RU106565U1 - MANUAL PNEUMATIC INSTALLATION FOR CLEANING THE INTERNAL SURFACE OF PIPES - Google Patents

Abstract

 1. A manual pneumatic installation for cleaning the inner surface of the pipes, comprising a housing with a shaft located therein, a shaft rotation drive and a cleaning tool, characterized in that a pneumatic motor is used as a rotation drive, and the shaft is hollow, moreover, liquid supply holes are made in the cleaning tool for pressure. ! 2. The manual pneumatic installation according to claim 1, characterized in that in the housing there are made water supply channels through the valve assembly, as well as a compressed air supply channel to the air motor through the compressed air supply fitting. ! 3. The manual pneumatic installation according to claim 2, characterized in that the torsion bar connected to the shaft and a torque transmission gearbox with a given speed, mechanically connected to the air motor, are additionally introduced into the device. ! 4. Manual pneumatic installation according to claim 3, characterized in that the housing is additionally equipped with a trigger with the ability to control the supply of compressed air and water.

Description

The device relates to the cleaning of pipes from solid deposits in the chemical, energy, engineering, and other industries and can be used, in particular, for cleaning condenser tubes from solid carbonate deposits, as well as for cleaning straight pipes with a large number of deposits, cleaning boilers and speed heaters, evaporators, compressor air coolers, oil coolers and desalination plants.

All existing devices for cleaning the inner surface of the pipes can be divided by the nature of the process of removing deposits. The use of devices operating on the principle of chemical removal of deposits leads to the need for disposal of waste chemical materials, reduces environmental friendliness and increases the risk of injury to work. The disadvantages of ultrasonic and electrohydropulse installations include the complexity and duration of installation of equipment.

A device for cleaning the inner surfaces of pipes (Patent application of the Russian Federation No. 2230498 C2, publ. 2004.11.10), which contains nozzles associated with a housing equipped with a water pipe, a pneumatic impact tool, a pneumatic cylinder with a spool air distribution system, a piston and a hammer, mounted on a water pipe.

The disadvantage of this known device is the probability of pipe rupture as a result of the uncontrolled effect of the hydraulic pulse on the inner surface during uncontrolled cleaning using this device.

A device for cleaning the inner surface of the pipe (Patent of the Russian Federation No. 2121894 C1, publ. 1998.11.20), which contains a housing mounted on the end part, at an angle to the pipe surface, roller heads made in the form of truncated cones. The cleaned deposits are separated by a pressure stream of water.

The disadvantage of this known device is the increase in the duration of the process of removal of deposits due to the fact that the processes of mechanical and hydraulic removal of deposits are carried out sequentially. In addition, there is also the possibility of pipe rupture as a result of uncontrolled pressure pressure of the water jet.

Closest to the claimed utility model in terms of technical nature, purpose and achieved result is a pneumatic electric pulse device for cleaning structural elements from pollution (Patent of Ukraine for utility model No. 14318 of 05.15.2006), which contains a housing with a shaft located therein, a shaft rotation drive and a cleaning tool. This well-known invention contains an electropulse system of destruction of deposits, which is made in the form of series-connected generator of electric pulses, drive-shaper of electric pulses and inductor-converter, as well as a pneumatic system for removing deposits.

The disadvantage of this device is the low cleaning efficiency of the inner surface of the pipes due to the impossibility of using water due to the presence of an electrical pulse system for the destruction of deposits. An additional supply of water to the pipe cleaning zone with an electric tool leads to a very high risk of injury and the possibility of serious injury to workers. In addition, the use of electrical equipment as part of the device makes it susceptible to environmental conditions.

Another disadvantage of the device is the trauma of the process of removing deposits due to the probability of a pipe breaking from the inside under the influence of an uncontrolled electrical pulse during the process of destruction of deposits in the pipe.

Another disadvantage of the device is the low reliability of the design and, as a result, very fast wear of the cleaning tool and equipment, limited use, due to the fact that it is impossible to clean pipes from solid deposits.

The utility model is based on the task of increasing the efficiency of the pipe cleaning process, improving operational safety, simplifying and increasing the reliability of the structure.

The problem is solved in that the manual pneumatic installation for cleaning the inner surface of the pipes contains a housing with a shaft located in it, a shaft rotation drive and a cleaning tool. According to the utility model, a pneumatic motor is used as a rotation drive, and the shaft is hollow, moreover, holes for supplying liquid under pressure are made in the cleaning tool.

