CN201851831U - Novel corrosion-resisting expansion device for pipeline - Google Patents

Abstract

The utility model discloses a novel corrosion-resisting expansion device for a pipeline, which belongs to the technical field of a thermal pipeline compensating device structure. The novel corrosion-resisting expansion device for the pipeline comprises an inner pipe, a variable diameter core pipe, a corrugated pipe, an outer sleeve, a protruded outer ring of the variable diameter core pipe, an inner bearing platform of the outer sleeve, a sealing piece, and the like, wherein the inner pipe is integrally inserted into the protruded outer ring of the variable diameter core pipe in a straight way and is matched with the inner wall of the variable diameter core pipe in a sliding and lapping way and seals the notch of the protruded outer ring of the variable diameter core pipe; the variable diameter core pipe and the protruded outer ring of the variable diameter core pipe with the sealing piece can realize integral displacement relative to the inner pipe along the axial direction of the variable diameter core pipe in the space between the outer sleeve and the inner pipe along with the expansion of the corrugated pipe; the inner bearing platform of the outer sleeve abuts against the outer end of the stepped wide port of the protruded outer ring of the variable diameter core pipe, so that the structure preventing the variable diameter core pipe from pulling and dropping and limiting can be formed. The utility model has the characteristics of small internal pressure thrust and friction, stable sealing performance, small heat loss, corrosion resistance, no direction constraint and large shifting absorption quantity.

Description

The corrosion-resistant expansion bend of novel pipeline

Technical field

The utility model relates to the corrosion-resistant expansion bend of a kind of novel pipeline, belongs to the technical field of heat supply network compensation of pipeline device, belongs to the technical field of the heat distribution pipeline compensation device structure of using in the industries such as oil, chemical industry, light industry, heating power, metallurgy specifically.

Background technique

Heat distribution pipeline must cause expanding with heat and contract with cold of pipeline because of the medium temperature of transmission changes, and the pipeline dilatation is to occur with end thrust that is unfavorable for the pipe safety operation or axial displacement form.Under the normal conditions, all be provided with the compensation of pipeline device in the heat distribution pipeline to absorb or the compensation pipe deforming.Common in the market have following several compensator: 1. spherical compensator, 2. FlexbleJoint, 3. slip-type expansion joint, 4. whirl compensator.Wherein: spherical compensator application area limitation, and also crushing is bigger; FlexbleJoint pipe stress in actual applications is bigger, is in stress during operation all the time, easily explosion; Old-fashioned slip-type expansion joint structure is single, the sealability instability, and leakage phenomenon is more general, and is also very weak aspect anticorrosion link.Whirl compensator is functional; Have that compensation rate is big, flexible arrangement, particularly application advantageization is more obvious in long defeated aerial pipeline; But also exist not enough: the one, the junction excesssive gap of interior pipe and reducer pipe can produce eddy current at this position in the flowing medium motion, has so just increased the pressure loss of flowing medium.The 2nd, whirl compensator is used when arranging in pipeline and must be taken certain space because structure is a working principle radially; Every group of compensator mounting points all must add drain valve; The cost and the crushing of pipe network have been increased so again; On buried pipeline, can't be widely used especially at all.

Summary of the invention

The utility model provides a kind of novel pipeline corrosion-resistant expansion bend.To realize bigger elimination pipe stress, strengthen sealing stability, improve antiseptic property, enlarge Applicable scope and have multi-functional characteristics, it is big to absorb displacement amount simultaneously, reduces investment outlay and operating cost; Make pipeline security of operation, reliable and reach purpose of energy saving.

The technical solution of the utility model is in order to achieve the above object:

The corrosion-resistant expansion bend of a kind of novel pipeline comprises: outside adpting flange A, interior pipe, bolt A, nut A, spring A, inner tube structure flange, outer sleeve flange A, bellows are strengthened cushion cap in page or leaf plate, bellows, Sealing A, spring B, nut B, bolt B, reducing core pipe, outside adpting flange B, corrosion resistant clad A, casting die flange, outer sleeve flange B, Sealing B, the outer sleeve, the protruding outer shroud of reducing core pipe, outer sleeve, corrosion resistant clad B, Sealing C, Sealing D, corrosion resistant clad C and steel ball composition; It is characterized in that:

