CN209705519U - A kind of pressure self-balancing type expansion joint - Google Patents

Abstract

The utility model discloses a kind of pressure self-balancing type expansion joints, comprising: vertical plate component I, vertical plate component II, expansion joint ontology, ratio link assembly, stress pull rod I, stress pull rod II and pressure equalization module；Vertical plate component I and vertical plate component II are separately positioned on the left and right sides of expansion joint ontology；Ratio link assembly is welded and fixed by vertical plate component I and vertical plate component II；Vertical plate component I, stress pull rod I, pressure equalization module, stress pull rod II and vertical plate component II are sequentially connected.The utility model balances the pressure thrust of bellows generation by peripheral hardware pressure equalization module, reduces the outer dimension and length of bellows.

Description

A kind of pressure self-balancing type expansion joint

Technical field

The utility model belongs to pipe technology field more particularly to a kind of pressure self-balancing type expansion joint.

Background technique

When expansion joint is set in medium delivery pipe road, in order to absorb displacement and balance the internal pressure thrust of bellows, generally Restricted type expansion joint is selected, generally selects straight pipe pressure-balancing type expansion joint when absorbing axial, a small amount of lateral displacement.

Straight pipe pressure-balancing type expansion joint is usually tied by two groups of operating waves, one group of balance wave, pipe nipple, end plate, pull rod etc. Component composition.Wherein, the effective sectional area for balancing bellows is 2 times of effective sectional area for balancing bellows, and work bellows As being with the internal pressure born in balance bellows, expansion joint balances work by the internal pressure thrust that balance bellows generates Make the internal pressure thrust of bellows generation, counterbalance effect is realized, so that expansion joint does not generate pressure thrust to terminal device or nozzle.

As described above, straight pipe pressure-balancing type expansion joint at least need to be by two groups of work bellowss and one group of balance bellows group At, and include associated structural member, so that the length of product is very long, cause not answering in the restricted occasion of installation length With.On the other hand, in order to reach counterbalance effect, the effective sectional area for balancing bellows is the effective sectional area of work bellows 2 times, i.e. the diameter of balance bellows is 1.41 times of work bellows, and balance bellows is bigger than work bellows by 41%, therefore, It is not available in the occasion of the size-constrained system of radially installed yet.

Utility model content

The technology of the utility model solves the problems, such as: overcoming the deficiencies of the prior art and provide a kind of pressure self-balancing type expansion Section is balanced the pressure thrust of bellows generation by peripheral hardware pressure equalization module, reduces the outer dimension and length of bellows Degree.

In order to solve the above-mentioned technical problem, the utility model discloses a kind of pressure self-balancing type expansion joints, comprising: vertical plate Component I, vertical plate component II, expansion joint ontology, ratio link assembly, stress pull rod I, stress pull rod II and pressure equalization module；

Vertical plate component I and vertical plate component II are separately positioned on the left and right sides of expansion joint ontology；

Ratio link assembly is welded and fixed by vertical plate component I and vertical plate component II；

Vertical plate component I, stress pull rod I, pressure equalization module, stress pull rod II and vertical plate component II are sequentially connected.

In above-mentioned pressure self-balancing type expansion joint, further includes: bellows I, bellows II and middle adapter component；

Bellows I is connected with bellows II by middle adapter component；Wherein, bellows I is located at vertical plate component I and centre Between adapter tube component, bellows II is between vertical plate component II and middle adapter component.

In above-mentioned pressure self-balancing type expansion joint, further includes: pipe nipple I, end plate I, ring flat-plate I, pipe nipple II, end plate II With ring flat-plate II；

Pipe nipple I, end plate I and ring flat-plate I and pipe nipple II, end plate II and ring flat-plate II are symmetrical arranged；

Pipe nipple I is welded and fixed by vertical plate component I, and end plate I and ring flat-plate I are respectively perpendicular and are weldingly fixed on pipe nipple I； One end of pipe nipple I is connect with one end of bellows I；

Pipe nipple II is welded and fixed by vertical plate component II, and end plate II and ring flat-plate II are respectively perpendicular and are weldingly fixed on pipe nipple On II；One end of pipe nipple II is connect with one end of bellows II.

In above-mentioned pressure self-balancing type expansion joint, further includes: universal ring assemblies；

Universal ring assemblies are arranged at the axis line position of expansion joint ontology, universal ring assemblies connection middle adapter component with Ratio link assembly passes the weight of middle adapter component by ratio link assembly, vertical plate component I and vertical plate component II respectively It is handed to pipe nipple I and pipe nipple II, to eliminate the self weight of middle adapter component to the influence of crust deformation of bellows I and bellows II.

In above-mentioned pressure self-balancing type expansion joint, further includes: ring flat-plate III and ring flat-plate IV；

Ring flat-plate III and ring flat-plate IV are symmetricly set on the both ends of middle adapter component, solid with middle adapter component vertical welding It is fixed.

