RU184600U1 - Bayonet radial sealing device with bypass of the working medium - Google Patents

Abstract

A bayonet radial sealing device with a bypass of the working medium contains two flanges and a sealing metal ring with a bent part facing the second flange mounted on the inlet part of the second flange with a minimum clearance.

The joint is sealed along the continuous wall of the ring in such a way that there are screws on the first flange with a head, a neck and a threaded part, and on the cover with a groove adjacent to the first flange, there are figured holes for the head and neck of the screws.

Axial openings for bypassing the working medium in the cover are made in the form of grooves.

The utility model can be used as a sealing device to ensure a given tightness of fixed and movable flange radial joints with limited space between the flanges, for example, for joints of an air intake with an inlet of a turbojet engine, in which the engine control units are located around the perimeter of the second flange.

Description

The proposed utility model relates to sealing devices for fixed and movable flange radial joints operating both under normal conditions and at high temperatures, and can be used in various fields of technology, including aviation, for sealing joints of air intakes and air intake inlet devices jet engines.

The closest technical solution, selected as a prototype, is a flange sealing device with a bypass of the working environment - utility model No. 109821 from 05/05/2011

The flange sealing device contains two flanges, a sealing metal ring installed between the flanges, installed on the inlet of the second flange with a minimum clearance, the joint is sealed along the continuous wall of the ring, while the ring is located in the groove formed by the end surface of the first flange and the cover and has the possibility of transverse moving into the groove.

The bypass of the working medium is ensured as follows: in the first flange there are aligned radial holes and axial holes, and in the cover there are axial holes combined with axial holes in the first flange. In addition, there are transverse grooves in the lid for attaching the lid to the flange, which also ensures that the lid is attached to the flange in the turned position, which allows changing the flow rate of the bypassed working medium due to overlapping axial holes in the flange and in the lid.

A common essential feature of the prototype - a flange sealing device with a bypass of the working medium, which coincides with the essential feature of the proposed device, is that the bayonet radial sealing device contains two flanges, a sealing metal ring located between the flanges, mounted on the input part of the second flange with a minimum clearance, the seal the joint is carried out along the continuous wall of the ring, while the ring is located in the groove formed by the end surface of the first ANCA and lid and is able to move in the transverse groove.

The bypass of the working medium is ensured as follows: in the first flange there are aligned radial holes and axial holes, and in the cover there are axial holes combined with axial holes in the first flange.

A peculiarity of a flange sealing device with a bypass of the working medium is that for flange connections with a rigid fastening of the second flange, in order to fix the cover of the device, it is first necessary to install a metal ring with a cover on the inlet of the second flange, then slide the inlet of the second flange into the inner broadening of the first flange and after to fix the cover on the first flange. At the same time, for fixing the device cover on the first flange, as well as for its rotation, an open space is required for approaching the screws that secure the cover to the first flange around the entire perimeter of the cover. For this reason, this device can hardly be used for joints of flanges, in which, due to the design features of the second flange, it is difficult or unavailable to attach screws to the cover of the device to the first flange. For example, for the joints of the air intake with the inlet of a turbojet engine, in which the engine control units are located around the perimeter of the second flange. In addition, to ensure the collectability and accuracy of installation of the cover of the device, joint cutting of holes in the first flange and cover is required, or the use of mutually undocked equipment, which complicates the manufacturing process of the device.

The proposed utility model solves the technical problem of ensuring a given tightness of fixed and movable flange radial joints with limited space between the flanges, simplifying the manufacturing and assembly of the device.

To solve this technical problem, a bayonet radial sealing device with a bypass of the working medium containing two flanges, a sealing metal ring installed between the flanges, installed on the inlet of the second flange with a minimum clearance, the joint is sealed along the continuous wall of the ring with the radial surface of the inlet of the second flange, while the ring is located in the groove formed by the end surface of the first flange and the cover and has the possibility of lateral movement in the groove .

To bypass the working medium, the first flange has combined radial holes and axial holes, and the cover has axial holes combined with axial holes in the first flange, screws with a head, neck and threaded part on the first flange, and an adjacent groove on the cover to the first flange, there are figured holes for the head and neck of the screws, the axial holes for bypassing the working medium in the lid are made in the form of grooves, the sealing metal ring has a bent part facing the second flange.

The distinctive features of the proposed bayonet radial sealing device with a bypass of the working environment are the following:

- on the first flange there are screws with a head, a neck and a threaded part, and on the cover with a groove adjacent to the first flange, there are figured holes for the head and neck of the screws;

- axial holes for bypassing the working medium in the cover are made in the form of grooves;

- the sealing metal ring has a bent portion facing the second flange

Due to the presence of these distinguishing features, in combination with the known solutions, the solution can be used as a sealing device to ensure the specified tightness of fixed and movable flange radial joints with a limited space between the flanges, for example, for the joints of the air intake with the inlet of a turbojet engine, in which the engine control units are located the perimeter of the second flange.

A utility model is illustrated in FIG. 1, 2, 3.

In FIG. 1 and FIG. 2 shows a bayonet-type end-face sealing device with a bypass of the working medium in the initial state. The device consists of a first flange 1 with internal broadening 2, a second flange 3 with a lead-in part 4, a cover 5 and a sealing metal ring 6 with a bent part 7, a screw 8 with a neck 9 and a threaded part 10. The screws 8 are screwed into the first flange 1 with the provision the required minimum clearance S min. and locked with locknuts. On the cover 5 there are figured holes 11 for the head and neck of the screw 8, holes 12 for bypassing the working medium, in the form of grooves, and an eye 13.

In FIG. 3 shows a bayonet-type mechanical seal with a by-pass of the working medium after tightening the bayonet joint.

The assembly of FIG. 1, 2, 3 of a bayonet radial sealing device with a bypass of the working medium occurs as follows: first, the cover 5 with a metal sealing ring 6 is installed on the inlet part 4 of the second flange 3. Then, the inlet part 4 of the second flange 3 is led into the inner broadening 2 of the first flange 1. The cover 5 is pressed against the end surface of the first flange 1, while the heads of the screws 8 fall into the figured holes 11.

Then tightening the sealing device by turning the cover 5 due to the application of force to the eye 13. The necks 9 of the screws 8 go into the narrow part of the curved cutout 11 of the cover 5. Due to the fact that the diameter of the heads of the screws 8 is larger than the width of the narrow part of the curved cutout 11, the fixation cover 5 to the end surface of the first flange 1. To prevent reverse rotation of the cover 5, the latter is locked through the eye 13 to the first flange 1 with wire 14.

Due to the fact that the holes 12 for bypassing the working medium are made in the form of grooves, they are aligned with the aligned radial holes and axial holes of the first flange 1 after turning the cover 5 when tightening the sealing device.

Claims (3)

1. Bayonet radial sealing device with a bypass of the working medium, containing two flanges, a sealing metal ring installed between the flanges, mounted on the inlet of the second flange with a minimum clearance, the joint is sealed along the continuous wall of the ring, while the ring is located in the groove formed by the end surface the first flange and the cover and has the possibility of lateral movement in the groove, for bypassing the working medium in the first flange there are combined radial holes and holes, and in the cover there are axial holes combined with axial holes in the first flange, characterized in that on the first flange there are screws with a head, neck and threaded part, and on the cover with a groove adjacent to the first flange, there are figured holes for head and neck screws. 2. Bayonet radial sealing device with a bypass of the working medium according to claim 1, characterized in that the axial holes for bypassing the working medium in the cover are made in the form of grooves. 3. Bayonet radial sealing device with a bypass of the working medium according to claim 1, characterized in that the sealing metal ring has a bent portion facing the second flange.

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