The structure that the whole one-tenth of described reducing core pipe stepped shaft is wealthy mouthful, an end is fastenedly connected along outer shroud outside adpting flange B is set, and the extension of the other end one is provided with the protruding outer shroud of reducing core pipe, and the protruding outer shroud of this reducing core pipe cross section is the bathtub construction of opening towards the interior tubular axis heart;

Pipe integral body is straight tube structure in described, and an end is wholely set outside adpting flange A along outer shroud, and pipe outer shroud one is convexly equipped with and puts the inner tube structure flange that root is provided with a boss in this; Should whole straight the penetrating in the protruding outer shroud of this reducing core pipe and of interior pipe cooperate with the overlapping slidably overlap joint of the inwall of reducing core pipe; Duct occlusion is lived the protruding outer shroud notch of this reducing core pipe in described, makes and forms a ring-type hollow space between the two; Sealing part A is arranged at described ring-type hollow space inwall interior and the protruding outer shroud of this reducing core pipe of contact respectively and is somebody's turn to do the outer wall of interior pipe;

The outer shroud of pipe is arranged with an end and is fastenedly connected with the bellows that bellows is strengthened the page or leaf plate in described, this bellows one end is strengthened page boss of plate contact inner tube structure flange by the bellows that is fastenedly connected, and the other end contact is fixed on the termination of the protruding outer shroud of reducing core pipe;

The whole telescopic end that is set in this reducing core pipe outer shroud of described outer sleeve, the end ring that stretches out of this outer sleeve is enclosed within the outer surface of this bellows and is wholely set outer sleeve flange A in the end along outer shroud, this outer sleeve flange A is by being evenly distributed at least one pair of bolt A of its end face, and the cooperation of nut A and spring A and described inner tube structure flange are fastenedly connected; The non-port that stretches out an end of this outer sleeve is wholely set outer sleeve flange B along outer shroud; The inner ring surface one of this outer sleeve is convexly equipped with puts cushion cap in the ring-type outer sleeve, and cushion cap is also detained the outer wall that props up protruding outer shroud bathtub construction of this reducing core pipe and reducing core pipe joint in this outer sleeve between outer sleeve flange A and outer sleeve flange B; Form the structure that the protruding outer shroud of this reducing core pipe can be whole relatively moves along the axial compression bellows of interior pipe in outer sleeve and space that interior circumference of cannon bone becomes;

It is circular plate structure that described bellows is strengthened the page or leaf plate, and the page or leaf plate that leans out part is between inner tube structure flange and outer sleeve flange A; This bellows is strengthened page or leaf plate and is leant out part page or leaf plate both sides end face Sealing C and Sealing D with outer sleeve flange A and inner tube structure flange contact are set respectively;

The T-shaped structural entity in described casting die flange cross section is sheathed on this reducing core pipe outer ring surface and between outer sleeve flange B and outside adpting flange B with the horizontal end of T shape, and the perpendicular end of this casting die flange T shape is fastenedly connected by at least one pair of nut B, bolt B and spring B and described outer sleeve flange B;

Described casting die flange inner ring surface is provided with a groove, and at least one steel ball is positioned at the outer ring surface that this groove and the contact of rolling are lived this reducing core pipe;

Described Sealing B latch closure reducing core pipe outer ring surface and respectively contact in this outer sleeve between cushion cap and the horizontal end of this casting die flange T shape;

Stick on the described reducing core pipe inner and outer rings surface corrosion resistant clad A is set; Stick on the ring surface in the pipe in described corrosion resistant clad C is set; Stick on the ring surface in the described outer sleeve corrosion resistant clad B is set.

Sealing part A sectional shape is a rectangle; Sealing part B sectional shape is a rectangle.

The end portion both sides of the horizontal end contact of this casting die flange T shape sealing part B are respectively arranged with groove makes the cross section of end portion be T type structure.

The cushion cap sectional shape is a rectangle in this outer sleeve.

Stick on this inner tube structure flange and this outer sleeve flange A opposing end faces corrosion resistant clad C is set; Stick on this outer sleeve flange A and this inner tube structure flange opposing end faces corrosion resistant clad B is set.

The protruding outer shroud surface adhesion of this reducing core pipe is provided with corrosion resistant clad A; This inner tube outer surface sticks corrosion resistant clad C is set; Extend to stick on the adpting flange B end face of this outside corrosion resistant clad A is set; Extend to stick on the adpting flange A end face of this outside corrosion resistant clad C is set.

