RU173116U1 - Hydro-jet surface cleaning device - Google Patents

Abstract

The utility model relates to equipment of mechanical engineering, forestry and woodworking industry, public utilities and can be used to clean the surface from contaminants and coatings. The technical result of the utility model includes simplifying the manufacturing technology of the device, increasing its reliability and increasing the variety of modes of operation. The essence of the utility model consists in the design of a device for hydro-jet cleaning of the surface, which comprises a housing with a cover fixed to it with bolts, and a rotating exhaust nozzle with a driven gear mounted on the cover with the possibility of creating a pulsed jet of fluid twisted around a longitudinal axis with maximum impact energy in the tangent direction. The driven gear is driven through the drive gear, which rotates by means of an electric drive. The pulsed flow of a liquid stream is provided by an electromagnetic valve. The electric actuator and the solenoid valve are independently controlled. The outlet nozzle is equipped with a replaceable part, providing a change in the inner diameter of the specified nozzle.

Description

The utility model relates to equipment of mechanical engineering, forestry and woodworking industry, public utilities and can be used to clean the surface from contaminants and coatings.

Known hydraulic impulse containing a housing with a nozzle for supplying fluid and a number of exhaust nozzles. A plate with holes made in it is installed in the housing. An eccentric is mounted on bearings on one side of the plate in the housing of the hydro-pulser, which is driven by a hydraulic motor, and on the other side is a leaf spring constantly pressing the plate to the eccentric [RF Patent No. 2240870, B05B 1/08. Hydroimpulsator / Polyanin A.Ya., Polyanin I.A. (RF); Publ. 11/27/2004.].

The disadvantage of this device is the insufficient shock energy of each pulse of the hydraulic stream when meeting with an obstacle.

A hydraulic pulse generator is known, comprising a housing with a cap fixed to it with bolts, in which a plate with holes made in it is mounted, an eccentric driven by a hydraulic motor is installed on one side of the plate, and a spring is mounted on the other side, which presses the plate against the eccentric, the lid is equipped with a series of outlet nozzles opposite to each other with driven gears with the possibility of creating pulsed jets of fluid swirling around the longitudinal axis, with a maximum shock energy in a tangential direction, driven by a hydraulic motor through the drive and intermediate gears [Patent No. 2531286 of the Russian Federation, B05B 1/08. Hydroimpulsator / Polyanin I.A., Nikonorov K.N. (RF); Publ. 10/20/2014].

The disadvantages of this solution are:

- the mutual dependence of the pulse repetition rate and the speed of rotation of the exhaust nozzle;

- the complexity of manufacturing technology.

The technical result of the utility model is to simplify the manufacturing technology of the device, increase its reliability and increase the variety of modes of its operation.

The specified technical result is achieved in that in a device containing a housing with a cap fixed to it with bolts, and on the cover there is a rotating exhaust nozzle with driven gear with the possibility of creating a pulsed jet of fluid swirling around the longitudinal axis, with maximum impact energy in the tangential direction driven through the pinion gear, the latter rotates by means of an electric drive, a pulse supply of a stream of liquid is provided by means of an electromagnetic valve, moreover, the electric actuator and the electromagnetic valve are controlled independently from each other, the exhaust nozzle is equipped with a replaceable part, providing a change in the inner diameter of the specified nozzle.

The presence of an electric actuator and an electromagnetic valve with independent control from each other allows you to increase the variety of operating modes of the device by creating various combinations of pulse repetition rate, pulse duty cycle and hydraulic jet rotation frequency. The replaceable part of the exhaust nozzle provides a hydraulic jet of various diameters. The use of a separate solenoid valve and electric drive with independent control from each other in the design provides increased reliability, due to the fact that in case of a malfunction of one of the controlled elements, the device can still function. The presence of separate functional units, such as an electric actuator and a solenoid valve, simplifies the manufacturing technology of the device.

The utility model is industrially applicable, as it can be used in stationary and mobile installations for cleaning surfaces from contaminants and removing coatings.

The essence of the utility model is illustrated in the figure.

The drawing shows a section of the proposed device, reflecting its design.

The device for hydro-jet cleaning of the surface comprises a housing 1, on which a cover 3 is fixed using bolts 2. A rotating exhaust nozzle 4 with a driven gear 5 mounted in rotation by an electric drive 6 through a pinion gear 7 is fixed on the cover 3. An electromagnetic valve 8 is installed on the housing 1 providing pulsed supply of a stream of liquid. The solenoid valve 8 and the actuator 6 are independently controlled. The outlet nozzle 4 is provided with a replaceable part 9, which provides a change in the inner diameter of the nozzle 4.

The proposed device operates as follows.

The liquid under pressure enters the solenoid valve 8, the opening and closing of which provides a pulsed fluid supply to the rotating exhaust nozzle 4. The latter is driven into rotation from the electric drive 6 through the drive 7 and the driven gear 5. The initial diameter of the jet is determined by the inner diameter of the nozzle 4, the value of which is provided by the replaceable part 9. Due to the rotation of the exhaust nozzle 4 and the pulsed fluid supply by the electromagnetic valve 8, a pulse-swirling jet is formed, upon impact of which the surface (not shown in Fig. 1) is removed pollution or coating. The pulse repetition rate and the speed of its rotation can be set in various combinations, since the electric actuator 6 and the electromagnetic valve 8 are controlled independently of each other. This ensures a variety of modes of operation of the device.

Claims (1)

A device for hydro-jet cleaning of the surface, comprising a housing with a cap fixed to it with bolts, and a rotating exhaust nozzle with a driven gear mounted on the cap with the possibility of creating a pulsed jet of fluid swirling around the longitudinal axis, with maximum impact energy in the tangential direction, driven through a drive gear, characterized in that said drive gear rotates by means of an electric drive, a pulsed flow of a liquid stream is provided by means of an electric solenoid valve, and the electric actuator and the electromagnetic valve are controlled independently of each other, the exhaust nozzle is equipped with a replaceable part, providing a change in the inner diameter of the specified nozzle.

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