RU2721620C1 - Metallic pressure nozzle for automatic supply of bentonite during trenchless laying of glass composite pipes - Google Patents

Abstract

FIELD: technological processes.SUBSTANCE: invention is used in construction of pipelines of domestic sewerage, rainwater drainage, industrial and other gutters, pipelines for transportation of chemical liquids, relates to a device for application of mortar, in particular, to metal nozzle for automatic supply of bentonite during trenchless laying of glass composite pipes. Metal pressure nozzle for automatic supply of bentonite during trenchless laying of glass composite pipes consists of housing made of steel, with ribs made monolithic along its perimeter, in which there is a check valve made with projections, a nut made of steel, installed on one threaded end of the housing with the possibility of being installed in the hole in the wall of the pipe made with splines, plug made of steel installed in hole on other end of housing, made with spline with possibility of its screwing, at that sealing profile is installed in joint with pipe and on plug. Check valve is made of polyethylene.EFFECT: improving reliability of device fixation in pipe wall and provision of its sealing during pressure pipelines laying and after application, which enables to efficiently deliver bentonite solution to the surface of the pushed glass composite pipe, thereby ensuring its efficient passage and high operational characteristics.1 cl, 3 dwg

Description

The claimed invention is used in the construction of pipelines for domestic sewage, storm drains, industrial and other drains, pipelines for transporting chemical liquids, relates to a device for applying mortar, in particular, to a metal pressure nozzle for automatic feeding of bentonite during trenchless laying of glass composite pipes and reinforced concrete pipes with glass composite core.

Bentonite is used in drilling fluids for microtunneling technology. The main objective of bentonite is to lubricate the space between the pushed pipes and the ground to reduce friction.

The main efforts that are overcome during trenchless pipe laying are related to the development of the soil with a micro shield, the mass of the pipe itself and the friction that occurs between the pipe and the ground. Excessive efforts when punching a pipe can lead to damage, a decrease in productivity and an increase in the cost of work. Bentonite-based drilling fluids are commonly used to reduce friction.

An analogue of the claimed invention is a spray device for bentonite-based material, which allows the formation of a high dry density bentonite layer. The spray device comprises a supersonic nozzle to which a compressor and a bentonite container are connected. A supersonic nozzle delivers compressed air from a compressor and bentonite-based material from a bentonite container. Compressed air mixed with bentonite-based material is accelerated to supersonic speed as it passes through the tapering portion of the supersonic nozzle and is sprayed at a supersonic speed from the jet hole (US Patent No. US 8470406 B2, publication date: June 25, 2013).

The main disadvantages of the analogue is that the nozzle design does not allow it to be fixed in the pipe wall and to ensure its sealing when laying pressure pipelines and after use, which reduces its effectiveness.

Another analogue selected as a prototype is a spraying method and a device for spraying bentonite material. The method includes: supplying compressed air to a supersonic nozzle formed by a compressing part, a constricting part and an expanding part, said compressed air being accelerated to a supersonic speed in the process of supplying to said expansion part by passing through said tapering part and supplying supersonic compressed air from the nozzle formed downstream of the expanding portion, mixing the bentonite-based material with said compressed air and forming a bentonite layer by spraying said bentonite-based material mixed with said compressed air and characterized by feeding said bentonite-based material mixed with liquid into said supersonic a nozzle in which said bentonite-based material is a mixture containing said basic material and liquid (European Union Patent EP 1930087 B1, publication date: 12/12/2014).

Significant disadvantages of the prototype is that the nozzle design does not provide for rigid two-way fastening, which does not allow it to be securely fixed in a glass composite pipe and does not provide a high level of sealing when laying pressure pipelines.

The objective of the claimed invention is to eliminate the disadvantages of the analogue and prototype, and the technical result is the ability to securely fix it in the wall of the pipe and ensure its sealing when laying pressure pipelines and after use, which allows you to effectively deliver bentonite solution to the surface of the pushed glass composite pipe, thereby ensuring its effective passing and high performance.