This spring A is dish formula spring or compression spring, is arranged at the outside of inner tube structure flange; This spring B is dish formula spring or compression spring, is arranged at the outside of casting die flange.

This corrosion resistant clad A, corrosion resistant clad B and corrosion resistant clad C are the glass fibre reinforced plastics polyester, teflon or spraying, are coated with the corrosion resistant clad of rinsing anticorrosive material.

The protruding outer shroud of this reducing core pipe can be whole is 100 millimeters～450 millimeters with the relative telescopic displacement distance of bellows stretching out in an end and the space that interior pipe integral body surrounds of outer sleeve axially along reducing core pipe.

This reducing core pipe entire length is 400 millimeters～600 millimeters, and pipe entire length is 400 millimeters～1200 millimeters in this; This reducing core pipe diameter is 100 millimeters～3000 millimeters, and this diameter of inner pipe is 100 millimeters～3000 millimeters.

Adopt the technical solution of the utility model because reducing core pipe and interior pipe are straightly to be connected slotting, coaxial outer sleeve and casting die flange, and auxiliary axially setting upright of Sealing arranged, eliminated the direct impact of internal pressure to Sealing simultaneously, the MEDIA FLOW that the gap of junction is more suitable in the flowing medium motion is set upright effect to having improved the axle center simultaneously; Can extenuate the huge blind plate power of thermal expansion of pipeline in the axial motion.The protruding outer shroud of reducing core pipe and bellows are limited to by in outer sleeve and the space that interior circumference of cannon bone becomes and axially move, and have strengthened the whole scope that moves of expansion bend, and simultaneous adaptation alleviates pipeline because the end thrust that the bigger displacement that brings of expanding with heat and contract with cold produces; In addition, because employing is multi-stage sealed mode, improved the durability of Sealing, the corrosion resistant layer of integrated piping surface adhesion can adapt to the conveying that rotten medium is arranged simultaneously.Have corrosion-resistantly, sealing is reliable, and friction factor, torque are little, and pressure-bearing is strong, the no pressure loss, and MEDIA FLOW is not to limited and deal with larger axis to thrust, function admirable, the characteristics that pipeline is safe and reliable to operation.And press thrust, frictional resistance little in not having, and sealability is stable, and heat waste is little, corrosion-resistant, directionless constraint, it is big to absorb displacement amount, reduces investment outlay and operating cost; Really make pipeline security of operation, reliable, energy-conservation characteristics.

Description of drawings

Fig. 1 is the structural profile schematic representation before the utility model telescopic displacement;

Fig. 2 is the structural profile schematic representation behind the utility model telescopic displacement.

Description of reference numerals:

1, outside adpting flange A

2, interior pipe

3, bolt A

4, nut A

5, spring A

6, inner tube structure flange

7, outer sleeve flange A

8, bellows is strengthened the page or leaf plate

9, bellows

10, Sealing A

11, spring B

12, nut B

13, bolt B

14, reducing core pipe

15, outside adpting flange B

16, corrosion resistant clad A

17, casting die flange

18, outer sleeve flange B

19, Sealing B

20, cushion cap in the outer sleeve

21, the protruding outer shroud of reducing core pipe

22, outer sleeve

23, corrosion resistant clad B

24, Sealing C

25, Sealing D

26, corrosion resistant clad C

27, steel ball

Embodiment:

Below in conjunction with accompanying drawing 1 and Fig. 2 the technical solution of the utility model is described in detail as follows.

Be illustrated in figure 1 as the preceding structural profile schematic representation of the utility model telescopic displacement, with respect to the structural profile schematic representation behind Fig. 2 the utility model telescopic displacement relatively, from Fig. 1 and Fig. 2, can find out, the corrosion-resistant expansion bend of a kind of novel pipeline comprises: outside adpting flange A1, interior pipe 2, bolt A3, nut A4, spring A5, inner tube structure flange 6, outer sleeve flange A7, bellows is strengthened page or leaf plate 8, bellows 9, Sealing A10, spring B 11, nut B12, bolt B 13, reducing core pipe 14, outside adpting flange B15, corrosion resistant clad A16, casting die flange 17, outer sleeve flange B18, Sealing B19, cushion cap 20 in the outer sleeve, the protruding outer shroud 21 of reducing core pipe, outer sleeve 22, corrosion resistant clad B23, Sealing C24, Sealing D25, corrosion resistant clad C26 and steel ball 27 are formed; Wherein:

