CN206236617U - Miniaturization shock resistance clapper type relay - Google Patents
Miniaturization shock resistance clapper type relay Download PDFInfo
- Publication number
- CN206236617U CN206236617U CN201621264437.7U CN201621264437U CN206236617U CN 206236617 U CN206236617 U CN 206236617U CN 201621264437 U CN201621264437 U CN 201621264437U CN 206236617 U CN206236617 U CN 206236617U
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- China
- Prior art keywords
- armature
- yoke
- knife
- shock resistance
- convex
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- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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Abstract
The utility model discloses one kind miniaturization shock resistance clapper type relay, including bobbin, yoke, iron core, dynamic spring and armature, it is the convex luxuriant structure of the tail end cancellation prior art in armature, cancel the gap structure of prior art in the kink of dynamic spring, in the afterbody of armature, near the first convex bud being provided with the cooperation position of the edge of a knife of yoke to bobbin direction protrusion;On the bobbin, block reinforcement is being provided with the position of the edge of a knife of yoke, and the block reinforcement and the yoke termination of yoke knife-edge part is surrounded groove, first convex bud of the armature is fitted in the groove, to utilize the described first convex luxuriant cooperation with the groove, formed to moving spring armature component in the spacing of both direction.The utility model is improved by structure, on the one hand, can reduce the volume of relay, to realize the miniaturization of relay product, on the other hand, it is possible to increase the impact resistance of relay product, and, it is possible to decrease the cost of manufacture of relay product.
Description
Technical field
The utility model is related to relay technical field, more particularly to a kind of miniaturization shock resistance clapper type relay.
Background technology
A kind of clapper type relay of prior art is as shown in figure 1, including yoke 101, iron core 102, bobbin 103, paint
Envelope curve 104, the dynamic part such as spring 105 and armature 106, bobbin 103 and the enamel-covered wire 104 being wrapped on bobbin 103 constitute line
Circle, it after fixed with the riveting of armature 106 while constitute moving spring armature component, the head 1021 of iron core 102 sets after the dynamic bending of spring 105
There is pole-face, iron core 102 is mutually fixed mounted in the through hole of bobbin 103, the tail end of iron core 102 with one side riveting of yoke 101, yoke
The another side of iron 101 is mutually fixed with the another side of dynamic spring 105, so that clapper-type structure is constituted, in this configuration, yoke 101
Another side termination as the edge of a knife 1011, the tail end 1061 of the armature 106 of moving spring armature component is to coordinate the knife in yoke 101
At mouthfuls 1011, when the coil is energized, armature 106 is rotated around its tail end 1061 and is affixed to the pole-face of iron core 102, works as coil blackout
When, the homing in the presence of the elastic force of dynamic spring 105 of armature 106, dynamic spring 105 sets kink 1051 also for making
Spring 105 has elastic force.The clapper type relay of this structure, in order to realize shock resistance, that is, in order to resist along armature
106 tail end 1061 is provided with the convex bud of downward one to the impact in the cephalad direction of armature 106 in the tail end 1061 of armature 106
1062, using the mutual spacing cooperation of the termination of the another side of convex luxuriant 1062 and yoke 101 of the tail end 1061 of armature 106, shape
The resistance of the impact in cephalad direction into the tail end 1061 to armature 106 to armature 106.Due to needing in armature 106
Tail end 1061 makes convex luxuriant 1062, therefore, on the one hand, the increase of the making material of armature 1061 is caused, on the other hand, in addition it is also necessary to
In the middle setting breach 1052 of the kink 1051 of dynamic spring 105, to avoid the convex bud of armature 106 using the breach 1052
1062.Because the intermediate demand for moving the kink 1051 of spring 105 sets breach 1052, in order to ensure certain current-carrying, it is necessary to
The width dimensions of dynamic spring 105 are increased, so that the materials of dynamic spring 105 also increase so that the volume increase of clapper type relay, nothing
Method realizes miniaturization.And, the clapper type relay of this structure, due to needing the centre of the kink 1051 in dynamic spring 105
Breach 1052 is made, it is necessary to the tail end 1061 in armature 106 makes convex luxuriant 1062, it is difficult from the making that increased dynamic spring and armature
Degree.
Utility model content
The purpose of this utility model is the deficiency for overcoming prior art, there is provided one kind miniaturization shock resistance clapper-type relay
Device, is improved, on the one hand, the volume of relay can be reduced, to realize the miniaturization of relay product, the opposing party by structure
Face, it is possible to increase the impact resistance of relay product, and, it is possible to decrease the cost of manufacture of relay product.