The technical result is achieved due to the fact that the metal nozzle for automatic feeding of bentonite during trenchless laying of glass composite pipes is characterized by the fact that it consists of a body made of steel with ribs made integral with its perimeter, in which a non-return valve made with protrusions is installed a nut made of steel installed on one threaded end of the housing with the possibility of installing in the hole in the pipe wall made with slots, a plug made of steel installed in the hole on the other end of the housing made with a slot with the possibility of screwing it, while installed sealing profile at the junction with the pipe and on the cork.

In this case, the check valve is made of polyethylene.

The claimed invention is illustrated by drawings.

In FIG. 1 shows a General view of the device in longitudinal section.

In FIG. 2 shows a top view of the device.

In FIG. 3 shows a plug.

Where:

1 - housing;

2 - cork;

3 - a nut;

4 - check valve.

A metal pressure nozzle for automatic feeding of bentonite during trenchless laying of glass composite pipes is characterized by the fact that it consists of a body made of steel, made, for example, by milling or turning, with ribs made integral along its perimeter to ensure reliable fixation in the pipe wall.

A check valve is installed inside the housing, which is made, for example, of polyethylene, by, for example, screwing it in through a thread. The valve may take the form of a cylinder with a stepped transition into a truncated cone on which protrusions are made, for example, along its perimeter and cuts, for example, along the horizontal and vertical axes of symmetry.

The valve is made with protrusions, for example, by injection molding.

The nut, made of steel, is mounted on one threaded end of the housing with the possibility of installation in a hole in the pipe wall.

The nut is made with slots, for example, for a hexagonal or octagonal head.

Cork made of steel. It is installed in the hole at the other end of the housing, made with a slot with the possibility of screwing.

The device has a sealing profile at the junction with the pipe and on the cork. A sealing profile is installed on the upper and lower parts of the nozzle, at the points of connection with the pipe, and a sealing profile is provided for installing the nozzle on the tube, which protects against internal and negative pressure.

The claimed device is as follows.

The body of the metal nozzle is fixed in the wall of the micro-shield pipe by fixing it through a threaded connection with a tightening nut, which makes it possible to securely fix the nozzle in the pipe with different wall thicknesses. Then, a system for supplying bentonite under pressure is brought to the nozzle. The non-return valve provides uniform unilateral supply of bentonite to the surface of the pipe, which reduces the required effort to push the pipe during microtunnelling and as a result increase the range of trenchless laying. After laying, the bentonite feed system is disconnected from the metal nozzle, and the hole is closed with a plug, which ensures the tightness of the pipeline.

Thus, this metal nozzle after laying the pressure pipe remains in the pipe itself.

The foreseen installation of the sealing profile at the joints with the pipe provides high tightness indicators when laying pressure pipelines, withstanding pressures up to 32 atmospheres.

Thus, the tests of the prototype, when using the device proposed for patenting, showed that it is possible to securely fix it in the pipe wall and ensure its sealing when laying pressure pipelines and after use, which allows efficient delivery of bentonite solution to the surface of the glass composite pipe being pushed, thereby providing its effective pushing and high operational characteristics.

Analysis of the totality of all the essential features of the proposed invention proves that the exclusion of at least one of them leads to the inability to fully ensure the achieved technical result.

The analysis of the prior art shows that it is unknown such a device that has inherent features identical to all the essential features of this technical solution, which indicates its unknownness and, therefore, novelty.

The above also proves the conformity of the claimed device to the criterion of inventive step.

When implementing the invention, the presence of the proposed object is really realized, which indicates its industrial applicability.

Claims (2)

1. A metal pressure nozzle for automatic feeding of bentonite during trenchless laying of glass composite pipes, characterized in that it consists of a body made of steel with ribs made integral along its perimeter, in which a non-return valve is installed, made with protrusions of a nut made of steel installed on one threaded end of the housing with the possibility of installing in the hole in the wall of the pipe made with slots, a plug made of steel installed in the hole on the other end of the housing made with a slot with the possibility of screwing in, while the sealing profile is installed at the joints with pipe and cork. 2. A metal pressure nozzle for automatic feeding of bentonite during trenchless laying of glass composite pipes according to claim 1, characterized in that the check valve is made of polyethylene.

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