JP2008305567A - Electromagnetic relay - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an electromagnetic relay capable of being downsized and saved in weight. <P>SOLUTION: The electromagnetic relay is provided with a plunger shaft 51 moving forward and backward by excitation and demagnetization of a coil, a movable piece 57 supported by the plunger shaft 51, a pair of terminals 73, 73 for fixed contacts opened and closed by movement of the movable piece 57, and a cover 60 wherein a storage section 65 for storing the movable piece 57 is formed. The terminal 73 for a fixed contact is formed in a pole shape having a pulling-out protection section 74, a seat section 75, and a fastening section 76 on an outer periphery. A pair of retention sections 67 forming a valley at a position facing the movable piece 57 are projected in the cover 60 by separating respective retention sections 67, insertion holes 68 inserted by the pair of terminals 73 for fixed contacts are respectively formed on the retention sections 67, and the terminals 73 for fixed contacts are respectively inserted into the pair of insertion holes. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to an electromagnetic relay, and more particularly to an electromagnetic relay that is effective for controlling electric components of a car.

  For example, an electric circuit for starting an automobile engine incorporates an electromagnetic relay for supplying current from a battery to a starter motor while an ignition key switch is in a start position.

Generally, this type of electromagnetic relay uses a plunger type electromagnetic relay in which each of a pair of movable contacts of a relay switch is fixed to the tip of one plunger that is advanced and retracted in a straight line by a relay coil.
A conventional plunger-type electromagnetic relay has a pair of fixed contact terminal plates each having a connecting piece at one end and a fixed contact at the other end, and both fixed contact terminal plates are rotationally symmetrical with respect to each other. And the intermediate held parts are respectively held in the holding grooves of the base. For example, see Patent Document 1.

JP 2004-355846 A

  However, in the electromagnetic relay described above, since the connecting piece and the fixed contact are arranged apart from both ends of the terminal plate for fixed contact, the electromagnetic relay becomes large and heavy overall. There is a problem that.

  An object of the present invention is to provide an electromagnetic relay that can be reduced in size and weight.

Typical means for solving the above-described problems are as follows.
A plunger that advances and retreats by excitation and demagnetization of the coil, a movable piece supported by the plunger, a pair of fixed contact terminals that opens and closes by the advance and retreat of the movable piece, and a cover that covers the movable piece,
The cover is provided with a pair of holding portions that form a valley between each other at a position facing the movable piece and projecting apart from each other.
The holding portion is formed with insertion holes through which the pair of fixed contact terminals are inserted,
The electromagnetic relay, wherein the fixed contact terminals are respectively inserted into the pair of insertion holes.

According to the first aspect of the present invention, the creeping distance of the pair of fixed contact terminals is set longer by the valley by arranging the pair of fixed contact terminals in the pair of holding portions that are spaced apart from each other. Therefore, the insulation performance between the pair of fixed contact terminals can be improved while the distance between the axes of the pair of fixed contact terminals is suppressed to be short.
In addition, since the fixed contact terminal is formed in a rod shape and is arranged in the advance / retreat direction of the plunger, the spread of the cover in the radial direction can be suppressed, and the entire electromagnetic relay can be reduced in size and weight.
According to the second aspect of the present invention, a storage groove is formed around the insertion hole on the outer surface of the holding portion of the cover, and the seal ring stored in the storage groove is interposed between the storage groove and the seat portion of the fixed contact terminal. By compressing, the gap between the outer periphery of the fixed contact terminal and the inner periphery of the insertion hole can be sealed, so that the inside of the storage portion can be kept airtight.
According to the invention of claim 3, the hexagonal holding hole is formed around the insertion hole on the outer surface of the holding portion of the cover, and the seat portion whose outer shape is formed in a hexagonal shape is inserted into the holding hole, thereby fixing the cover. Since the contact terminal can be prevented from rotating with respect to the cover, workability when the relay switch joint is fastened to the fastening portion of the fixed contact terminal by the nut can be improved.

