CN205723361U - Dislocation type HVDC relay anti-deflection mechanism - Google Patents

Abstract

nullThe utility model discloses a kind of dislocation type HVDC relay anti-deflection mechanism，Including movable contact assembly，Described movable contact assembly includes movable contact spring and is arranged at the movable contact at two ends, movable contact spring left and right，Movable contact spring fixes with catch bar，Catch bar moves up and down and movable contact spring can be driven to move up and down，Catch bar includes epimere and hypomere，The hypomere of catch bar fixes with dynamic iron core，The epimere of catch bar is positioned at more than yoke plate and fixes with movable contact spring，Main spring it is arranged with on catch bar，Described yoke plate is provided with location-plate，It is connected between the left end of described movable contact spring and location-plate and has a left side to return power spring，It is connected between the right-hand member of movable contact spring and location-plate and has the right side to return power spring，The junction point of power spring and movable contact spring is returned on a described left side and the right side is returned the junction point of power spring and movable contact spring and laid respectively at before and after movable contact spring not homonymy，Power spring is returned on a left side and the right side is returned power spring and constituted by several monomers.

Description

Dislocation type HVDC relay anti-deflection mechanism

Technical field

This utility model relates to a kind of HVDC relay, is specifically related to a kind of dislocation type HVDC relay anti-deflection mechanism of movable contact spring deflection in preventing HVDC relay.

Background technology

In HVDC relay, dynamic iron core can drive catch bar to move up and down, so that the movable contact being fixed on the movable contact spring of catch bar upper end contacts with stationary contact or separates.In prior art, only at axial direction, there is guiding as the catch bar connecting dynamic iron core and movable contact spring, and it is the most spacing on catch bar circumferencial direction, therefore, catch bar rotation during moving up and down it may happen that on circumferencial direction, thus cause the deflection on the movable contact spring occurred level direction fixing with catch bar, in turn result in movable contact and can not accurately be directed at stationary contact, have impact on the reliability of relay.

Summary of the invention

The purpose of this utility model is to provide one and can avoid movable contact spring horizontal deflection, can guarantee that relay sound contact precisely contacts, and can improve the dislocation type HVDC relay anti-deflection mechanism of relay reliability.

nullFor achieving the above object，This utility model adopts the following technical scheme that a kind of dislocation type HVDC relay anti-deflection mechanism，Including movable contact assembly，Described movable contact assembly includes movable contact spring and is arranged at the movable contact at two ends, movable contact spring left and right，Movable contact spring fixes with catch bar，Catch bar moves up and down and movable contact spring can be driven to move up and down，Catch bar includes epimere and hypomere，The hypomere of catch bar fixes with dynamic iron core，The epimere of catch bar is positioned at more than yoke plate and fixes with movable contact spring，Main spring it is arranged with on catch bar，Described yoke plate is provided with location-plate，It is connected between the left end of described movable contact spring and location-plate and has a left side to return power spring，It is connected between the right-hand member of movable contact spring and location-plate and has the right side to return power spring，The junction point of power spring and movable contact spring is returned on a described left side and the right side is returned the junction point of power spring and movable contact spring and laid respectively at before and after movable contact spring not homonymy，Power spring is returned on a left side and the right side is returned power spring and constituted by several monomers.

This utility model is respectively provided with a left side returns power spring and power spring is returned on the right side by being provided with the two ends, left and right of movable contact at movable contact spring, on the one hand the disjunction power of sound contact can be provided, return power spring due to a left side and to return power spring be to act directly on movable contact spring on the right side, therefore needing can make when separating movable contact and stationary contact sharp separation in sound contact, relay response is rapidly；Additionally, act on location-plate owing to movable contact spring two ends are tightened up respectively, therefore, power spring is returned on a left side and the right power spring that returns has an active force stoping movable contact spring to horizontally rotate all the time, thus ensure the accurate alignment of movable contact and stationary contact, ensure that sound contact can contact the most accurately, it is to avoid movable contact spring contacts the generation of causing trouble with other parts.Wherein, location-plate is made up of isolation material, such as plastic material.Power spring is returned on a left side and the right side is returned power spring and constituted by several monomers, and such as one left side is returned power spring monomer and coordinated two right sides to return power spring monomer, is arranged as required to a left side and returns power spring and the right quantity returning power spring.Wherein, a left side is returned the junction point of power spring and movable contact spring and the right side is returned the junction point of power spring and movable contact spring and is separately positioned on both sides before and after movable contact spring and can further improve a left side and return power spring and the power spring anti-deflection active force to movable contact spring is returned on the right side.