In above-mentioned pressure self-balancing type expansion joint, pressure equalization module, comprising: shell adjusts component, is main spring, auxiliary Help spring assembly I, secondary spring component II, guide draw bar I, guide draw bar II and limiting plate；

Adjust component, secondary spring component I and the setting of secondary spring component II inside housings；Wherein, component is adjusted to set It sets at axis line position inside housings, secondary spring component I and secondary spring component II are symmetrical arranged；

One end of main spring is connect with component is adjusted, and the other end is limited by limiting plate；

Guide draw bar I and guide draw bar II are symmetrical arranged；Wherein, one end of guide draw bar I is vertical with limiting plate connect, The connection of the bottom of the other end and shell；One end of guide draw bar II is vertical with limiting plate to be connect, the bottom of the other end and shell Connection.

In above-mentioned pressure self-balancing type expansion joint, secondary spring component I, comprising: cam I, power transmission pull rod I and auxiliary bullet Spring I；Secondary spring component II, comprising: cam II, power transmission pull rod II and secondary spring II；

Secondary spring I and secondary spring II are symmetricly set on the medial surface of shell；

Secondary spring I is connect by power transmission pull rod I with cam I；

Secondary spring II is connect by power transmission pull rod II with cam II；

Cam I and cam II are in contact with the lower surface for adjusting component respectively.

In above-mentioned pressure self-balancing type expansion joint, pressure equalization module, further includes: upper connection structure and lower connection machine Structure；

Pressure equalization module is connected with stress pull rod I and stress pull rod II respectively by upper connection structure and lower bindiny mechanism It connects.

The utility model has the advantage that

The utility model discloses a kind of pressure self-balancing type expansion joints, balance ripple by peripheral hardware pressure equalization module The pressure thrust that pipe generates, reduces the outer dimension and length of bellows；Pressure equalization module not with media contact, stress It can be influenced according to practical adjustment, and not by high temperature and internal pipeline complex dielectrics.The power of peripheral hardware pressure equalization module It can be arranged and be sized according to actual displacement direction with direction of displacement, to achieve the purpose that balance bellows internal pressure thrust. Pressure equalization module uses constant force spring structure, adjustable internal load value and displacement and direction.

Detailed description of the invention

Fig. 1 is a kind of structural schematic diagram of pressure self-balancing type expansion joint in the utility model embodiment；

Fig. 2 is a kind of structural schematic diagram of pressure equalization module in the utility model embodiment.

Specific embodiment

It is practical new to this below in conjunction with attached drawing to keep the purpose of this utility model, technical solution and advantage clearer Type disclosed embodiment is described in further detail.

The utility model discloses a kind of pressure self-balancing type expansion joints, by vertical plate component, ratio link assembly and pressure The components such as balanced component composition, to absorb axial direction and lateral displacement, balances the pressure thrust of bellows, meanwhile, reduce ripple The outer dimension and length of pipe.

Such as Fig. 1~2, in the present embodiment, the pressure self-balancing type expansion joint, comprising: vertical plate component I 1, vertical plate component II 2, expansion joint ontology 3, ratio link assembly 4, stress pull rod I 5, stress pull rod II 6 and pressure equalization module 7.

Such as Fig. 1, vertical plate component I 1 and vertical plate component II 2 are separately positioned on the left and right sides of expansion joint ontology 3；Ratio connecting rod Component 4 is welded and fixed by vertical plate component I 1 and vertical plate component II 2；Vertical plate component I 1, stress pull rod I 5, pressure equalization module 7, Stress pull rod II 6 and vertical plate component II 2 are sequentially connected.

In a preferred embodiment of the utility model, the pressure self-balancing type expansion joint can also include: bellows I 8, Bellows II 9 and middle adapter component 10.

Such as Fig. 1, bellows I 8 and bellows II 9 are connected by middle adapter component 10.Wherein, bellows I 8 is located at vertical plate Between component I 1 and middle adapter component 10, bellows II 9 is between vertical plate component II 2 and middle adapter component 10.

In a preferred embodiment of the utility model, which can also include: pipe nipple I 11, end plate I 12, ring flat-plate I 13, pipe nipple II 14, end plate II 15 and ring flat-plate II 16.Wherein, it should be noted that expansion joint ontology 3 are made of pipe nipple I 11, II 14 bellows I 8 of pipe nipple, bellows II 9 and middle adapter component 10.