  Hereinafter, an embodiment of the present invention will be described with reference to the drawings.

In the present embodiment, the electromagnetic relay according to the present invention is configured for in-vehicle use, and supplies the current from the battery to the starter motor while the ignition key switch is in the start position. It is configured as.
That is, the electromagnetic relay is provided with a relay switch that opens and closes the drive electric circuit of the starter motor, and the relay switch is configured to be controlled by a relay coil (hereinafter referred to as a coil), and the coil is connected to the battery. The excitation demagnetization is controlled by an ignition key switch interposed between the two.

As shown in FIGS. 1 and 4, the electromagnetic relay 10 according to the present embodiment includes a bracket 11 for attaching the electromagnetic relay 10 to a vehicle body of an automobile.
As shown in FIG. 5, the bracket 11 includes a support portion 12 and a pair of leg portions 13 and 13. The support part 12 is formed in a plate shape that is rectangular in plan view (see the broken line in FIG. 5) and is bent in the thickness direction. A pair of leg parts 13 and 13 are formed in the angle type steel shape, and the upper end of a vertical piece is integrally connected with the both ends of the short side of the support part 12, respectively.
Attachment portions 14 and 14 are cut out in the shape of half of an oval shape at the distal ends of the lateral pieces of the pair of leg portions 13 and 13, respectively.

A yoke (hereinafter referred to as a central yoke) 16 as a first yoke formed in a cylindrical shape with openings at both ends is brought into contact with a concave curved surface side (hereinafter referred to as an upper side) of the support portion 12 of the bracket 11 and welded. The part 15 (see FIG. 1B) is fixed by projection welding or spot welding.
The central yoke 16 is formed in a cylindrical shape using a magnetic material such as iron.
As shown in FIG. 5, stepped portions 17 and 17 are formed to have a constant width and a constant depth on the inner circumference of both ends (hereinafter referred to as the left side and the right side) of the central yoke 16. That is, the thickness of the stepped portion 17 is constant, and the depth (dimension in the direction parallel to the cylinder core) is also constant.

A coil bobbin assembly (hereinafter referred to as a bobbin assembly) 20 shown in FIGS. 6 and 7 is accommodated in the hollow portion of the central yoke 16.
The bobbin assembly 20 includes a coil bobbin (hereinafter referred to as a bobbin) 22 in which a coil wire 21 is wound.
The bobbin 22 is made of an insulating resin and is integrally formed into a bobbin shape.
That is, the bobbin 22 includes a barrel portion 23 formed in a cylindrical shape, and a left flange portion 24 and a right flange portion 25 arranged so as to be orthogonal to the left end opening portion and the right end opening portion of the trunk portion 23, respectively. I have.
The coil wire 21 is wound on the body portion 23 and is aligned with the left flange portion 24 and the right flange portion 25 being prevented from being collapsed.

As shown in FIG. 7A, the left flange 24 is formed in a disc shape that is slightly smaller than the inner diameter of the central yoke 16.
Two round bar-shaped positioning convex portions 24a are arranged on the left end surface, which is the end surface opposite to the body portion 23 of the left collar portion 24, respectively, with a phase difference of 180 degrees on a circular line of the same radius, Both positioning projections 24 a and 24 a are provided so as to project at right angles to the left end surface of the left flange 24.

As shown in FIG. 7B, the right flange 25 is also formed in a disk shape that is slightly smaller than the inner diameter of the central yoke 16.
An insertion groove 25a and a winding portion 25b are formed side by side at the upper end of the outer periphery of the right flange 25. A winding start terminal 21a of the coil wire 21 is inserted through the insertion groove 25a, and a winding end terminal 21b of the coil wire 21 is wound around the winding portion 25b.