The structure that described reducing core pipe 14 whole one-tenth stepped shafts or circular arc are wealthy mouthful, reducing core pipe 14 1 ends are fastenedly connected along outer shroud outside adpting flange B15 are set, this outside adpting flange B15 is a ring-type, end face is evenly distributed at least one through hole is set, and inner ring surface is connected or is welded to connect with the outer shroud spiral of reducing core pipe 14 and is integral; Reducing core pipe 14 the other ends (the other end here is the other end that has been oppositely arranged the end of outside adpting flange B15) one is extended the protruding outer shroud 21 of reducing core pipe of being arranged to stepped shaft wealthy mouthful (being that protruding outer shroud 21 external diameters of reducing core pipe are greater than reducing core pipe 14 external diameters), and the protruding outer shroud of this reducing core pipe 21 cross sections are the bathtub construction of opening towards interior pipe 2 axle center; Pipe 2 is a straight tube structure in described, one end (or outer end) is wholely set outside adpting flange A1 along outer shroud, this outside adpting flange A1 is a ring-type, and end face is evenly distributed at least one through hole is set, and inner ring surface or spiral one-body molded with the outer shroud of interior pipe 2 is connected or is welded to connect and be integral; Reducing core pipe 14 and interior pipe 2 are coaxial configuration.

Pipe 2 outer shroud one are convexly equipped with and put the inner tube structure flange 6 that root is provided with a boss in being somebody's turn to do; Should interior pipe 2 whole straight penetrating in the protruding outer shroud 21 of this reducing core pipe and cooperate with the overlapping slidably overlap joint of the inwall of reducing core pipe 14; Pipe 2 closes protruding outer shroud 21 notches of this reducing core pipe in described, makes and forms a ring-type hollow space between the two; Sealing part A10 be provided with (or filling) in described ring-type hollow space and respectively the protruding outer shroud 21 of this reducing core pipe of contact inwall and should in the outer wall of pipe 2, formation Sealing A10 latch closure is in the outer wall and the structure of protruding outer shroud 21 latch closures of reducing core pipe on Sealing A10 outer shroud of interior pipe 2;

As Fig. 1, shown in Figure 2, the outer shroud of pipe 2 is arranged with an end and is fastenedly connected with the bellows 9 that bellows is strengthened page or leaf plate 8 in described, these bellows 9 one ends are strengthened the side of the boss (the boss cross section of inner tube structure flange 6 is rectangular-shaped) of page or leaf plate 8 contact inner tube structure flanges 6 by the bellows that is fastenedly connected, and the other end contact is fixed (for example welding is fixing) in the termination of the protruding outer shroud 21 of reducing core pipe (end face);

Described outer sleeve 22 whole telescopic ends that are set in these reducing core pipe 14 outer shrouds, the stretching out that an end ring is enclosed within the outer surface of this bellows 9 and be wholely set outer sleeve flange A7 (be outer sleeve flange A7 one or be connected to one be arranged on an end of outer sleeve 22) along outer shroud of this outer sleeve 22 in the end, this outer sleeve flange A7 is by being evenly distributed on (through hole utilization) at least one pair of bolt A3 of its end face, and the cooperation of nut A4 and spring A5 and described inner tube structure flange 6 are fastenedly connected; The non-port that stretches out an end of this outer sleeve 22 is wholely set outer sleeve flange B18 along outer shroud; The inner ring surface one of this outer sleeve 22 is convexly equipped with puts cushion cap 20 in the ring-type outer sleeve, and cushion cap 20 is also detained the outer wall that props up protruding outer shroud 21 bathtub constructions of this reducing core pipe and reducing core pipe 14 joints in this outer sleeve between outer sleeve flange A7 and outer sleeve flange B18; Form the structure that the protruding outer shroud 21 of this reducing core pipe can be whole relatively moves along the axial compression bellows 9 of interior pipe 2 in the space that outer sleeve 22 and interior pipe 2 surround;

It is circular plate structure that described bellows is strengthened page or leaf plate 8, bellows 9 can be described as bottom (or interior ring end face) with the part that its contact is fixed for the little anchor ring near the center of circle, be not top (or leaning out part or outer shroud end face or top) with the fixing part of bellows 9 contacts, the page or leaf plate that leans out part (outer shroud end face or top) (is being actually and is inserting between inner tube structure flange 6 and the outer sleeve flange A7) between inner tube structure flange 6 and the outer sleeve flange A7; This bellows is strengthened page or leaf plate 8 and is leant out part page or leaf plate both sides end face and be provided with respectively with the Sealing C24 of outer sleeve flange A7 and inner tube structure flange 6 contacts and Sealing D25 (be equivalent to Sealing C24 and Sealing D25 clamp bellows from both sides strengthen a page or leaf plate 8 and lean out part page or leaf plate).

