note that to prevent splashing out of the liquid from the inlet of the pipe, it must first be plugged with a stopper.

If fatty deposits are present on the pipe walls, air can be supplied to the pneumatic accumulator to make it come into contact with the pipe inner surface. Then, in the process of moving the pneumatic accumulator through the air duct to the blockage site, the pipe walls will be mechanically cleaned at the same time (like cleaning with a brush). If, at the same time, voltage is applied to heater 3 using conductor 4 (you can use the spring of the air duct as the second wire or make the second wire at the same time as the first one), the air accumulator will warm up, which will entail the melting of fat deposits and an improvement in the quality of surface cleaning (Fig. 3). Note that in order to reduce the resistance to the advancement of the pneumatic accumulator, it is necessary to leave a gap between the latter and the pipe walls for the flow of liquid 7. You can also produce a pneumatic accumulator with a cross section (for example, in the form of a polygon), which allows the specified fluid to flow from one end of the pneumatic accumulator to the other.

To clean large diameter pipes after supplying the pneumatic accumulator to the installation site, it is advisable to supply a combustible mixture, such as propane and air, instead of air. When a certain pressure is reached (not destroying the pneumatic accumulator), the mixture is stopped and the voltage 3 is applied to the heater 3. As a result, the combustible mixture ignites and a large amount of combustion products is formed, leading to an increase in pressure in the pneumatic accumulator above the critical one. This leads to the destruction of the pneumatic accumulator and the cleaning of the pipe from blockage.

The implementation of the invention will allow you to create a simple and easy-to-use device for cleaning pipes from blockages both in everyday life and in the national economy.

Claims (13)

1. A method of cleaning pipes, including pumping gas into a pneumatic accumulator and forming a pressure jump in the pipe by quickly releasing from the last gas, characterized in that the pneumatic accumulator is installed in the pipe, and a pressure jump is formed by destroying the pneumatic accumulator. 2. The method according to p. 1, characterized in that the gas used is air. 3. The method according to p. 1, characterized in that the pneumatic accumulator is performed with a transformable volume. 4. The method according to p. 1, characterized in that the pneumatic accumulator is made of elastic material. 5. The method according to p. 1, characterized in that the gas in the pneumatic accumulator is heated. 6. The method according to p. 1, characterized in that the magnitude of the pressure jump is changed by the thickness of the material from which the pneumatic accumulator is made. 7. The method according to p. 1, characterized in that the magnitude of the pressure jump is changed by the value of the permissible tensile stress of the material from which the pneumatic accumulator is made. 8. The method according to p. 1, characterized in that the pneumatic accumulator is made of a material that can withstand temperatures of more than 70 ° C. 9. The method according to p. 1, characterized in that the partial injection of gas is carried out to the place of installation of the pneumatic accumulator in the pipe. 10. The method according to p. 1, characterized in that the gas used is a combustible mixture, and the destruction is carried out by arson. 11. A device for implementing a method of cleaning pipes, containing a pneumatic accumulator connected by a duct to a gas blower, characterized in that the pneumatic accumulator is made of a material that can withstand a tensile pressure less than the allowable pressure of the medium in the pipe. 12. The device according to p. 11, characterized in that the pneumatic accumulator and the duct are made respectively with a heater and with an electrical conductor. 13. The device according to p. 11, characterized in that at least part of the duct is performed with an internal section of not more than 1 mm ² .

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