As preferably; the described location-plate left end lower position corresponding to movable contact spring and the right-hand member lower position corresponding to movable contact spring are respectively formed with a upwardly extending spring dead plate; it is formed with spring lower fixed hole on described spring dead plate, the inwall of described spring lower fixed hole is collocated with guard circle.Wherein, guard circle can be that iron ring etc. has the material of certain rigidity and makes, to avoid a left side return power spring and right return power spring and broken by the spring dead plate of location-plate, to ensure the reliability of relay of the present utility model.

As preferably, the axis of power spring is returned on a described left side and to return the axis of power spring all parallel with the axis of catch bar on the right side, and power spring and the junction point of movable contact spring are returned in a left side and the right side is returned the junction point of power spring and movable contact spring and is respectively positioned on the position between two movable contacts the inner side near movable contact.The axis of power spring is returned on a left side and all parallel with the axis of the catch bar stability that can further improve movable contact spring horizontal direction of axis of power spring is returned on the right side.

As preferably, described movable contact spring is respectively arranged at two ends with fixing hole on a spring, described spring dead plate includes left spring fixed plate and right spring dead plate, a spring lower fixed hole it is formed with in described left spring fixed plate, being formed with a spring lower fixed hole on described right spring dead plate, power spring is returned on a left side and the right quantity returning power spring is one.

As preferably, power spring is returned on a described left side and the right side is returned power spring and is S-shaped stretching spring.

As preferably, on described spring, fixing hole is longitudinally through described movable contact spring.

As preferably, described spring lower fixed hole extends transversely through described spring dead plate.

As preferably, described left spring fixed plate and right spring dead plate all include first and second so that the cross section of described left spring fixed plate and right spring dead plate is T-shaped, described spring lower fixed hole is arranged on first, first of first of described left spring fixed plate and described right spring dead plate be arranged in parallel, and second of second of described left spring fixed plate and described right spring dead plate be arranged in parallel.Above-mentioned setting can the intensity of reinforcement spring fixed plate, it is to avoid is broken by spring.

As preferably, described yoke plate is provided with metal magnetic conducting folder and the insulation board enclosing structure, described yoke plate and insulation board are fixed by securing member thus are limited between yoke plate and insulation board by metal magnetic conducting folder, described insulation board, metal magnetic conducting folder and yoke plate three form receiving stationary contact assembly and the chamber of movable contact assembly, stationary contact assembly includes exit and the stationary contact being fixed on exit, exit fixes with insulation board, metal magnetic conducting folder lower end offsets with location-plate, and yoke plate upper surface offsets with location-plate.Location-plate is fixed by above-mentioned being provided for, and location-plate is clamped between metal magnetic conducting folder and yoke plate.

As preferably, described location-plate has upwardly extended posting, and it is peripheral that described metal magnetic conducting chuck is located at posting.The setting of posting can ensure that metal magnetic conducting folder horizontal direction does not deflects, it is simple to the assembling of metal magnetic conducting folder.

This utility model has can avoid movable contact spring horizontal deflection, can guarantee that relay sound contact precisely contacts, and can improve the advantages such as relay reliability.

Accompanying drawing explanation

Fig. 1 is the first structural representation of the present utility model；

Fig. 2 is the second structural representation of the present utility model；

Fig. 3 is the third structural representation of the present utility model；

Fig. 4 is a kind of sectional view of Fig. 3；

Fig. 5 is a kind of top view of Fig. 3；

Detailed description of the invention

Shown in Fig. 1, Fig. 2, Fig. 3, Fig. 4, Fig. 5, a kind of dislocation type HVDC relay anti-deflection mechanism of the present utility model, including movable contact assembly, movable contact assembly includes movable contact spring 1 and is arranged at the movable contact at movable contact spring about 1 two ends, movable contact spring 1 fixes with catch bar 3, catch bar 3 moves up and down and movable contact spring 1 can be driven to move up and down, catch bar 3 includes epimere and hypomere, the hypomere of catch bar 3 fixes with dynamic iron core 2, the epimere of catch bar 3 is positioned at yoke plate more than 4 and fixes with movable contact spring 1, and catch bar 3 is arranged with main spring 5.Yoke plate 4 is provided with the location-plate 6 of ambroin material, it is connected between the left end of movable contact spring 1 with location-plate 6 and has a left side to return power spring 13, being connected between the right-hand member of movable contact spring 1 with location-plate 6 and have a right side to return power spring 14, power spring 13 is returned on a left side and the right side is returned power spring 14 and is S-shaped stretching spring.The epimere of the catch bar 3 being positioned at yoke plate more than 5 is formed with outwardly boss 21, and main spring 5 lower end offsets with boss 21, and main spring 5 upper end offsets with movable contact spring 1.