Such as Fig. 1, pipe nipple I 11, end plate I 12 and ring flat-plate I 13 are symmetrically set with pipe nipple II 14, end plate II 15 and ring flat-plate II 16 It sets；Pipe nipple I 11 is welded and fixed by vertical plate component I 1, and end plate I 12 and ring flat-plate I 13 are respectively perpendicular and are weldingly fixed on pipe nipple I On 11；One end of pipe nipple I 11 is connect with one end of bellows I 8；Pipe nipple II 14 is welded and fixed by vertical plate component II 2, is held Plate II 15 and ring flat-plate II 16, which are respectively perpendicular, to be weldingly fixed on pipe nipple II 14；One end of pipe nipple II 14 and bellows II 9 One end connection.

In a preferred embodiment of the utility model, which can also include: cardo ring group Part 17.

Such as Fig. 1, universal ring assemblies 17 are arranged at the axis line position of expansion joint ontology, and universal ring assemblies 17 connect centre The weight of middle adapter component 10 is passed through ratio link assembly 4, vertical plate component I 1 by adapter tube component 10 and ratio link assembly 4 It is transferred to pipe nipple I 11 and pipe nipple II 14 respectively with vertical plate component II 2, to eliminate the self weight of middle adapter component 10 to bellows I 8 and bellows II 9 influence of crust deformation.

In a preferred embodiment of the utility model, which can also include: ring flat-plate III 18 With ring flat-plate IV 19.

Such as Fig. 1, ring flat-plate III 18 and ring flat-plate IV 19 are symmetricly set on the both ends of middle adapter component 10, with middle adapter component 10 vertical weldings are fixed.

In a preferred embodiment of the utility model, pressure equalization module 7 be can specifically include: shell 701, adjusting group Part 702, main spring 703, secondary spring component I 704, secondary spring component II 705, guide draw bar I 706, guide draw bar II 707 With limiting plate 708.

Such as Fig. 2, adjusts component 702, secondary spring component I 704 and secondary spring component II 705 and be arranged in shell 701 Portion；Wherein, it adjusts component 702 to be arranged at 701 axis line inside position of shell, secondary spring component I 704 and secondary spring group Part II 705 is symmetrical arranged；One end of main spring 703 is connect with component 702 is adjusted, and the other end is limited by limiting plate 708；It leads It is symmetrical arranged to pull rod I 706 and guide draw bar II 707；Wherein, one end of guide draw bar I 706 is vertical with limiting plate 708 connects It connects, the other end is connect with the bottom of shell 701；One end of guide draw bar II 707 is vertical with limiting plate 708 to be connect, the other end It is connect with the bottom of shell 701.

Preferably, secondary spring component I 704, comprising: cam I 7041, power transmission pull rod I 7042 and secondary spring I 7043； Secondary spring component II 705, comprising: cam II 7051, power transmission pull rod II 7052 and secondary spring II 7053.Wherein: auxiliary bullet Spring I 7043 and secondary spring II 7053 are symmetricly set on the medial surface of shell 701；Secondary spring I 7043 passes through power transmission pull rod I 7042 connect with cam I 7041；Secondary spring II 7053 is connect by power transmission pull rod II 7052 with cam II 7051；Cam I 7041 and cam II 7051 respectively with adjust component 702 lower surface be in contact.

Preferably, pressure equalization module 7 can also include: upper connection structure 709 and lower bindiny mechanism 710.Wherein, pressure Balanced component 7 is connect with stress pull rod I 5 and stress pull rod II 6 respectively by upper connection structure 709 and lower bindiny mechanism 710.

Preferably, the working principle of pressure equalization module 7 is as follows: according to the parallelogram law of power, in the work of cam Under, the interaction of the composite force of the spring force of two secondary springs of spring force and left and right of main spring is realized, to be displaced Constant output loads are obtained in the process.

Wherein, it should be noted that the pressure self-balancing type expansion joint can be according to actual displacement using one or more Bigger axially and transversely displacement can be absorbed in bellows when using multiple bellowss.

By taking DN900 expansion joint as an example, according to traditional straight pipe pressure-balancing type expansion joint, maximum outer dimension is 1580mm, product length 1900mm, and pressure self-balancing type expansion joint described in the utility model embodiment is used, it is maximum outer It is 1280mm that shape size, which can reduce, and product length can be reduced to as 900mm.

Various embodiments are described in a progressive manner in this explanation, the highlights of each of the examples are with its The difference of his embodiment, the same or similar parts between the embodiments can be referred to each other.

The optimal specific embodiment of the above, only the utility model, but the protection scope of the utility model is not It is confined to this, anyone skilled in the art within the technical scope disclosed by the utility model, can readily occur in Change or replacement, should be covered within the scope of the utility model.

The content being not described in detail in the utility model specification belongs to the well-known technique of professional and technical personnel in the field.