The utility model solves the technical scheme that its technical problem used:One kind miniaturization shock resistance clapper-type relay
Device, including bobbin, yoke, iron core, dynamic spring and armature, it with armature while fixing and constituting dynamic spring and hold in the mouth after the dynamic spring bending
Iron part, the bobbin, yoke, iron core and moving spring armature component cooperate according to the mode of clapper-type structure and are assemblied in one
Rise;The moving spring armature component, the convex luxuriant structure of prior art is cancelled in the tail end of armature, cancels existing in the kink of dynamic spring
The gap structure of technology, in the afterbody of armature, is provided with to bobbin direction protrusion near with the cooperation position of the edge of a knife of yoke
The first convex bud;On the bobbin, being provided with block reinforcement at the position of the edge of a knife of yoke, and make the block reinforcement and yoke knife
The yoke termination at mouthful place surrounds groove, and the first convex bud of the armature is fitted in the groove, with using the described first convex bud and
The cooperation of the groove, forms to moving spring armature component in the spacing of both direction.
The block reinforcement is strip, and the block reinforcement is between the edge of a knife of yoke and the pole-face of iron core, and the block reinforcement and yoke
The yoke termination of knife-edge part is in almost parallel.
It is described first it is convex it is luxuriant be provided with preset gap with the block reinforcement, the first convex luxuriant cooperation with the block reinforcement can be with
Form the shock resistance in the cephalad direction of the tail end to armature of armature to moving spring armature component.
The first convex luxuriant yoke termination with the yoke knife-edge part is provided with preset gap, the first convex bud and institute
State the cooperation of the yoke termination of yoke knife-edge part can be formed to moving spring armature component armature tail end side from head to armature
Upward shock resistance.
The first convex bud is two.
Compared with prior art, the beneficial effects of the utility model are:
1st, the utility model is as a result of the afterbody in armature, near with the cooperation position of the edge of a knife of yoke be provided with to
First convex bud of bobbin direction protrusion;On the bobbin, being provided with block reinforcement at the position of the edge of a knife of yoke, and make
The yoke termination of the block reinforcement and yoke knife-edge part surrounds groove, and the first convex bud of the armature is fitted in the groove, to utilize
The first convex luxuriant cooperation with the groove, forms to moving spring armature component in the spacing of both direction.It is of the present utility model
This structure, by first it is convex bud coordinate in a groove, can both have been formed to moving spring armature component armature tail end to armature
Cephalad direction on shock resistance, can be formed again to moving spring armature component on the tail end direction of the head to armature of armature
Shock resistance, so as to substantially increase the impact resistance of relay product.
2nd, the utility model is cancelled due to the convex luxuriant structure of the tail end cancellation prior art in armature in the kink of dynamic spring
The gap structure of prior art, reduces dynamic spring width, and then can reduce relay volume, is advantageously implemented relay product
Miniaturization.
3rd, the utility model is cancelled due to the convex luxuriant structure of the tail end cancellation prior art in armature in the kink of dynamic spring
The gap structure of prior art, reduces armature materials, decreases dynamic spring materials, reduces the cost of relay, improves
The competitiveness of product.
4th, the utility model is cancelled due to the convex luxuriant structure of the tail end cancellation prior art in armature in the kink of dynamic spring
The gap structure of prior art, makes spring and armature easily make, and also reduces the cost of manufacture of relay.
5th, the utility model is supplemented due to increasing block reinforcement on bobbin as bobbin reinforcement, is prevented from coil
Frame deforms.
6th, the utility model is conducive to spacing contact to burn due to block reinforcement is located between the edge of a knife of yoke and the pole-face of iron core
The material of erosion is sprayed onto the yoke edge of a knife.
The utility model is described in further detail below in conjunction with drawings and Examples;But one kind of the present utility model is small
Type shock resistance clapper type relay is not limited to embodiment.
Brief description of the drawings
Fig. 1 is that a kind of D structure (moving spring armature component decomposing state) of clapper type relay of prior art is illustrated
Figure;
Fig. 2 is embodiment D structure schematic diagram of the present utility model;
Fig. 3 is the D structure schematic diagram of embodiment armature of the present utility model;
Fig. 4 is the D structure schematic diagram of embodiment armature of the present utility model (upset one side);
Fig. 5 is the D structure schematic diagram of embodiment bobbin of the present utility model;
Fig. 6 is the top view of embodiment bobbin of the present utility model;
Fig. 7 is embodiment structure sectional view of the present utility model.
