SU1246692A1 - Apparatus for cleaning heated surface by wave action of working fluid - Google Patents

Description

The invention relates to means of cleaning surfaces and can be used in heat and power engineering to clean the heating surfaces of boilers from aeolian deposits.

The purpose of the invention is the expansion of technological capabilities.

The drawing shows a device for cleaning heating surfaces placed in a cleaned chamber.

 The device comprises an air wave radiator in the form of a supersonic nozzle 1 with a supply pipe 2 of a working agent; a tube 3 coaxially installed with the nozzle 1 to form an oscillating mode with a reflector 4, which is connected to a threaded rod 5, which is fixed to the fixed nut 6, and provided, for example, with a gear motor 7 of rotation of the rod 5. The pipe 3 is rigidly connected with a threaded spindle 8, mated with a stationary threaded sleeve 9 and equipped, for example, with a reducer electric rotary actuator 10. Elements of The properties are fixed on the walls of the chamber being cleaned 11 in such a way that the open end of the cavity of the pipe 3 is spaced from the nozzle 1 and at a distance of 6 from the end of the reflector 4. During the simultaneous operation of the gear actuators 7 and 10, the pipe 3 and the reflector 4 have the possibility of independent axial movement, in this case the dimensions a and fe may vary according to a given program. The device operates as follows.

Through pipe 2- and the nozzle 1, a working agent (gas or steam) is supplied under pressure, which flows out of the nozzle by an expanded supersonic jet. The supersonic jet enters the open end of a coaxially arranged pipe 3, the other end of which is closed by a reflector 4. At a certain distance of the open end of the bands Compiler A. Nikitin Editor L. Pashkova Tehred I. Glydosh Corrector A. Pstay Order 1892 G- Circulation 392 Subscription

VNIIPI USSR State Committee

for inventions and discoveries. 113035, Moscow, Zh-35, Raushsk nab. 4/5

Production and printing company, Uzhgorod, st. Project, 4

Tube 3 with respect to the nozzle is established self-oscillatory mode of interaction of the supersonic jet with the cavity of the tube 3. Shock-wave

The process inside the cavity of the pipe 3 is associated with the oscillation of jumps that occur in the jet in front of the cavity and the periodic formation and propagation of shock and discharge waves in the space surrounding the device. The initial pressure in the shock wave and the rarefaction wave propagating in the surrounding space depends on the intensity

shock wave inside the cavity. By varying the distance a between the nozzle 1 and the inlet section of the pipe 3, the pressure pulse in the cavity of the pipe 3 can be adjusted, and, consequently, the initial pressure in the shock wave and the rarefaction wave propagate in the surrounding space. The magnitude of the maximum and minimum pressure in the cavity of the pipe 3 also depends on its depth 6, which is regulated by the movement of the reflector 4. The frequency of the shock waves also depends mainly on the depth B and can smoothly

adjusted by moving the reflectors 4. The reflector 4 is moved by the actuator 7 with the help of the threaded rod 5 and the nut 6. The distance from the nozzle 1 to the tube 3 is adjusted by rotating the threaded spindle 8 in the sleeve 9 by the actuator 10.

When the device is in operation, the sizes and and (simultaneously change by means of actuators 10 and 7, at the same time, over a wide range, according to a predetermined program, they regulate the parameters of the shock waves generated by the device, waves and waves, which ensures the optimum effect of the latter on various areas of the surfaces located in the chamber 11. with different contamination conditions.

Claims (1)

DEVICE FOR CLEANING SURFACES OF HEATING BY WAVE INFLUENCE OF THE WORKING ENVIRONMENT, containing a wave emitter of the working medium and a reflector arranged coaxially to it, made with the possibility of axial movement from the drive, distinguishes it by the fact that, in order to expand technological capabilities, it is equipped with a pipe for the formation of the oscillatory regime of the working medium installed coaxially to the wave emitter of the working medium with the drive of its axial movement, and the reflector is located in the pipe for the formation of the oscillatory regime p bochey medium, the working medium wave radiator is formed as a supersonic nozzle sopla.s for connection to a source of air environment. SU „1246692 A1