RU28669U1 - SURFACE CLEANING DEVICE - Google Patents

Description

SURFACE CLEANING DEVICE

The utility model relates to ship repair technology and relates to the design of a technological tool for cleaning ship hulls from fouling both in the surface and underwater positions using a cavitating jet formed by a liquid medium and abrasive material.

A known tool for hydrodynamic cleaning of surfaces 1, comprising a handle body with a working medium supply channel connected to the working barrel, at the end of which a high-pressure nozzle is installed, an ejector mounted on the working barrel, a protective element, a transition element mounted on the handle body, and a flexible hose connected through a fluid supply line to a high pressure source.

The disadvantage of this tool is the design complexity due to the large number of elements and functional units.

The closest in technical essence to the proposed technical solution is a well-known non-reactive hydrodynamic tool for cleaning surfaces 2, comprising a handle body with channels for the supply line of the working medium, a working barrel connected to the handle body, a high-pressure working nozzle, a protective element, an adapter mounted on the handle-housing, and a flexible hose, moreover, it is equipped with a flow rate regulator of the working medium with an adjustment knob mounted on the handle-housing and included in the line the supply of the working medium, a tip mounted on the free end of the working barrel with the formation of an ejector and a high pressure chamber behind the barrel, a nozzle with adjusting holes mounted on the tip of the working barrel, an ejector regulator and a support bracket, while the ejector is formed by axisymmetric through channels made in the tip and located around the cut of the barrel, and the ejector regulator is made in the form of an adjustment ring with holes interacting with the adjustment holes of the NASA dy, and the axis of the tool barrel is made rectilinear or curvilinear. Such a tool has insufficient surface cleaning efficiency. The technical result, which consists in eliminating this drawback, is achieved in the proposed device for cleaning surfaces, containing a handle, inside of which there is a tubular element connected to one cTOpoin i through a connecting unit and serially connected flexible hose and a supply line of a working medium with a high pressure chamber, and on the other hand, with a channel of a hydraulic trunk, at the end of which a high-pressure working nozzle is installed, which is located in a protective casing, an additional nozzle pressure, mounted on the same axis with the hydraulic barrel in the opposite direction, in that it contains an additional hose for feeding abrasive material and nozzles, mounted coaxially with the hydraulic barrel and consisting of a confuser, a middle cylindrical part and a diffuser facing the surface to be cleaned, the confuser is connected to the protective casing by means of an adjustable threaded connection with the formation of an annular gap between the outer edge of the end face of the high-pressure working nozzle and the inner rhnostyu converger, wherein additional schlang for supplying the abrasive material is connected via a connecting nozzle with an outlet channel for supplying the working medium to the surface being cleaned. The achievement of the specified technical result is also ensured by the fact that between the outer surface of the working nozzle of high pressure and the inner surfaces of the confuser and the protective casing, a storage chamber is formed. (2

According to the first embodiment, the connecting fitting is installed on the outer surface of the protective casing at an angle to the axis of the hydraulic trunk and is connected to the storage chamber.

According to the second embodiment, the connecting fitting, the connecting fitting is mounted on the outer surface of the middle cylindrical part of the nozzle.

In addition, the device contains a protective apron made of elastic material and mounted on a diffuser.

The essence of the utility model is illustrated by drawings, where:

in FIG. 1 shows the construction of the proposed device in section with the first embodiment of the location of the connecting fitting for the additional hose; in FIG. 2 shows a second embodiment of a connection fitting.

The surface cleaning device comprises a handle 1, inside of which there is a tubular element (not shown in the drawing), connected on one side through a connecting unit 2 and connected in series with a flexible hose 3 and a medium supply line to a high-pressure chamber (not shown in the drawing), and on the other hand, with the channel of the hydraulic barrel 4, at the end of which a high-pressure working nozzle 5 is installed, located in the protective casing 6, an additional high-pressure nozzle 7, mounted on the same axis as the guide with the same barrel 4 in the opposite direction.

In addition, the device contains an additional hose 8 for supplying abrasive material and nozzles, mounted coaxially with the hydraulic barrel 4 and consisting of a confuser 9, a middle cylindrical part 10 and a diffuser 11.

The diffuser 11 faces the surface being cleaned (not shown).

The confuser 9 is connected to the protective casing 6 by means of an adjustable threaded connection 12 with the formation of an annular gap 8 between the outer edge of the end face of the high-pressure working nozzle 5 and the inner surface of the confuser 9.