Described inner tube structure flange 6 be wholely set in this pipe 2 outer shrouds and be positioned at this outside adpting flange A1 and and opposite side termination (promptly inserting the part of reducing core pipe 14) between, this inner tube structure flange 6 is positioned at the external end head (connecting the side that bellows is strengthened page or leaf plate 8) of this bellows 9 simultaneously, the interior ring of inner tube structure flange 6 and the outer shroud of interior pipe 2 be communicated as one (, shown in Figure 2) as Fig. 1;

Described reducing core pipe 14, protruding outer shroud 21 integral body of reducing core pipe can be set in this outer shroud of pipe 2 and the protruding outer shroud 21 of reducing core pipe with this outer sleeve 22 of bellows 9 telescopic displacements (mainly referring to bellows 9 retractable displacement in the space of interior pipe 2 outer surfaces and outer sleeve 22 inner surfaces here), this outer sleeve 22 is wholely set outer sleeve flange A7 near inner tube structure flange 6 one ends along outer shroud, this outer sleeve flange A7 utilizes at least one pair of bolt A3 by the through hole that is evenly distributed on its end face, and cooperation and the described inner tube structure flange 6 of nut A4 and spring A5 (can increase pad or spring between the bolt and nut here and strengthen its better connectivity and sealability) are fastenedly connected; The non-port that stretches out an end of this outer sleeve 22 is wholely set outer sleeve flange B18 along outer shroud; The inner ring surface one of this outer sleeve 22 is convexly equipped with puts cushion cap 20 in the ring-type outer sleeve (cross section of cushion cap 20 can be rectangle in this outer sleeve), in this outer sleeve cushion cap 20 between outer sleeve flange A7 and the outer sleeve flange B18 and button prop up wealthy mouthful of protruding outer shroud 21 stepped shafts of this reducing core pipe outer wall (be actually when bellows 9 between interior pipe 2 and outer sleeve 22 during telescopic displacement, the protruding outer shroud 21 of reducing core pipe is the maximum stop that reducing core pipe 14 stretches out when being displaced to bellows 9 that cushion cap 20 contacts in the outer sleeve); Form the protruding outer shroud 21 of this reducing core pipe can with bellows 9 integral body in the space that the inboard and interior pipe 2 (outer ring surface) integral body of outer sleeve 22 surrounds along reducing core pipe 14 axially with the structure of interior pipe 2 relative displacements;

Described inner tube structure flange 6 and this outer sleeve flange A7 strengthen with bellows that relative respectively contact is provided with lip ring C24 and Sealing D25 between page or leaf plate 8 opposing end faces; Sealing part A10 sectional shape is a rectangle; Sealing part B19 sectional shape is a rectangle.

The T-shaped structural entity in described casting die flange 17 cross sections is sheathed on these reducing core pipe 14 outer ring surfaces and the position between outer sleeve flange B18 and outside adpting flange B15 with the horizontal end of T shape, and the perpendicular end of this casting die flange 17T shape is fastenedly connected with described outer sleeve flange B18 by at least one pair of nut B12, bolt B 3 and spring B 11 (can increase pad or spring between the bolt and nut here and strengthen its better connectivity and sealability); Described casting die flange 17 inner ring surfaces are provided with one (ring-like) groove, and at least one steel ball 27 is positioned at the outer ring surface that this groove and the contact of rolling are lived this reducing core pipe 14, and the cross section of this groove can be rectangle, circular or polygonal structure.

Described Sealing B19 latch closure reducing core pipe 14 outer ring surfaces and respectively contact be positioned at this outer sleeve cushion cap 20 (its outer side surface, cushion cap 20 sectional shapes are rectangle in the outer sleeve, as Fig. 1) and the horizontal end of this casting die flange 17T shape (a side head or title contact termination) between; The cross section of Sealing B19 can be rectangular shape; End portion (contact termination) both sides of the horizontal end contact of this casting die flange 17T shape sealing part B19 are respectively arranged with groove makes the cross section of end portion be T type structure.

