HIGH-PRESSURE TOLERANT INTEGRATED LEAKAGE-PROOF SLEEVE COMPENSATOR

Abstract

A high-pressure tolerant integrated leakage-proof sleeve compensator, comprising an inner pipe (1), a connection pipe (9), an outer sleeve (4) sleeved on the inner pipe, and a filler flange (3), one end of the filler flange extends into the outer sleeve, and the inner surface of the outer sleeve is provided with an annular inner boss (7); a sealing filler (5) is provided between the annular inner boss and the end of the filler flange extending into the outer sleeve; the outer surface of the inner pipe is provided with an annular outer boss (8), constituting an axially limiting structure of the inner pipe; the filler flange is connected to the outer sleeve via a fastener (2), the connection pipe and the outer sleeve are a unitary structure integrally formed; an anti-impact plate (14) is arranged between the sealing filler and the annular inner boss.

Claims

1. A high-pressure resistant integrated leak-free sleeve compensator, comprising an inner pipe, a connecting pipe, an outer sleeve sleeved on the inner pipe and a filler flange; one end of the filler flange extending into the outer sleeve; the outer sleeve having an inner surface provided with an annular inner boss; sealing filler being disposed between the annular inner boss and one end of the filler flange extending into the outer sleeve; the inner pipe having an outer surface provided with an annular inner boss to form an axial limit structure of the inner pipe; the filler flange and the outer sleeve being connected via a fastener; characterized in that, the connecting pipe and the outer sleeve are integrally molded to form an integrated structure; an anti-impact plate is disposed between the sealing filler and the annular inner boss; and wear-resistant carbon fiber layers are respectively disposed between the sealing filler and the outer surface of the inner pipe and between the sealing filler and the inner surface of the outer sleeve.

2. The high-pressure resistant integrated leak-free sleeve compensator according to claim 1, characterized in that, the filler flange is also provided with a compression flange on the outer side; and springs in an axial array are uniformly distributed, along the same circumference, between compression flange and the filler flange; and the compression flange, the filler flange and the outer sleeve are connected by a fastener.

3. The high-pressure resistant integrated leak-free sleeve compensator according to claim 1, characterized in that, the outer sleeve is provided with a stuffing filling device.

4. The high-pressure resistant integrated leak-free sleeve compensator according to claim 1, characterized in that, the inner pipe has two annular outer bosses, and the interval between the two annular outer bosses is 1.5 times the width of a single annular outer boss.

5. The high-pressure resistant integrated leak-free sleeve compensator according to claim 1, characterized in that, the inner diameter of the anti-impact plate is 1-0.5 mm greater than the outer diameter of the inner pipe, and the outer diameter thereof is 1-0.5 mm smaller than the inner diameter of the outer sleeve.

6. The high-pressure resistant integrated leak-free sleeve compensator according to claim 1, characterized in that, the connecting pipe is a reducer pipe.

Description

BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWINGS

[0022] FIG. 1 is a structural view of the prior art.

[0023] FIG. 2 is a structural view of embodiment 1 of the present invention.

[0024] FIG. 3 is a structural view of embodiment 2 of the present invention.

[0025] FIG. 4 is a structural view of embodiment 3 of the present invention.

[0026] FIG. 5 is a structural view of embodiment 4 of the present invention.

DETAILED DESCRIPTION OF THE INVENTION

[0027] In FIGS. 1-5, marks are as follows: inner pipe 1, fastener 2, filler flange 3, outer sleeve 4, sealing filler 5, stuffing filling device 6, annular inner boss 7, annular outer boss 8, connecting pipe 9, annular weld 10 for connecting the outer sleeve and the connecting pipe, annular outer boss 11, spring 12, compression flange 13, anti-impact plate 14, wear-resistant carbon fiber layer 15.

Embodiment 1

[0028] As shown in FIG. 2, a high-pressure resistant integrated leak-free sleeve compensator of this embodiment includes an inner pipe 1, a connecting pipe 9, an outer sleeve 4 sleeved on the inner pipe 1 and a filler flange 3. The connecting pipe 8 is a reducer pipe, integrally molded with the outer sleeve 4 to form an integrated structure. One end of the filler flange 3 extends into the outer sleeve 4. The outer sleeve 4 has an inner surface provided with an annular inner boss 7. Sealing filler 5 is disposed between the annular inner boss 7 and one end of the filler flange 3 extending into the outer sleeve 4. An anti-impact plate 14 is disposed between the sealing filler 5 and the annular inner boss 7. Wear-resistant carbon fiber layers 15 are respectively disposed between the sealing filler 5 and the outer surface of the inner pipe 1 and between the sealing filler 5 and the inner surface of the outer sleeve 4. The inner pipe 1 has an outer surface provided with an annular outer boss 8, forming an axial limit structure of the inner pipe 1. The filler flange 3 and the outer sleeve 4 are connected through a fastener 2.

[0029] The inner diameter of the anti-impact plate 10 is 1-0.5 mm greater than the outer diameter of the inner pipe, and the outer diameter thereof is 1-0.5 mm smaller than the inner diameter of the outer sleeve.

Embodiment 2

[0030] As shown in FIG. 3, this embodiment is added with a stuffing filling device 6 on the basis of embodiment 1. The specific implementation mode is as follows: 4-30 filling openings are uniformly distributed along the same circumference at positions corresponding to the sealing filler on the outer sleeve 4; a radial through-hole disposed in each filling opening runs through a traverse hole of the waist of the corresponding filling opening; the radial through-hole is provided with a plug at its outer end; and a plug installed in the traverse hole runs through the radial through-hole to form the stuffing filling device 6 with a valve structure. During use of the sleeve compensator, if a leak occurs due to a decline in the sealing performance, the plug installed at the outer end of the filling opening and the plug in the traverse hole can be removed on line, and a pressure gun can be inserted into the filling opening to compensate the sealing filler. After the filling is completed, the plug installed in the transverse hole is fastened first; then, the pressure gun is removed; and next, the outer end of the filling opening is re-installed with the plug. In this way, the sealing performance of the sleeve compensator can be recovered in time by compensating the sealing filler on line.

[0031] The stuffing filling device is of a prior art.

Embodiment 3

[0032] As shown in FIG. 4, this embodiment is added with a compression flange 13 on the outer side of the filler flange on the basis of embodiment 2. Springs 12 in an axial array are uniformly distributed along the same circumference between the compression flange 13 and the filler flange 3. The compression flange 13, the filler flange 3 and the outer sleeve 4 are connected by a fastener 2.

[0033] In this embodiment, when the sleeve compensator is normal use, the springs 12 are in the compressed state. Thus, even if the sealing filler 5 is worn after long-time use, the sealing performance of the sleeve compensator does not decline after normal wearing of the sealing filler 5 because the elastic force of the springs 12 can push the filler flange 3 to continuously compress the sealing filler 5.

Embodiment 4

[0034] As shown in FIG. 5, this embodiment is basically the same with embodiment 3 in structure, and is different in that the inner pipe has two annular outer bosses 8 and 11, wherein the interval between the two annular outer bosses is 1.5 times the width of a single annular outer boss. In this way, the fitting area between the inner pipe 1 and the outer sleeve 4 can be increased by 250% in comparison with a single annular inner boss, thus obviously improving the movement guide performance of the inner pipe 1 of the sleeve compensator, obviously enhancing the stability of the inner pipe 1 during movement relative to the outer sleeve 4, and preventing the inner pipe 1 from being laterally worn.