Claims (8)

1. a kind of pressure self-balancing type expansion joint characterized by comprising vertical plate component I (1), vertical plate component II (2), expansion Abridged edition body (3), ratio link assembly (4), stress pull rod I (5), stress pull rod II (6) and pressure equalization module (7)；

Vertical plate component I (1) and vertical plate component II (2) are separately positioned on the left and right sides of expansion joint ontology (3)；

Ratio link assembly (4) is welded and fixed by vertical plate component I (1) and vertical plate component II (2)；

Vertical plate component I (1), stress pull rod I (5), pressure equalization module (7), stress pull rod II (6) and vertical plate component II (2) according to Secondary connection.

2. pressure self-balancing type expansion joint according to claim 1, which is characterized in that further include: bellows I (8), ripple Pipe II (9) and middle adapter component (10)；

Bellows I (8) and bellows II (9) are connected by middle adapter component (10)；Wherein, bellows I (8) is located at vertical plate group Between part I (1) and middle adapter component (10), bellows II (9) be located at vertical plate component II (2) and middle adapter component (10) it Between.

3. pressure self-balancing type expansion joint according to claim 2, which is characterized in that further include: pipe nipple I (11), end Plate I (12), ring flat-plate I (13), pipe nipple II (14), end plate II (15) and ring flat-plate II (16)；

Pipe nipple I (11), end plate I (12) and ring flat-plate I (13) and pipe nipple II (14), end plate II (15) and ring flat-plate II (16) are symmetrical Setting；

Pipe nipple I (11) is welded and fixed by vertical plate component I (1), and end plate I (12) and ring flat-plate I (13) are respectively perpendicular and are welded and fixed On pipe nipple I (11)；One end of pipe nipple I (11) is connect with one end of bellows I (8)；

Pipe nipple II (14) is welded and fixed by vertical plate component II (2), and end plate II (15) and ring flat-plate II (16) are respectively perpendicular welding It is fixed on pipe nipple II (14)；One end of pipe nipple II (14) is connect with one end of bellows II (9).

4. pressure self-balancing type expansion joint according to claim 2, which is characterized in that further include: universal ring assemblies (17)；

Universal ring assemblies (17) are arranged at the axis line position of expansion joint ontology (3), in universal ring assemblies (17) connection indirectly The weight of middle adapter component (10) is passed through ratio link assembly (4), vertical plate by tube assembly (10) and ratio link assembly (4) Component I (1) and vertical plate component II (2) are transferred to pipe nipple I (11) and pipe nipple II (14) respectively, to eliminate middle adapter component (10) influence of crust deformation being self-possessed to bellows I (8) and bellows II (9).

5. pressure self-balancing type expansion joint according to claim 4, which is characterized in that further include: ring flat-plate III (18) and ring Plate IV (19)；

Ring flat-plate III (18) and ring flat-plate IV (19) are symmetricly set on the both ends of middle adapter component (10), with middle adapter component (10) Vertical welding is fixed.

6. pressure self-balancing type expansion joint according to claim 1, which is characterized in that pressure equalization module (7), comprising: Shell (701) adjusts component (702), main spring (703), secondary spring component I (704), secondary spring component II (705), leads To pull rod I (706), guide draw bar II (707) and limiting plate (708)；

It is internal in shell (701) to adjust component (702), secondary spring component I (704) and secondary spring component II (705) setting； Wherein, it adjusts component (702) to be arranged at shell (701) axis line inside position, secondary spring component I (704) and auxiliary bullet Spring component II (705) is symmetrical arranged；

One end of main spring (703) is connect with component (702) are adjusted, and the other end is limited by limiting plate (708)；

Guide draw bar I (706) and guide draw bar II (707) are symmetrical arranged；Wherein, one end of guide draw bar I (706) and limit bottom Seat (708) vertically connects, and the other end is connect with the bottom of shell (701)；One end of guide draw bar II (707) and limiting plate (708) vertical connection, the other end are connect with the bottom of shell (701).

7. pressure self-balancing type expansion joint according to claim 6, which is characterized in that secondary spring component I (704), packet It includes: cam I (7041), power transmission pull rod I (7042) and secondary spring I (7043)；Secondary spring component II (705), comprising: cam II (7051), power transmission pull rod II (7052) and secondary spring II (7053)；

Secondary spring I (7043) and secondary spring II (7053) are symmetricly set on the medial surface of shell (701)；

Secondary spring I (7043) is connect by power transmission pull rod I (7042) with cam I (7041)；

Secondary spring II (7053) is connect by power transmission pull rod II (7052) with cam II (7051)；

Cam I (7041) and cam II (7051) are in contact with the lower surface for adjusting component (702) respectively.

8. pressure self-balancing type expansion joint according to claim 6, which is characterized in that pressure equalization module (7) also wraps It includes: upper connection structure (709) and lower bindiny mechanism (710)；

Pressure equalization module (7) by upper connection structure (709) and lower bindiny mechanism (710) respectively with stress pull rod I (5) and by Power pull rod II (6) connection.