Specific embodiment
Embodiment
Referring to shown in Fig. 2 to Fig. 7, one kind of the present utility model minimizes shock resistance clapper type relay, including bobbin
1st, yoke 2, iron core 3, dynamic spring 4 and armature 5, moving spring 4 has kink 41, and it with armature 5 while fix after the bending of dynamic spring 4
And constitute moving spring armature component;The head 31 of iron core 3 is provided with pole-face, and iron core 3 is mounted at the through hole 12 of bobbin 1, the tail of iron core 3
Hold and mutually fixed with one side riveting of yoke 2, the another side of yoke 2 is mutually fixed with the another side of dynamic spring 4, so as to constitute clapper-type knot
Structure, wherein, used as the edge of a knife 21, the tail end 51 of the armature 5 of moving spring armature component is coordinated in yoke for the termination of the another side of yoke 2
At 2 edge of a knife 21, when the coil is energized, armature 5 is rotated around its tail end 51 and is affixed to the pole-face of iron core 3, when the coil is de-energized,
The homing in the presence of the elastic force of dynamic spring 4 of armature 5, it is in order that dynamic spring 4 has elasticity that dynamic spring 4 sets kink 41
Power;Therefore, bobbin 1, yoke 2, iron core 3 and moving spring armature component cooperate according to the mode of clapper-type structure and are assemblied in one
Rise;The moving spring armature component, the convex luxuriant structure of prior art is cancelled in the tail end of armature 5, cancels existing in the kink of dynamic spring 4
There is the gap structure of technology, in the afterbody of armature 5, be provided with to bobbin direction with the cooperation position of the edge of a knife of yoke 2 being close to
The first convex luxuriant 52 of protrusion, second convex luxuriant 53 is provided with the another side of armature 5, and second convex luxuriant 53 is for solid with the riveting of dynamic spring 4
It is fixed to use;On the bobbin 1, being provided with block reinforcement 11 at the position of the edge of a knife of yoke, and make the block reinforcement 11 and yoke knife
The yoke termination 22 at mouthful place surrounds groove 10, during the first convex luxuriant 52 of the armature 5 fits in the groove 10, with utilization described the
One convex luxuriant 52 with the cooperation of the groove 10, formed to moving spring armature component in the spacing of both direction.
In the present embodiment, block reinforcement 11 is strip, and the block reinforcement 11 is between the edge of a knife 21 of yoke and the pole-face of iron core, and
The block reinforcement 11 is in almost parallel with the yoke termination 22 of yoke knife-edge part.
In the present embodiment, first convex luxuriant 52 is provided with preset gap with the block reinforcement 11, described first convex luxuriant 52 with it is described
The cooperation of block reinforcement 11 can form the shock resistance in the cephalad direction of the tail end to armature of armature to moving spring armature component.
In the present embodiment, first convex luxuriant 52 is provided with preset gap with the yoke termination 22 of the yoke knife-edge part, described
First convex luxuriant 52 with the cooperation of the yoke termination 22 of the yoke knife-edge part can be formed to moving spring armature component armature head
Portion is to the shock resistance on the tail end direction of armature.
In the present embodiment, first convex luxuriant 52 is two.
A kind of miniaturization shock resistance clapper type relay of the present utility model, employs the afterbody 51 in armature, is being close to
First convex luxuriant 52 protruded to bobbin direction is provided with the cooperation position of the edge of a knife 21 of yoke;On the bobbin 1, leaning on
Block reinforcement 11 is provided with the position of the edge of a knife 21 of nearly yoke, and the block reinforcement 11 and the yoke termination 22 of yoke knife-edge part is surrounded groove
10, during the first convex luxuriant 52 of the armature fits in the groove 10, match somebody with somebody with the groove 10 with using described first convex luxuriant 52
Close, formed to moving spring armature component in the spacing of both direction.This structure of the present utility model, coordinates by first convex luxuriant 52
In groove 10, the shock resistance in the cephalad direction of the tail end 51 to armature of armature to moving spring armature component can be both formed,
The shock resistance on tail end 51 direction of the head to armature of armature to moving spring armature component can be formed again, so as to greatly improve
The impact resistance of relay product.
A kind of miniaturization shock resistance clapper type relay of the present utility model, the tail end employed in armature cancels existing skill
The convex luxuriant structure of art, the gap structure of prior art is cancelled in the kink of dynamic spring, reduces dynamic spring width, and then can reduce
Relay volume, is advantageously implemented the miniaturization of relay product.This structure of the present utility model, also reduces armature use
Material, decreases dynamic spring materials, reduces the cost of relay, improves the competitiveness of product.This knot of the present utility model
Structure, makes spring and armature easily make, and also reduces the cost of manufacture of relay.
A kind of miniaturization shock resistance clapper type relay of the present utility model, employs the increase block reinforcement 11 on bobbin 1,
Supplemented as bobbin reinforcement, be prevented from bobbin deformation.Due to block reinforcement 11 to be located at the edge of a knife 21 and iron core of yoke
Between pole-face, the material of spacing contact ablation is conducive to be sprayed onto the yoke edge of a knife.