This spring A5 is dish formula spring or compression spring, is arranged at the outside (towards the side of outside adpting flange A1 one side) of inner tube structure flange 6; This spring B 11 is dish formula spring or compression spring, is arranged at the outside (towards the side of outside adpting flange B15 one side) of casting die flange 17.

Stick on the described reducing core pipe 14 inner and outer rings surfaces corrosion resistant clad A16 is set; Stick on the ring surface in the pipe 2 in described corrosion resistant clad C26 is set; Stick on the ring surface in the described outer sleeve 22 corrosion resistant clad B23 is set.

Stick on this inner tube structure flange 6 and this outer sleeve flange A7 opposing end faces corrosion resistant clad C26 is set; Stick on this outer sleeve flange A7 and this inner tube structure flange 6 opposing end faces corrosion resistant clad B23 is set.

Protruding outer shroud 21 surface adhesions of this reducing core pipe are provided with corrosion resistant clad A16; Should corrosion resistant clad C26 be set interior pipe 2 surface adhesions; Extend to stick on the adpting flange B15 end face of this outside corrosion resistant clad A16 is set; Extend to stick on the adpting flange A1 end face of this outside corrosion resistant clad C26 is set.

This corrosion resistant clad A16, corrosion resistant clad B23 and corrosion resistant clad C26 are the glass fibre reinforced plastics polyester, teflon, butyronitrile rubber or spraying, are coated with the corrosion resistant clad of rinsing anticorrosive material.

This outside adpting flange B15, reducing core pipe 14, the protruding outer shroud 21 of reducing core pipe can with bellows 9 integral body in the inboard of outer sleeve 22 and space that interior pipe 2 (outer ring surface) integral body surrounds along reducing core pipe 14 axially and the distances of interior pipe 2 relative displacements be 100 millimeters～450 millimeters.

Should interior pipe 2 entire length be 400 millimeters～1200 millimeters, these reducing core pipe 14 entire length be 400 millimeters～600 millimeters; Should interior pipe 2 diameters be 100 millimeters～3000 millimeters, these reducing core pipe 14 diameters be 100 millimeters～3000 millimeters.

The technical solution of the utility model because outer sleeve 22 and interior pipe 2 can be connected by one processing or welding or screw thread socket mode, finally is structure as a whole outer sleeve flange A7, outer sleeve 22 and outer sleeve flange B18 when implementing; Outside adpting flange A1, inner tube structure flange 6 and interior pipe 2 finally are structure as a whole; Reducing core pipe 14, the protruding outer shroud 21 of reducing core pipe, outside adpting flange B15 finally are structure as a whole;

The first step: earlier straight being inserted in of outer sleeve 22 released always on reducing core pipe 14 that cushion cap 20 props up the protruding outer shroud 21 stepped shaft outer walls of reducing core pipe in outer sleeve;

Sealing B19 is buckled into space cushion cap 20 in the contact outer sleeve between reducing core pipe 14 and the outer sleeve 22 from outer sleeve flange B18 one side.

Casting die flange 17 is put reducing core pipe 14 make its binder end, promptly the horizontal end of T shape termination contact lives in Sealing B19.Pass the end face through hole of outer sleeve flange B18 and casting die flange 17 successively with bolt B 13, fixing by shimming or spring B 11 usefulness nuts 12, by equally distributed described bolt and nut outer sleeve flange B18 and casting die flange 17 are fixed as one like this.

Outside adpting flange B15 is put reducing core pipe 14 terminations, can or be welded to connect by spiral outside adpting flange B15 and reducing core pipe 14 are fixed in the termination.

Second step: the circular groove of the protruding outer shroud 21 of reducing core pipe is embedded in Sealing A10;

Bellows 9 is enclosed within interior pipe 2 external parts makes bellows strengthen the boss place of page or leaf plate 8 contacts at inner tube structure flange 6;

Interior pipe 2 integral body are passed in the protruding outer shroud 21 straight reeve reducing core pipes 14 of reducing core pipe, strengthen the part contact that leans out of page or leaf plate 8 until bellows and only live in outer sleeve flange A7, pipe 2 and reducing core pipe 14 coaxial whole butt joints in forming;

With the end face through hole of screw bolt passes outer sleeve flange A7 and inner tube structure flange 6, fix with nut by shimming or spring, by equally distributed described bolt and nut inner tube structure flange 6 and outer sleeve flange A7 are fixed as one like this.