The axis of power spring 13 is returned on a left side and to return the axis of power spring 14 all parallel with the axis of catch bar 3 on the right side, and power spring 13 and the junction point of movable contact spring 1 are returned in a left side and the right side is returned the junction point of power spring 14 and movable contact spring 1 and is respectively positioned on the position between two movable contacts the inner side near movable contact.

The left end of movable contact spring is provided with fixing hole 11 on a spring, and the right-hand member of movable contact spring is provided with fixing hole 11 on a spring, and a left side is returned the upper end of power spring 13 and is positioned at fixing hole on the spring of left end, and the right side is returned the upper end of power spring 14 and is positioned at fixing hole on the spring of right-hand member.Movable contact includes left movable contact 15 and right movable contact 16, and on the spring of movable contact spring left end, fixing hole 11 is positioned at inside left movable contact 15, and on the spring of movable contact spring right-hand member, fixing hole 11 is positioned at inside right movable contact 16.

The location-plate 6 left end lower position corresponding to movable contact spring 1 and the right-hand member lower position corresponding to movable contact spring are respectively formed with a upwardly extending spring dead plate; spring lower fixed hole 12 it is formed with on spring dead plate; being collocated with guard circle on the inwall of spring lower fixed hole 12, guard circle is iron ring.Spring dead plate includes the left spring fixed plate 17 being positioned at left side and is positioned at the right spring dead plate 18 on right side, and left spring fixed plate 17 and right spring dead plate 18 are each formed with a spring lower fixed hole 12.

The junction point of power spring 13 and movable contact spring 1 is returned on a left side and the right side is returned the junction point of power spring 14 and movable contact spring 1 and laid respectively at before and after movable contact spring 1 not homonymy, fixed hole position is returned on the spring of power spring 13 on front side of movable contact spring in a left side, and fixed hole position is returned on the spring of power spring 14 on rear side of movable contact spring in the right side.The T-shaped setting in cross section of left spring fixed plate 17 and right spring dead plate 18, left spring fixed plate and right spring dead plate all include first and second, so that it is T-shaped with the cross section of right spring dead plate, spring lower fixed hole is arranged on first, first of left spring fixed plate be arranged in parallel with first of right spring dead plate, and second of second of left spring fixed plate and described right spring dead plate be arranged in parallel.

Metal magnetic conducting folder 7 and the insulation board 8 of ceramic material enclosing structure it is provided with on the upside of yoke plate 4, yoke plate 4 and insulation board 8 are fixed by securing member thus are limited between yoke plate 4 and insulation board 8 by metal magnetic conducting folder 7, insulation board 8, metal magnetic conducting folder 7 and yoke plate 4 three form receiving stationary contact assembly and the chamber of movable contact assembly, stationary contact assembly includes exit 10 and the stationary contact 9 being fixed on exit, exit 10 and insulation board 8 soldering or be screwed, metal magnetic conducting presss from both sides 7 lower ends and offsets with location-plate 6, yoke plate 4 upper surface offsets with location-plate 6, location-plate 6 is clamped between metal magnetic conducting folder 7 and yoke plate 4.Location-plate 6 has upwardly extended posting 22, and it is peripheral to ensure that metal magnetic conducting folder horizontal direction does not deflects that metal magnetic conducting folder 7 is set in posting.

Insulation board 8 and yoke plate 4 are all square structure, are each formed with first fixing hole at the corner of insulation board 8, and the corner of yoke plate 4 is each formed with second fixing hole 20, is formed with the breach of stepping down to the second fixing hole 20 at location-plate 6 four jiaos.Securing member is bolt 19, a bolt 19 all it is collocated with in each first fixing hole, the position of the first fixing hole and the position one_to_one corresponding of the second fixing hole, bolt 19 is screwed with the second fixing hole after the first fixing hole, so that bolt 19 lower end and yoke plate are fixed, the head of bolt 19 compresses insulation board 8.

