CS271636B1 - Mobile equipment for tubes' inner surfaces cleaning - Google Patents

Abstract

The device consists of a storage tank with a chemical liquid (2) and a fill-in tank (10). The merit of the invention lies in the fact that the pressure air inlet (4) is conducted into the tank with the chemical liquid (2) via the first three-way valve (3) through the pressure air input (1), while the chemical liquid is expelled from tank with the chemical liquid (2) by the pressure air via the throttle valve (20), the output of the liquid (5), the second three-way valve (6) and the input of the chemical liquid (7) into the cleaned pipe (8). The chemical liquid is from the cleaned pipe (8), expelled via the output (12), the third three-way valve (11), the input (9) and the closed throttle valve (21) into the fill-in tank (10), while the air cushion is expelled into the discharge piping (15) from the fill-in tank (10) via the air outlet (13) and fourth three-way valve (14) .<IMAGE>

Description

The invention relates to a mobile device for cleaning the inner surfaces of pipes, in particular pneumatic and hydraulic distributors, without having to remove the pipes from machines or structures.

Prior art methods and devices for cleaning pipes consist of cleaning by mechanical means or chemically in liquid baths. Usually, dry cleaning of pipes is only used for dismantled pipes, by immersion in a chemical bath in special soaking tubs. The disadvantage is the complicated handling, especially for long and intricately shaped tubes, the need for spacious workplaces, impaired working environment, the need for special protective equipment, etc. Another known method of cleaning tubes are devices that have pickling tanks connected in additional tanks for chemical liquid and Liquid pumps ensure circulation of liquid in the bathtub. This method partially increases the efficiency of the pickling bath and allows it to be continuously cleaned. However, the bulk of the shortcomings of the current method of immersion pickling are not remedied by this solution.

Some Other Known Solutions Pipe cleaning with chemical fluids utilizes a liquid reservoir and a closed cleaning fluid circulation cycle and is designed for a specific purpose use only, and these devices consist of only one reservoir to which the cleaning fluid is periodically supplied using a solenoid timer.

Of the mobile pipe cleaners, only mechanical cleaners are known. However, their use is limited to shorter pipe lengths, without demanding shapes and bends.

The aforementioned disadvantages are eliminated by the mobile device for cleaning the inner surfaces of the pipes, in particular pneumatic and hydraulic distributions, without the need to remove the pipes from machines or buildings, which consists of two containers of chemical liquid, compressed air supply and pressurized water supply.

SUMMARY OF THE INVENTION The first three-way valve is connected to the inlet of the compressed air into the chemical liquid reservoir and connects the chemical liquid reservoir e to the compressed air supply. A second three-way valve is connected to the liquid outlet from the chemical liquid reservoir, which connects the chemical liquid reservoir to the chemical liquid inlet to the pipe to be cleaned. A third three-way valve is connected to the inlet to the filled container, which connects the filled container to the outlet of the cleaned pipeline; and a fourth three-way valve is provided to vent the filled container to the filled container with the waste line. It is preferred that the first three-way valve and the fourth three-way valve are firmly connected to each other by a common upper actuator and the second three-way valve and the third three-way valve are firmly connected by a common lower actuator. The fifth three-way valve is connected to the chemical liquid inlet to the pipe to be cleaned through the second three-way valve, with inlets for the supply of compressed air and for supply of pressurized water. The chemical liquid reservoir and the filling reservoir are provided with throttles that reduce the flow cross-section at the chemical liquid outlet side of the pipe to be cleaned.

The advantage of the device according to the invention is that it is possible to clean the pipeline in the installed state and that the chemical liquid circulates through an internal closed circuit, that is, the chemical liquid does not come into contact with the external environment of the workplace. The device according to the invention is staggering, since it uses a small volume of chemical liquid for cleaning the pipes, which flows intensively through the pipe to be cleaned, thus increasing the efficiency of the pickling process. Throttle valves, reducing the flow cross-section at the outlet side of the pipe to be cleaned, allow the pipe to be perfectly filled with chemical liquid and cleaned even in inaccessible and complex shapes. The supply of pressurized air and pressurized water directly to the pipe to be cleaned ensures perfect passivation and drying of the pipe after pickling. Another advantage of the device according to the invention is its easy portability, mobility and manageability. The pipe cleaning according to the invention does not require special workplaces and pipe cleaning can be carried out directly in the assembly of the CS 271636 B1 or on site without the need to remove the pipes from the machine.