In a separate embodiment of the invention, channels for supplying water through the valve assembly and a channel for supplying compressed air to the air motor through the nozzle for supplying compressed air are made in the housing.

In another embodiment of the utility model, a torsion bar connected to the shaft and a torque transmission gearbox with a given speed, mechanically connected to the air motor, are additionally introduced into the device.

It is possible to implement the device when the housing is additionally equipped with a trigger with the ability to control the supply of compressed air and water.

The task of increasing the efficiency of the pipe cleaning process is achieved due to the fact that the pneumatic motor is used as the rotation drive, the shaft is hollow, and the holes for supplying liquid under pressure are made in the cleaning tool. Therefore, for such a design there are no requirements for the condition of the pipes being cleaned by the service life or by the hardness of the material from which they are made. In addition, the device is not affected by ambient temperature due to the use of compressed air energy to drive the cleaning tool into rotation.

The task of increasing the safety of work is achieved due to the fact that damage to the pipe itself is eliminated by using the principle of rotation of the cleaning tool to remove deposits simultaneously with uniform movement along the surface of the pipe using a torsion bar connected to the shaft, which receives rotation from the air motor.

The task of simplifying and improving the reliability of the structure is achieved by using a small number of parts in the device as part of a simple hydromechanical system consisting of an air motor connected to a cleaning tool with a shaft and a torsion bar, as well as due to the small amount of consumables for this system.

Fig. 1 shows a manual pneumatic installation for cleaning the inner surface of pipes; Fig. 2 is a sectional diagram of the device.

The device comprises a housing 1 with a shaft 2 located therein, a drive rotating the shaft (air motor) 3, and a cleaning tool 4. In the cleaning tool 4, holes 5 for supplying liquid under pressure are made. In the housing 1, water supply channels 6 are made through the valve assembly 7, as well as a channel 8 for supplying compressed air to the air motor 3 through the nozzle 9 for supplying compressed air. A torsion bar 10 is connected to the shaft 2. A gearbox 11 is mechanically connected to the air motor 3. The housing 1 is additionally equipped with a trigger 12 with the ability to control the supply of compressed air.

The device works this way. For manual pneumatic installation to work, it is necessary to provide compressed air supply to the fittings 9 (with a pressure of 0.4-0.7 MPa and a flow rate of 1.5 m ³ / min, possibly without air conditioning) and process water (with a pressure of 0.2-0, 5 MPa).

The trigger 12 on the handle made on the housing 1 controls the opening / closing of the compressed air supply valve 9 to the air motor 3, which, with the help of the gearbox 11, transmits rotation with a certain torque and speed to the output shaft 2 of the installation. The trigger 12 also controls the opening / closing of the valve assembly 7 for supplying water to the operating area of the cleaning tool. Water is supplied through channel 6 in the housing 1 of the installation, through an opening in the torsion bar 10, directly to the cleaning tool 4 and then through the holes 5 it enters the zone of operation of the cleaning tool 4.

In the process of rotation of the cleaning tool 4, chipping and grinding of deposits 13 takes place, which are immediately washed out by a stream of water from the pipe 14. The supply of water to the working area of the tool also contributes to a significant increase in the efficiency of pipe cleaning and tool durability.

The design of the cleaning tool 4 and the exact selection of its size relative to the diameter of the cleaned pipe 14 eliminates the possibility of damage to its inner surface.

Thus, in the claimed utility model, an increase in the efficiency of the pipe cleaning process, an increase in the safety of work, a simplification and an increase in the reliability of the structure are achieved.

Claims (4)

1. A manual pneumatic installation for cleaning the inner surface of the pipes, comprising a housing with a shaft located therein, a shaft rotation drive and a cleaning tool, characterized in that a pneumatic motor is used as a rotation drive, and the shaft is hollow, moreover, liquid supply holes are made in the cleaning tool for pressure. 2. The manual pneumatic installation according to claim 1, characterized in that in the housing there are made water supply channels through the valve assembly, as well as a compressed air supply channel to the air motor through the compressed air supply fitting. 3. The manual pneumatic installation according to claim 2, characterized in that the torsion bar connected to the shaft and a torque transmission gearbox with a given speed, mechanically connected to the air motor, are additionally introduced into the device. 4. Manual pneumatic installation according to claim 3, characterized in that the housing is additionally equipped with a trigger with the ability to control the supply of compressed air and water.