RU133248U1 - PROTECTIVE CASE - Google Patents

Abstract

1. A protective case, characterized in that it consists of upper and lower parts made in the form of hemispheres connected by attachment points, while centralizers are installed inside the case, and a clutch is located in the upper part of the case. The case according to claim 1, characterized in that the parts are made of composite materials. The case according to claim 1, characterized in that a seal is placed between the parts. The case according to claim 1, characterized in that it is made airtight. The case according to claim 1, characterized in that the attachment points are made in the form of clamps tightened by bolts. The case according to claim 1, characterized in that the centralizers are installed in increments of 900-1900 mm. The case according to claim 1, characterized in that the attachment points are installed in increments of 30-250 mm. A case according to claim 1, characterized in that the coupling is made of steel with an internal thread and is installed at a distance of 300-700 mm from the end of one of the hemispheres. The case according to claim 1, characterized in that the ends of the hemispheres are fixed hermetically on the gas pipeline.

Description

The utility model relates to the repair and protection of pipelines, in particular gas pipelines, from external damage.

The protective case is designed to protect gas pipelines from external loads and mechanical damage at the intersection with underground structures and communications, as well as to be able to detect and remove gas in case of damage to the gas pipeline.

Known protective casing, which includes two elements, internal and external. The inner element of the protective casing consists of molded fiberglass multilayer half-shells, half flanges located at the ends of the inner element. Sealing gaskets provide the required tightness of the connection using bolts and nuts with washers. An elastic material is laid on a pipe of larger and smaller diameters in places of contact with the internal element to prevent damage to the insulation applied to the pipe surface. The lower half-shell is made with through holes for the flow of water seeped through the connection of the half flanges with the pipe at the time of its movement. The outer element is formed from a filter casing that provides water outlet through the perforated holes of the lower half-shell and prevents various soil particles and dirt from penetrating through the same perforated holes to the sealing cuffs. The outer element is fixed to the pipes with clamps. The stiffener is made on the lower and upper half shells, and the holes for water drainage are formed on both sides of the stiffener (RU 2282002 C1, 08.20.2006).

The disadvantages of this invention are the inability to seal the product placed under the casing, protect the product from moisture, as well as the complexity of the design.

The objective of the utility model is to expand the arsenal of technical means of protecting the gas pipeline.

The technical result of the proposal is the ability to use the device in all climatic regions of the country at an operating temperature from minus 40 to plus 100 ° C. The ability to detect and remove gas in the event of damage to the pipeline within the protective case. In addition, the advantages of the proposed device is the tightness of the structure, ease of manufacture and operation.

The technical result is achieved by the fact that the protective case consists of upper and lower parts, made in the form of hemispheres, connected by attachment points, while centralizers are installed inside the case, and a clutch is located in the upper part of the case.

Parts of the case are made of composite materials.

A seal is placed between the parts of the case.

The case is sealed.

The attachment points can be made in the form of clamps tightened with bolts.

Centralizers can be installed in increments of 900 mm - 1900 mm.

Mounting units can be installed in increments of 30 mm - 250 mm.

The coupling can be made of steel with internal thread and installed

at a distance of 300 mm - 700 mm from the end of one of the hemispheres.

The ends of the hemispheres can be fixed hermetically on the gas pipeline.

The drawing shows the proposed device.

The protective case consists of the upper 1 and lower 2 parts, made in the form of hemispheres connected by attachment nodes 3, while inside the case

centralizers 4 are installed, and a clutch 5 is located in the upper part of the case.

Parts of the case are made of composite materials.

A seal is placed between the parts of the case.

The case is sealed.

The attachment points can be made in the form of clamps tightened with bolts.

Centralizers can be installed in increments of 900 mm - 1900 mm.

Mounting units can be installed in increments of 30 mm - 250 mm.

The coupling can be made of steel with internal thread and installed at a distance of 300 mm - 700 mm from the end of one of the hemispheres.

The ends of the hemispheres can be fixed hermetically on the gas pipeline 6.

Before assembling the protective case, the existing gas pipeline in the area falling into the protective case is cleaned of soil in order to determine the technical condition of the insulation coating by external inspection. The diameter of the protective case must be 100 mm larger than the working diameter of the underground gas pipeline. Carry out an external inspection of the halves of the protective case for mechanical damage. Then lay the lower half of the protective case on the prepared bottom of the trench under the case (above the heating main or under the heating main), while the distance from the wall of the protective case to the channel in the light should be at least 200 mm. Install the upper part of the protective case on the lower part and fasten with stainless steel bolts. The bolts are tightened uniformly from the center of the protective case to the ends of the case.

The ends of the protective case are sealed using technical rubber as a sealant.

After installing the control tube, test pressure testing of the protective case is carried out for tightness with a pressure of 500 mm in st. Pressure drop is not observed for 5 minutes.

The structural design of the device makes it possible to create a protective case with the following advantages: versatility, increased strength, reliability and durability, ease of installation.

Claims (9)

1. A protective case, characterized in that it consists of upper and lower parts, made in the form of hemispheres, connected by attachment points, while centralizers are installed inside the case, and a clutch is located in the upper part of the case. 2. The case according to claim 1, characterized in that the parts are made of composite materials. 3. The case according to claim 1, characterized in that a seal is placed between the parts. 4. The case according to claim 1, characterized in that it is made airtight. 5. The case according to claim 1, characterized in that the attachment points are made in the form of clamps tightened by bolts. 6. The case according to claim 1, characterized in that the centralizers are installed in increments of 900-1900 mm. 7. The case according to claim 1, characterized in that the attachment points are installed in increments of 30-250 mm. 8. The case according to claim 1, characterized in that the coupling is made of steel with internal thread and is installed at a distance of 300-700 mm from the end of one of the hemispheres. 9. The case according to claim 1, characterized in that the ends of the hemispheres are fixed tightly on the gas pipeline.

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