As shown in FIGS. 6 and 7, a terminal holder (hereinafter referred to as a holder) 26 is inserted into the insertion groove 25 a and the winding portion on the right end surface opposite to the body portion 23 of the right collar portion 25. It is disposed horizontally in the vicinity of the portion 25b and protrudes integrally.
The holder 26 is formed in a flat plate shape that is substantially rectangular in plan view. A tip holding wall 27 protrudes vertically upward from the right end portion, which is the tip portion of the holder 26, and a pair of holding holes 28, 28 are laid side by side on the tip holding wall 27.
A pair of intermediate holding walls 29, 29 protrude vertically upward from the middle portion of the upper surface of the holder 26, and the pair of intermediate holding walls 29, 29 have a pair of holding grooves 30, 30 side by side. The pair of holding holes 28 are provided so as to face each other.
In the middle of each line segment connecting the holding hole 28 and the holding groove 30 facing each other, a pair of long and narrow locking holes 31, 31 pass through the holder 26 in the thickness direction (vertical direction). It has been established. Each locking hole 31 extends in the left-right direction.
A partition wall 32 protrudes vertically upward at a substantially central portion on the center line extending in the left-right direction of the holder 26, and two window holes 33, 34 are opened on the left and right sides of the partition wall 32. ing. The two window holes 33 and 34 are formed in a rectangular shape in plan view.

A pair of coil terminals 35 are held by the holder 26 by being fitted into the pair of holding holes 28, 28, the pair of holding grooves 30, 30 and the pair of locking holes 31, 31.
Since the pair of coil terminals 35 and 35 are formed in the same shape, the configuration thereof will be described for one coil terminal (hereinafter also referred to as a terminal).

The terminal 35 is made of a flat plate made of a conductive material such as copper, and is integrally formed by pressing. The terminal 35 includes a rectangular flat plate-shaped coil connection portion 36 extending in a vertical plane and a substantially square flat plate-shaped lead wire connection portion 37 extending in a horizontal plane.
A locking claw 38 projects vertically downward from the lower end side of the intermediate portion of the coil connection portion 36. The coil connection part 36 is fixed to the holder 26 by fitting the intermediate part of the coil connection part 36 into the holding groove 30 and locking the locking claw 38 in the locking hole 31 by caulking.
A fusing claw portion 39 protrudes from the left end portion of the coil connection portion 36, and a terminal 21a (21b) of the coil wire 21 is fusing to the fusing claw portion 39 by fusing processing.
Two locking grooves 40 for mechanically and electrically connecting the surge absorbing elements are arranged on the upper end side of the intermediate portion of the coil connecting portion 36 so as to be adjacent to each other on the left and right sides and cut vertically. .

The lead wire connecting portion 37 is fixed to the holder 26 by being fitted into the holding hole 28.
An insertion hole 41 is formed at the center of the lead wire connecting portion 37. The insertion hole 41 is configured so that a bolt for connecting a lead wire can be inserted therethrough.
A grommet 43 is fitted on the outer periphery of the proximal end portion of the lead wire connecting portion 37.
The grommet 43 is integrally formed into an oval ring shape using rubber or resin. That is, the ring shape of the grommet 43 is formed in a rectangular shape whose outer shape in a side view is an oval shape and whose inner shape is a cross-sectional shape of the lead wire connecting portion 37.
On the outer periphery of the grommet 43, two lips 44 for enhancing the sealing performance are projected in parallel with each other.

  A surge absorbing element 45 is bridged between the pair of terminals 35 and 35 and is mechanically and electrically connected. That is, the surge absorbing element 45 is formed as an axial type electrical component, and the lead wires at both ends are press-fitted into the locking grooves 40, 40 of the pair of terminals 35, 35, thereby being mechanically and electrically connected. ing.

