SU1013001A1 - Apparatus for cleaning hollow cylindrical articles - Google Patents

Description

The invention relates to a technique for cleaning hollow cylindrical products, namely, devices for cleaning the inner surfaces of pipes from sediments, for example, heat exchangers of energy objects.

A known device for cleaning cylindrical articles, comprising a cylindrical body with channels for passing washing liquid and a nozzle head placed on the body and a rotatable holder with nozzles located in planes parallel to the axis of rotation of the sleeve 11 |.

A disadvantage of the known devices is the low quality of cleaning when it is used to clean the internal surfaces of pipes from sediments, since, when the cage is rotated in one direction, the sprays of liquid make spiral movement and remain unclean.

The aim of the invention is to increase the cleaning efficiency.

This goal is achieved by the fact that the device for cleaning hollow cylindrical articles, comprising a cylindrical body with channels for passing washing liquid and a nozzle head placed on the body and a rotatable cage with nozzles located in planes parallel to the axis of rotation of the cage, is provided with an additional clip with nozzles, made at an acute angle to the direction of movement of the device and located in planes parallel to the axis of rotation of the yoke placed on the housing between the nozzle head and the yoke, the nozzles of which are made at an obtuse angle to the direction of movement of the device and are directed in the opposite direction relative to the nozzles of the additional holder.

FIG. 1 schematically shows the proposed device, a longitudinal section; in fig. 2 - the same, top view; in fig. 3 shows section A-A in FIG. one ; in fig. 4 shows a section BB in FIG. one.

The device comprises a cylindrical body 1 with a nozzle head 2, stops 3 and 4, and channels for the exit of washing liquid 5 and 6 and coaxially mounted on the body 1 between the stops 3 and 4 for rotationally an additional 7 and the main 8 sleeves with nozzles 9 and 10 respectively. side surfaces. The yoke 8 is identical to the yoke 7, but mounted on the body so as to be rotatable in the direction opposite to the rotation of the yoke 7. Nozzles 9 and

10 of each of the clips are located in planes parallel to the axis of rotation of the clips. The nozzles 9 of the casing 7 are made at an obtuse angle to the direction of movement of the device, and the nozzles 10 of the additional cage 8 are at an acute angle to the said direction and directed in the opposite direction relative to the nozzles of the cage 7. This ensures rotation of the clamps 7 and 8 in opposite directions. Corners tA | p (Fig. 2-4), under which the nozzles 9 and 10 are made, are shown respectively to the axis of rotation and to the vertical axis of the cross section of the device. To obtain the reactive force driving the device forward, it is necessary that the diameter of the nozzles 9 be larger than the diameter of the nozzles 10. The required rotational speed of the sleeves 7 and 8 is obtained depending on the pressure of the cleaning fluid to change the angles and diameter of the nozzles 9 and 10 ...

The stop 4 is made, for example, in the form of a nut and serves to limit the longitudinal displacements of the clips 7 to 8. The nozzle head 2 is made in the form of a lock nut with a central nozzle hole 11, which also serves for cleaning. At the opposite nozzle head 2, the end of the body 1 is threaded to connect a hose or rod (not shown) to supply cleaning fluid.

The device works as follows.

After the device is inserted into the pipe to be cleaned, the cleaning fluid is supplied under pressure to the housing 1, from where it enters through the radial channels 5 into the annular grooves b and further to the nozzles 9 and 10. At the same time, the sleeves 7 and 8 of the napkin are rotated in opposite directions. At the same time, the liquid exits through the nozzle orifice 11 and destroys the solid deposits that prevent the device from moving in the pipe. And the liquid jets emanating from the nozzles 9 and 10 clean the inner surface of the pipes. Under the effect of the resultant reactive force that occurs when the liquid leaves the nozzle holes, the device moves along the pipe.

The proposed device provides high efficiency of cleaning the internal surfaces of pipes from solid deposits and allows it to be used for cleaning pipes of small diameters of about 12-30 mm and large lengths.

6-6

eight

Claims (1)

DEVICE FOR CLEANING HOLLOW CYLINDRICAL PRODUCTS, comprising a cylindrical body with channels for passage of washing liquid and a nozzle head and a rotary holder with nozzles arranged in planes parallel to the axis of rotation of the holder, located on the body, characterized in that, in order to increase cleaning efficiency, it is equipped with an additional cage with nozzles made at an acute angle to the direction of movement of the device and located in planes parallel to the axis of rotation of the cage, placed on the housing between the oic head and a holder, wherein the nozzle formed at an obtuse angle to the direction of device movement and directed in the opposite direction relative to the nozzle holder further. S