RU2409786C1 - Bio-shell case for pipeline accessories - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: bio-shell case for pipeline accessories consists of external case with coaxial inlet and outlet branches forming pass channel and of internal shell sealed relative to external case; internal shell has windows for working medium flow; in this shell there is coaxially installed gate with moving element - plate equipped with lengthwise slot; at plate moving said slot interacts with retainer installed in wall of shell. Also, on external surface of the shell there is made an inclined groove for a packing ring, for example, rubber ring, which seals the inlet and outlet branches of the case from each other, simultaneously it seals ports for working medium flow.

EFFECT: bio-shell case of high degree of reparability as dominant of various types of tube accessories of one port area.

5 dwg

Description

The invention relates to the field of mechanical engineering, namely to valve engineering, and can be used in the chemical, oil and gas and other industries as a housing for shut-off, shut-off, reverse, and safety pipe fittings (TA).

Known bio-shell casing (see US 2418443, cl. 251-359), containing an outer casing with coaxial nozzles forming a passage channel for the working medium, and an inner shell in the form of a glass with windows for passing the conductive medium, between which the shutter seat is located. The casing and the casing are sealed relative to each other by welding, which makes the bio-shell casing non-separable, which means that it has a low degree of maintainability.

Also known is a bio-shell housing (see DE 7705850, 02.06.77), a prototype comprising a housing, the inlet and outlet of which form a passage channel for the conductive medium, and an inner shell sealed relative to the housing, in which the shutter is coaxially placed, the movable shutter member is a plate has a longitudinal groove interacting when moving with a stopper installed in the wall of the inner shell. The plates are driven by a spindle controlled by a flywheel.

The disadvantages of the known include the limited use of the shell casing, i.e. its low consumer properties.

The technical problem to be solved in the claimed device is the creation with a high degree of maintainability of the bio-shell case as the dominant of various types of TA of one conditional passage.

The problem is solved in that the bioshell casing for pipe fittings consists of an outer casing with coaxial inlet and outlet pipes forming a passage channel and an inner casing, sealed relative to the outer casing, with windows for the passage of the working medium, in which the shutter with a movable element - a plate with a longitudinal a groove interacting when moving with a stopper installed in the wall of the shell. At the same time, an inclined groove is made on the outer surface of the shell for a sealing ring, for example, a rubber one, which seals the inlet and outlet pipes of the housing, as well as the windows for passing the working medium.

In figure 1. shows a section of a shut-off valve with a bio-shell housing; figure 2 - callout 1 in figure 1, a variant of the plate for the control valve; figure 3 - callout 1 in figure 1, a variant of the plate for the non-return valve; figure 4 - callout 1 in figure 1, a variant of the plate for the safety valve; figure 5 - callout 1 in figure 1, a variant of the plate check valve.

Figure 1 shows a section of a shut-off valve with a bio-shell casing, consisting of an outer casing 1 with an inlet 2 and an outlet 3 nozzles for a conducted medium, an inner shell 4 with windows 5 and 6 for a conducted medium, a jumper 7 sealed between windows 5 and 6 equipped with a saddle 8, interacting with the plate 9, coaxially placed in the inner shell 4, having a groove 10, interacting with the stopper 11 installed in the inner shell 4.

The plate 9 interacts with the spindle 12, mounted movably-rotationally in the glass 13 by means of a union nut 14 with a plate position indicator 15 and a controlled flywheel 16.

The glass 13 and the inner shell 4 are sealed relative to the outer casing 1 with a seal 17 and 18, respectively, and the seal of the shell 4 is made inclined.

For the control valve, the plate 9 is made with a stopper 19, for the non-return valve, the plate consists of two parts: a locking 9 and a return 20, a spring 21 is installed between the plates 20 and the locking 9 for the check valve. For the non-return valve, the spindle mount is not installed, and the union nut 14 and the glass 13 are made integral.

Assembly of the shutoff valve is as follows. In the outer case 1, the inner shell 4 with the stopper 11 is placed with the sealing element 18, so that the inlet pipe 2 coincides with the inlet window 5, respectively, the outlet pipe 3 with the outlet window 6, then the assembled spindle assembly with the glass 13 is sealed by the element 17 with the plate 9, placed in the inner cavity of the shell 4 so that the groove 10 of the plate 9 coincides with the stopper 11. Then put on the spindle nut and screw it onto the outer casing 1, then mount the travel indicator 15, the flywheel 16 and fix them. Moreover, the adjustment of the direction indicator is carried out either with the plate 9 closed or with it raised to the stop. The valve is ready for operation.

The valve is disassembled in the reverse order.

In a similar sequence, all types of TA are assembled using a bio-shell casing: control, non-return-locking, safety and non-return valves.

Thus, the implementation of the housing from two shells made it possible to apply it as a dominant for various types of SLTs with minimal changes in the SL shutter assembly, which significantly increased the degree of maintainability.

Claims (1)

A bio-shell casing for pipe fittings, consisting of an outer casing with coaxial inlet and outlet pipes forming a passage channel and an inner casing relative to the outer casing of the shell with windows for the passage of the working medium, in which there is a shutter with a movable element - a plate with a longitudinal groove interacting when moving with a stopper installed in the shell wall, characterized in that an inclined groove for sealing is made on the outer surface of the shell th ring, for example a rubber, sealant apart inlet and outlet housing as well, and a window for the passage of working medium.

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