Above-mentioned simply preferred embodiment of the present utility model, not makees any formal limitation to the utility model.Though
Right the utility model is disclosed above with preferred embodiment, but is not limited to the utility model.It is any to be familiar with this area
Technical staff, in the case where technical solutions of the utility model scope is not departed from, all using the technology contents of the disclosure above
Technical solutions of the utility model are made with many possible variations and modification, or is revised as equivalents Equivalent embodiments.Therefore,
Every content without departing from technical solutions of the utility model, according to the utility model technical spirit to made for any of the above embodiments
What simple modification, equivalent variation and modification, all should fall in the range of technical solutions of the utility model protection.
Claims (5)
1. a kind of miniaturization shock resistance clapper type relay, including bobbin, yoke, iron core, dynamic spring and armature, the dynamic spring are curved
After folding itself while fixed with armature and constitute moving spring armature component, the bobbin, yoke, iron core and moving spring armature component according to
The mode of clapper-type structure cooperates and is assembled together;It is characterized in that:The moving spring armature component, in the afterbody of armature,
Near the first convex bud being provided with the cooperation position of the edge of a knife of yoke to bobbin direction protrusion;On the bobbin,
Block reinforcement is provided with the position of the edge of a knife of yoke, and the block reinforcement and the yoke termination of yoke knife-edge part is surrounded groove, it is described
First convex bud of armature is fitted in the groove, to utilize the described first convex luxuriant cooperation with the groove, is formed to dynamic spring rank
Iron part is in the spacing of both direction.
It is 2. according to claim 1 to minimize shock resistance clapper type relay, it is characterised in that:The block reinforcement is strip
Shape, the block reinforcement is between the edge of a knife of yoke and the pole-face of iron core, and the block reinforcement and the yoke termination of yoke knife-edge part are in substantially
It is parallel.
It is 3. according to claim 2 to minimize shock resistance clapper type relay, it is characterised in that:The first convex bud and institute
State block reinforcement and be provided with preset gap, the first convex luxuriant cooperation with the block reinforcement can be formed to moving spring armature component in armature
Tail end to the shock resistance in the cephalad direction of armature.
It is 4. according to claim 2 to minimize shock resistance clapper type relay, it is characterised in that:The first convex bud and institute
The yoke termination for stating yoke knife-edge part is provided with preset gap, and described first is convex luxuriant with the yoke termination of the yoke knife-edge part
Cooperation can form the shock resistance on the tail end direction of the head to armature of armature to moving spring armature component.
5. the miniaturization shock resistance clapper type relay according to claim 1 or 2 or 3 or 4, it is characterised in that:Described
One convex bud is two.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201621264437.7U CN206236617U (en) | 2016-11-24 | 2016-11-24 | Miniaturization shock resistance clapper type relay |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201621264437.7U CN206236617U (en) | 2016-11-24 | 2016-11-24 | Miniaturization shock resistance clapper type relay |
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CN206236617U true CN206236617U (en) | 2017-06-09 |
Family
ID=58979782
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CN201621264437.7U Withdrawn - After Issue CN206236617U (en) | 2016-11-24 | 2016-11-24 | Miniaturization shock resistance clapper type relay |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106558459A (en) * | 2016-11-24 | 2017-04-05 | 厦门宏发汽车电子有限公司 | A kind of miniaturization shock resistance clapper type relay |
WO2018095417A1 (en) * | 2016-11-24 | 2018-05-31 | 厦门宏发汽车电子有限公司 | Insertion structure between static spring and bobbin |
-
2016
- 2016-11-24 CN CN201621264437.7U patent/CN206236617U/en not_active Withdrawn - After Issue
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106558459A (en) * | 2016-11-24 | 2017-04-05 | 厦门宏发汽车电子有限公司 | A kind of miniaturization shock resistance clapper type relay |
WO2018095417A1 (en) * | 2016-11-24 | 2018-05-31 | 厦门宏发汽车电子有限公司 | Insertion structure between static spring and bobbin |
CN106558459B (en) * | 2016-11-24 | 2018-07-13 | 厦门宏发汽车电子有限公司 | A kind of miniaturization shock resistance clapper type relay |
US11114264B2 (en) | 2016-11-24 | 2021-09-07 | Xiamen Hongfa Automotive Electronics Co., Ltd. | Insertion structure between static spring and bobbin |
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Legal Events
Date | Code | Title | Description |
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GR01 | Patent grant | ||
GR01 | Patent grant | ||
AV01 | Patent right actively abandoned |
Granted publication date: 20170609 Effective date of abandoning: 20180713 |
|
AV01 | Patent right actively abandoned |