A storage chamber 13 is formed between the outer surface of the high-pressure working nozzle 5 and the inner surfaces of the confuser 9 and the protective casing 6.

An additional hose 8 for supplying abrasive material is connected by means of a connecting fitting 14 to the output channel for supplying a working medium to the surface to be cleaned, which starts behind the end of the working nozzle 5.

The connecting fitting 14 can be located either on the outer surface of the protective casing 6 at an angle to the axis of the hydraulic barrel 4 or on the outer surface of the middle cylindrical part 10 of the nozzle. At the same time, it is connected to the additional hose 8 using the clamp 15.

In addition, the device contains a protective apron 16 made of elastic material and mounted on a diffuser 11. The apron 16 is designed to collect garbage that is created during the cleaning of surfaces.

The proposed device operates as follows.

High pressure working fluid enters through the flexible hose 3 from the high pressure source (not shown in the drawing) into the internal channel of the connecting unit 2. After that, through the tubular element placed inside the handle 1, it flows through the internal channel of the hydraulic barrel 4 into the working nozzle 5 high pressure and in an additional nozzle 7 high pressure mounted on the same axis with the hydraulic barrel 4 in the opposite direction.

The nozzle 5 has a special profile of the internal cavities, ensuring the formation of a cavitating jet at the nozzle nozzle exit.

Simultaneously with a cavitating liquid stream, an abrasive material is supplied under pressure through an additional flexible hose 8, which is mixed with the liquid in the middle cylindrical part 10 of the nozzle and forms a working mixture.

which leaves the diffuser And under high pressure and acts on the surface being cleaned, destroys biological fouling and removes exfoliated paint and rust.

The jet flowing from the nozzle of the additional forcing 7 creates a Force G balancing the force D arising from the jet at the outlet of the diffuser 11.

When using an instrument for open joint 1, the operator can rotate it in the direction of the X and Y axes.

Coaxially arranged nozzles 15 and 16, creating opposite in the direction of the jet, balance insfume in the direction of the X axis.

To set the necessary clearance S between the outer edge of the working end

nozzles 5 of high pressure and the inner surface of the confuser 9 in order to select the optimal parameters of the cleaning jet are adjusted using a threaded connection 12.

The working mixture at the outlet of the diffuser 11, formed by a jet of cavitating liquid and abrasive material, significantly increases the efficiency of cleaning surfaces.

The garbage generated during cleaning accumulates in the cavity of the elastic apron 16 and is periodically removed by known means.

The device can work both in the above-water position and under water.

For the manufacture of tool parts, structural materials are used made of metal, for example, stainless steel, not subject to corrosion,

High-strength plastic can be used for the handle.

The manufacturing process of the proposed tool does not contain complex operations and does not require the use of expensive materials.

Sources of information:

Claims (5)

1. A device for cleaning surfaces, containing a handle, inside which there is a tubular element connected on one side through a connecting node and connected in series with a flexible hose and a supply line of a working medium with a high-pressure chamber, and on the other hand, with a channel of a hydraulic barrel, at the end which is equipped with a high-pressure working nozzle located in the protective casing, an additional high-pressure nozzle mounted on the same axis as the hydraulic shaft in the opposite direction characterized in that it contains an additional hose for feeding abrasive material and nozzles, mounted coaxially with the hydraulic barrel and consisting of a confuser of the middle cylindrical part and a diffuser facing the surface to be cleaned, the confuser is connected to the protective casing by means of an adjustable threaded connection with the formation of an annular gap between the outer edge of the end face of the working nozzle of high pressure and the inner surface of the confuser, with an additional hose for feeding abrasive material with Yazan via a connecting nozzle with an outlet channel for supplying the working medium to the surface being cleaned. 2. The device for cleaning surfaces according to claim 1, characterized in that a storage chamber is formed between the outer surface of the high-pressure working nozzle and the inner surfaces of the confuser and the protective casing. 3. The device for cleaning surfaces according to claim 2, characterized in that the connecting fitting is installed on the outer surface of the protective casing at an angle to the axis of the hydraulic barrel and is connected with the storage chamber. 4. The device for cleaning surfaces according to claim 1, characterized in that the connecting fitting is installed on the outer surface of the middle cylindrical part of the nozzle. 5. The device for cleaning surfaces according to claim 1, characterized in that it contains a protective apron made of elastic material and mounted on a diffuser.