This utility model is in HVDC relay, and this utility model has can avoid movable contact spring horizontal deflection, can guarantee that relay sound contact precisely contacts, and can improve the advantages such as relay reliability.

Claims (10)

1. null1. a dislocation type HVDC relay anti-deflection mechanism，It is characterized in that including movable contact assembly，Described movable contact assembly includes movable contact spring and is arranged at the movable contact at two ends, movable contact spring left and right，Movable contact spring fixes with catch bar，Catch bar moves up and down and movable contact spring can be driven to move up and down，Catch bar includes epimere and hypomere，The hypomere of catch bar fixes with dynamic iron core，The epimere of catch bar is positioned at more than yoke plate and fixes with movable contact spring，Main spring it is arranged with on catch bar，Described yoke plate is provided with location-plate，It is connected between the left end of described movable contact spring and location-plate and has a left side to return power spring，It is connected between the right-hand member of movable contact spring and location-plate and has the right side to return power spring，The junction point of power spring and movable contact spring is returned on a described left side and the right side is returned the junction point of power spring and movable contact spring and laid respectively at before and after movable contact spring not homonymy，Power spring is returned on a left side and the right side is returned power spring and constituted by several monomers.
2. Dislocation type HVDC relay anti-deflection mechanism the most according to claim 1; it is characterized in that the described location-plate left end lower position corresponding to movable contact spring and the right-hand member lower position corresponding to movable contact spring are respectively formed with a upwardly extending spring dead plate; it is formed with spring lower fixed hole on described spring dead plate, the inwall of described spring lower fixed hole is collocated with guard circle.
3. Dislocation type HVDC relay anti-deflection mechanism the most according to claim 2, it is characterized in that the axis of power spring is returned on a described left side and to return the axis of power spring all parallel with the axis of catch bar on the right side, power spring and the junction point of movable contact spring are returned in a left side and the right side is returned the junction point of power spring and movable contact spring and is respectively positioned on the position between two movable contacts the inner side near movable contact.
4. Dislocation type HVDC relay anti-deflection mechanism the most according to claim 3, it is characterized in that described movable contact spring is respectively arranged at two ends with fixing hole on a spring, described spring dead plate includes left spring fixed plate and right spring dead plate, a spring lower fixed hole it is formed with in described left spring fixed plate, being formed with a spring lower fixed hole on described right spring dead plate, power spring is returned on a left side and the right quantity returning power spring is one.
5. Dislocation type HVDC relay anti-deflection mechanism the most according to claim 1, it is characterised in that power spring is returned on a described left side and the right side is returned power spring and is S-shaped stretching spring.
6. Dislocation type HVDC relay anti-deflection mechanism the most according to claim 4, it is characterised in that on described spring, fixing hole is longitudinally through described movable contact spring.
7. Dislocation type HVDC relay anti-deflection mechanism the most according to claim 4, it is characterised in that described spring lower fixed hole extends transversely through described spring dead plate.
8. Dislocation type HVDC relay anti-deflection mechanism the most according to claim 4, it is characterized in that described left spring fixed plate and right spring dead plate all include first and second so that the cross section of described left spring fixed plate and right spring dead plate is T-shaped, described spring lower fixed hole is arranged on first, first of first of described left spring fixed plate and described right spring dead plate be arranged in parallel, and second of second of described left spring fixed plate and described right spring dead plate be arranged in parallel.
9. Dislocation type HVDC relay anti-deflection mechanism the most according to claim 1, it is characterized in that described yoke plate is provided with metal magnetic conducting folder and the insulation board enclosing structure, described yoke plate and insulation board are fixed by securing member thus are limited between yoke plate and insulation board by metal magnetic conducting folder, described insulation board, metal magnetic conducting folder and yoke plate three form receiving stationary contact assembly and the chamber of movable contact assembly, stationary contact assembly includes exit and the stationary contact being fixed on exit, exit fixes with insulation board, metal magnetic conducting folder lower end offsets with location-plate, yoke plate upper surface offsets with location-plate.
10. Dislocation type HVDC relay anti-deflection mechanism the most according to claim 9, it is characterised in that described location-plate has upwardly extended posting, it is peripheral that described metal magnetic conducting chuck is located at posting.