RU69444U1 - HYDRAULIC CLEANING DEVICE - Google Patents

Abstract

The utility model relates to the engineering industry, and can be used to clean the surface of oxide, carbon deposits, old coatings.

A device for hydro-jet cleaning consisting of a mixing chamber 10, a nozzle of a working agent 2, a nozzle of a water stream 6, a hopper 4 with a limiter 3.

On the housing of the mixing chamber 10 in its front part, a working agent nozzle 2 is attached using a threaded connection 12. The thread is made on the outer part of the chamber 10 and on the inside of the nozzle 2. Adjusting the working agent nozzle 2 changes the contact spot of the impact of working agent 1 about the surface being cleaned. In a predetermined position, the nozzle 2 is fixed with a lock nut 11. A nozzle 6 of the water flow is screwed into the rear of the casing using a threaded connection 9. When adjusting the nozzle 6 of the water flow, the ejection force changes and, accordingly, the amount of abrasive sucked from the hopper 4. In the set position, the nozzle 6 is fixed with a lock nut 5. Adjusting the position of the nozzles allows you to select parameters for various contaminants, thereby achieving more efficient cleaning.

Description

The utility model relates to the engineering industry, and can be used to clean the surface of oxide, carbon deposits, old coatings.

A device for cleaning surfaces, comprising a housing with a handle, a mixing chamber, a removable hopper in the form of a Dewar vessel, a cutter driven into rotation from an electric motor with a gearbox and a coupling, a nozzle. The working agent in this device is granules of dry ice and snow-ice mass moving in a stream of compressed gas [see author St. No. 11777144, B24C 3/06, 05.01.84].

The disadvantage of this device is the presence of a large number of technical means, the time spent on recharging the device during operation.

The closest in technical essence is a device for hydro-jet cleaning, containing a nozzle of a working agent with a line for supplying air, a nozzle of a water stream, a container with a liquid and a container with an abrasive that provides the environment of the working agent in series with water and air flows [see author St. No. 1796432, B24C 1/00, 01.10.90].

Its disadvantage is associated with the impossibility of changing the surface cleaning regimes depending on the physicochemical properties of the contaminants.

The problem, which the utility model is aimed at, consists in the possibility of selecting cleaning modes for various types of pollution.

The technical result from the use of the utility model is that it allows to expand the functionality of the device and increase the cleaning efficiency by adjusting the contact spot and

the impact force of the working agent on the surface being cleaned, as well as the change in the ejection force, that is, the amount of abrasive material sucked from the hopper.

The specified technical result is achieved in that the device for waterjet cleaning containing a water flow nozzle, a working agent nozzle having an air supply line, the hopper is equipped with a chamber for mixing abrasive material with water, a hopper with a limiter integrated in it, and the mixing chamber is made in in the form of a nozzle having a threaded connection on the outside, in contact with the corresponding threaded connection of a working agent nozzle, and on the inside, a water flow nozzle having akzhe response threaded connection.

It is advisable to install a lock nut on the threaded connection of the camera body for mixing, to fix the nozzle of the working agent. It is preferable to install a lock nut on the threaded connection of the water flow nozzle to fix the water flow nozzle 6.

Figure 1 shows a device for hydro-jet cleaning the surface, consisting of a chamber 10 for mixing, a nozzle 2 of the working agent, a hopper 4 with a limiter 3 and a nozzle 6 of the water flow. On the housing of the mixing chamber 10, in its front part, the working agent nozzle 2 is attached using a threaded connection 12. The thread is made on the outer part of the mixing chamber 10 and on the inside of the nozzle 2. When the working agent nozzle 2 is screwed onto the camera body 10 for mixing, the contact patch of the impact of the working agent 1 on the surface to be cleaned increases, respectively, when the nozzle 2 is twisted, the contact patch decreases. In a predetermined position, the nozzle 2 is fixed with a lock nut 11. A nozzle 6 of the water flow is screwed into the rear of the housing of the chamber 10 for mixing by means of a threaded connection 9. The thread is made on the inside of the camera body 10 and the outside

nozzle 6. A valve 8 is mounted in the water flow pipe 7. When screwing the nozzle 6 of the water flow 7 into the chamber, bringing it closer to the hopper 4, the ejection force increases, more abrasive material is sucked in than when the nozzle 6 is twisted and removed from the hopper 4 . In a given position, the nozzle 6 is fixed with a lock nut 5. Adjusting the position of the nozzles allows you to select parameters for various contaminants, thereby achieving a more effective cleaning. The hopper 4 with an abrasive in the chamber of the mixing chamber 10 is mounted to a predetermined depth using a stop 3 and a taper hole in the camera body 10. The stop 3 is mounted on the hopper 4 with an abrasive by soldering. An air line 14. is connected to the housing of the nozzle 2 of the working agent 14. A valve 13 is mounted in it as well as in the water stream 7.

The operation of the device for waterjet cleaning is as follows. The water stream 7 is supplied through a pipeline with a control valve 8. Leaving the nozzle, the water stream 7 carries the abrasive from the hopper 4 and mixes them in the chamber 10. Next, the working agent 1 is surrounded by the air stream supplied through the line 14 with the control valve 13. The air flow protects the resulting mixture, thereby reducing friction against the outer walls of the nozzle 2 and stationary atmospheric air. As a result, the working agent 1 falls on the surface being cleaned at a constant high speed, which contributes to the intensification of cleaning.

The use of this utility model allows you to select the modes of surface cleaning by adjusting the nozzle 2 of the working agent and adjusting the nozzle 6 of the water flow, ultimately achieving optimal conditions for cleaning various types of contaminants, with different physicochemical properties.

Claims (3)

1. A device for water-jet cleaning, containing a nozzle of a water stream, a nozzle of a working agent having an air supply line, a hopper, characterized in that it is equipped with a chamber for mixing abrasive material with water, a hopper with a limiter integrated in it, the mixing chamber is made in the form of a nozzle having a threaded connection on the outside, in contact with the corresponding threaded connection of the working agent nozzle, and on the inside, a water flow nozzle, which also has a threaded response union. 2. The device according to claim 1, characterized in that on the threaded connection of the mixing chamber is fixed a lock nut for fixing the nozzle of the working agent. 3. The device according to claim 2, characterized in that a lock nut is also fixed on the threaded connection of the water flow nozzle.