Carry out the metal exsertion part at last in interior corrosion resistant clad work; (comprising that jewel cloth twines or sprays, is coated with and rinses anticorrosive material).

This structure can make the protruding outer shroud of reducing core pipe and bellows be limited in the space that is surrounded by outer tube and inner tube and axially move, strengthened the scope of expansion bend integrated moving, the axial thrust that the bigger displacement that simultaneous adaptation alleviation pipeline brings owing to expanding with heat and contract with cold produces; Have corrosion-resistantly, sealing is reliable, and coefficient of friction, torque are little, and pressure-bearing is strong, and no pressure loses, and MEDIA FLOW is not to limited and deal with larger axis to thrust, function admirable, the characteristics that conduit running is safe and reliable.

Claims (10)

1. the corrosion-resistant expansion bend of novel pipeline comprises: outside adpting flange A (1), interior pipe (2), bolt A (3), nut A (4), spring A (5), inner tube structure flange (6), outer sleeve flange A (7), bellows is strengthened page or leaf plate (8), bellows (9), Sealing A (10), spring B (11), nut B (12), bolt B (13), reducing core pipe (14), outside adpting flange B (15), corrosion resistant clad A (16), casting die flange (17), outer sleeve flange B (18), Sealing B (19), cushion cap (20) in the outer sleeve, the protruding outer shroud of reducing core pipe (21), outer sleeve (22), corrosion resistant clad B (23), Sealing C (24), Sealing D (25), corrosion resistant clad C (26) forms with steel ball (27); It is characterized in that:

The structure that the whole one-tenth of described reducing core pipe (14) stepped shaft is wealthy mouthful, one end is fastenedly connected along outer shroud outside adpting flange B (15) is set, the extension of the other end one is provided with the protruding outer shroud of reducing core pipe (21), and this protruding outer shroud of reducing core pipe (21) cross section is the bathtub construction of opening towards interior pipe (2) axle center;

Pipe (2) integral body is straight tube structure in described, and an end is wholely set outside adpting flange A (1) along outer shroud, and pipe (2) outer shroud one is convexly equipped with and puts the inner tube structure flange (6) that root is provided with a boss in this; Should whole straight the penetrating in this protruding outer shroud of reducing core pipe (21) and of interior pipe (2) cooperate with the overlapping slidably overlap joint of the inwall of reducing core pipe (14); Pipe (2) closes this protruding outer shroud of reducing core pipe (21) notch in described, makes and forms a ring-type hollow space between the two; Sealing part A (10) is arranged at described ring-type hollow space inwall interior and this protruding outer shroud of reducing core pipe (21) of contact respectively and is somebody's turn to do the outer wall of interior pipe (2);

The outer shroud of pipe (2) is arranged with an end and is fastenedly connected with the bellows (9) that bellows is strengthened page or leaf plate (8) in described, these bellows (9) one ends are strengthened page boss of plate (8) contact inner tube structure flange (6) by the bellows that is fastenedly connected, and the other end contact is fixed on the termination of the protruding outer shroud of reducing core pipe (21);

The whole telescopic end that is set in this reducing core pipe (14) outer shroud of described outer sleeve (22), the end ring that stretches out of this outer sleeve (22) is enclosed within the outer surface of this bellows (9) and is wholely set outer sleeve flange A (7) in the end along outer shroud, this outer sleeve flange A (7) is by being evenly distributed at least one pair of bolt A (3) of its end face, and cooperation and the described inner tube structure flange (6) of nut A (4) and spring A (5) are fastenedly connected; The non-port that stretches out an end of this outer sleeve (22) is wholely set outer sleeve flange B (18) along outer shroud; The inner ring surface one of this outer sleeve (22) is convexly equipped with puts cushion cap (20) in the ring-type outer sleeve, and cushion cap (20) is positioned at and also detains the outer wall that props up this reducing core pipe protruding outer shroud (21) bathtub construction and reducing core pipe (14) joint between outer sleeve flange A (7) and the outer sleeve flange B (18) in this outer sleeve; Form the structure that this protruding outer shroud of reducing core pipe (21) can be whole relatively moves along the axial compression bellows (9) of interior pipe (2) in the space that outer sleeve (22) and interior pipe (2) surround;