The device according to the invention ensures work safety without the use of special protective equipment, improves working conditions. Operation of the equipment is easy.

An exemplary embodiment of a mobile device for cleaning the inner surfaces of tubes according to the invention is schematically shown in Fig. 1, which shows the overall embodiment of the cleaning device itself, Fig. 2 shows the location of the mobile cleaning device at the workplace and the connection to the pipe to be cleaned.

The device according to the invention consists of a reservoir of chemical liquid 4 and a filled reservoir 10. The supply of compressed air 4 is led to the reservoir of chemical liquid £ via the first three-way valve 3 through the inlet of compressed air 1. The chemical liquid is thus discharged from the chemical liquid reservoir 2. by compressed air through the open throttle 20, the fluid outlet 5, the second three-way valve 6 and the chemical liquid inlet 7 into the line 8 to be cleaned. From the cleaned line 8, the chemical liquid is discharged through the outlet 12, the third three-way valve 11, inlet 9 into the filled reservoir 10, the air cushion from the filled reservoir 10 being pushed into the discharge line 15 via the vent 13 and the fourth three-way valve 14.

The first three-way valve 3 and the fourth three-way valve 14 are rigidly mechanically connected and jointly controlled by the upper actuator 16 as well as the second three-way valve 6 and the third three-way valve 11 are rigidly mechanically connected and jointly actuated by the lower actuator 17. chemical liquid from the chemical liquid container 2 to the filled container 10 or vice versa from the filled container 10 to the chemical liquid container 2.

By changing the position of the second three-way valve 6 and the third three-way valve 11, a pressurized water supply 19 or a pressurized air inlet 4 is connected via the fifth three-way valve 18 to the cleaned line 8 which completely passivates and dried the cleaned line 8 from chemical liquid.

The compressed air inlet 4 and the pressurized water inlet 19 are connected to the compressed air manifold 22 and the pressurized water manifold 23 and the drain line 15 to the sewage drain 24. By entering chemical liquid 8 into the cleaned pipe 8 and through the outlet 12 from the cleaned pipe 8 the device is connected to pipe 8 in the machine 25.

The device according to the invention is mounted on the chassis in a hood housing, on the top of which the actuators 16 and 17 are located, which allow easy operation of the device. The hood cabinet also has the necessary connection pipes, which can be operatively connected to the workshop's distribution of compressed air, pressurized water and the cleaned piping in the machine.

The device for cleaning the inner surfaces of pipes can be advantageously used especially for cleaning long and complex pipe distributions, installed in machines or in construction. Mobile devices can be operatively deployed to various workplaces.

Claims (4)

SUBJECT OF THE INVENTION 1. Mobile equipment for cleaning the inner surfaces of pipes, in particular pneumatic and hydraulic piping, without the need for dismantling pipes from machines or buildings, consisting of two chemical liquid reservoirs, a compressed air supply and a pressurized water supply, characterized by: 1) the first three-way valve (3) is connected to the chemical liquid container (2), which connects the chemical liquid container (2) to the compressed air supply (4) and to the liquid outlet (5) from the container CS 271636 Bl A second three-way valve (6) is connected to the chemical fluid (2), which connects the reservoir and the chemical fluid (2) by entering the chemical fluid (7) into the pipe (Θ) to be cleaned. a third three-way valve (11) is connected, which connects the filled container (10) with the outlet (12) from the cleaned pipe (8), and a fourth three-way valve (14) is connected to the vent (13) from the filled container (10); it connects: the filled container (10) with the discharge line (15). 2. Mobile device for cleaning the inner surfaces of pipes according to claim 1, characterized in that the first three-way valve (3) and the fourth three-way valve (14) are firmly connected to each other by a common upper actuator (16) and the second three-way valve (6) and the third three-way valve ( 11) are firmly connected by a common lower control (17). 3. Mobile device for cleaning the inner surfaces of pipes according to claim 1, characterized in that a fifth three-way valve (18) is connected to the inlet of the chemical liquid (7) to the pipe (8) to be cleaned via a second three-way valve (6). (4) and for pressurized water supply (19). 4.. Mobile device for cleaning the inner surfaces of pipes according to claim 1, characterized in that the container and the chemical liquid (2) and the filled container (10) are provided with throttles (20 and 21).