It is circular plate structure that described bellows is strengthened page or leaf plate (8), and the page or leaf plate that leans out part is positioned between inner tube structure flange (6) and the outer sleeve flange A (7); This bellows is strengthened page or leaf plate (8) and is leant out part page or leaf plate both sides end face Sealing C (24) and Sealing D (25) with outer sleeve flange A (7) and inner tube structure flange (6) contact are set respectively;

The T-shaped structural entity in described casting die flange (17) cross section is sheathed on this reducing core pipe (14) outer ring surface with the horizontal end of T shape and is positioned between outer sleeve flange B (18) and the outside adpting flange B (15), and the perpendicular end of this casting die flange (17) T shape is fastenedly connected with described outer sleeve flange B (18) by at least one pair of nut B (12), bolt B (13) and spring B (11);

Described casting die flange (17) inner ring surface is provided with a groove, and at least one steel ball (27) is positioned at the outer ring surface that this groove and the contact of rolling are lived this reducing core pipe (14);

Described Sealing B (19) latch closure reducing core pipe (14) outer ring surface and respectively contact be positioned between this outer sleeve cushion cap (20) and the horizontal end of this casting die flange (17) T shape;

Stick on described reducing core pipe (14) the inner and outer rings surface corrosion resistant clad A (16) is set; Stick on pipe (2) interior ring surface in described corrosion resistant clad C (26) is set; Stick on the interior ring surface of described outer sleeve (22) corrosion resistant clad B (23) is set.

2. the corrosion-resistant expansion bend of novel pipeline as claimed in claim 1 is characterized in that sealing part A (10) sectional shape is a rectangle; Sealing part B (19) sectional shape is a rectangle.

3. the corrosion-resistant expansion bend of novel pipeline as claimed in claim 1, the end portion both sides that it is characterized in that this casting die flange (17) T shape horizontal end contact sealing part B (19) are respectively arranged with groove makes the cross section of end portion be T type structure.

4. the corrosion-resistant expansion bend of novel pipeline as claimed in claim 1 is characterized in that cushion cap (20) sectional shape is a rectangle in this outer sleeve.

5. the corrosion-resistant expansion bend of novel pipeline as claimed in claim 1 is characterized in that sticking on this inner tube structure flange (6) and this outer sleeve flange A (7) opposing end faces corrosion resistant clad C (26) is set; Stick on this outer sleeve flange A (7) and this inner tube structure flange (6) opposing end faces corrosion resistant clad B (23) is set.

6. the corrosion-resistant expansion bend of novel pipeline as claimed in claim 1 is characterized in that this protruding outer shroud of reducing core pipe (21) surface adhesion is provided with corrosion resistant clad A (16); Should in pipe (2) outer surface stick corrosion resistant clad C (26) be set; Extend to stick on this outside adpting flange B (15) end face corrosion resistant clad A (16) is set; Extend to stick on this outside adpting flange A (1) end face corrosion resistant clad C (26) is set.

7. the corrosion-resistant expansion bend of novel pipeline as claimed in claim 1 is characterized in that this spring A (5) is dish formula spring or compression spring, is arranged at the outside of inner tube structure flange (6); This spring B (11) is dish formula spring or compression spring, is arranged at the outside of casting die flange (17).

8. the corrosion-resistant expansion bend of novel pipeline as claimed in claim 1, it is characterized in that this corrosion resistant clad A (16), corrosion resistant clad B (23) and corrosion resistant clad C (26) are the glass fibre reinforced plastics polyester, teflon or spraying, be coated with the corrosion resistant clad of rinsing anticorrosive material.

9. the corrosion-resistant expansion bend of novel pipeline as claimed in claim 1, it is characterized in that this protruding outer shroud of reducing core pipe (21) can be whole outer sleeve (22) stretch out in an end and the space that interior pipe (2) integral body surrounds along reducing core pipe (14) axially with the relative telescopic displacement of bellows (9) apart from being 100 millimeters～450 millimeters.

10. the corrosion-resistant expansion bend of novel pipeline as claimed in claim 1 is characterized in that this reducing core pipe (14) entire length is 400 millimeters～600 millimeters, and pipe (2) entire length is 400 millimeters～1200 millimeters in this; This reducing core pipe (14) diameter is 100 millimeters～3000 millimeters, and pipe (2) diameter is 100 millimeters～3000 millimeters in this.

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