A left yoke 46 as a second yoke is in contact with the end surface of the left flange 24 of the bobbin 22. The left yoke 46 is formed in a disk shape using a magnetic material such as iron. The diameter of the left yoke 46 is set to be equal to the inner diameter of the stepped portion 17 of the central yoke 16, and the left end face of the left yoke 46 is on the shoulder of the stepped portion 17 in a state where the left yoke 46 is fitted into the central yoke 16. It is designed to engage.
The left yoke 46 is provided with two positioning holes 46a, each having a phase difference of 180 degrees on a circular line having the same radius, and both positioning holes 46a, 46a are positioned on both positioning projections 24a, 24a is inserted in each.
A bottomed cylindrical relief 46 b is formed concentrically so as to bulge rightward at the center of the left yoke 46, and the bottomed cylindrical relief 46 b is hollow in the body 23 of the bobbin 22. In contact with the left end surface of the bobbin 22 in a state of being fitted into the left end portion of the part.
An insertion hole 46c is formed at the center of the bottom wall of the escape portion 46b.

A right yoke 47 as a third yoke is in contact with the end surface of the right flange 25 of the bobbin 22. The right yoke 47 is formed in a substantially disc shape using a magnetic material such as iron. The diameter of the right yoke 47 is set equal to the inner diameter of the stepped portion 17 of the central yoke 16, and the left end surface of the right yoke 47 is in contact with the shoulder of the stepped portion 17 with the right yoke 47 fitted into the central yoke 16. It is designed to engage.
A cutout portion 47a having a substantially trapezoidal shape in a side view is cut out in an upper portion of the peripheral portion of the right yoke 47, and the holder 26 of the right flange portion 25 is inserted into the cutout portion 47a.
A cylindrical inner tube portion 47b is formed concentrically so as to bulge leftward at the center of the right yoke 47. The inner tube portion 47b is formed at the right end of the hollow portion of the body portion 23 of the bobbin 22. It is press-fitted. The right yoke 47 is fixed to the bobbin 22 by this press fitting.

The bobbin assembly 20 is equipped with a plunger assembly 50 shown in FIG. 8 as shown in FIGS.
The plunger assembly 50 includes a plunger shaft 51 formed in a round bar shape. The plunger shaft 51 is inserted into the insertion hole 46 c of the left yoke 46 from the right end side.
A cylindrical spring seat portion 51 a projects from a substantially central portion of the plunger shaft 51. The bottom surface (left end surface) of the escape portion 46b of the left yoke 46 is in contact with the right end surface of the spring seat portion 51a.

A plunger 52 is slidably fitted to the right end portion of the plunger shaft 51, and is prevented from coming off by a retaining portion 51 b formed at the right end portion of the plunger shaft 51.
The plunger 52 is made of a magnetic material such as iron and is formed in a two-stage cylindrical shape having a small diameter on the right side and a large diameter on the left side. The outer periphery of the left small diameter portion is slidably fitted into the inner cylindrical portion 47 b of the right yoke 47, and the outer periphery of the large diameter portion is slidably fitted to the body portion 23 of the bobbin 22.
A spring accommodating hole 52a is formed on the center line of the plunger 52, and a return spring 53 is accommodated in the spring accommodating hole 52a. The return spring 53 is interposed in a compressed state between the bottom surface (left end surface) of the spring accommodating hole 52a and the right end surface of the spring seat portion 51a. That is, the return spring 53 is always urged in the direction in which the plunger 52 is pressed against the retaining portion 51b side, and the direction in which the right yoke 47 is pressed against the spring seat portion 51a, that is, the plunger 52 and the right yoke 47 Are constantly energized in a direction away from each other.

A pressing spring 54 is externally provided on the left side of the spring seat portion 51 a of the plunger shaft 51, and a slider 56 is slidably fitted on the left side of the pressing spring 54. The slider 56 is prevented from coming off by a stopper ring 55 fitted in the annular groove 51 c at the left end portion of the plunger shaft 51.
The pressing spring 54 is interposed between the spring seat portion 51 a and the slider 56 in a compressed state, and the pressing spring 54 is constantly biased in a direction in which the slider 56 is pressed against the stopper ring 55.

The slider 56 is formed in a cylindrical shape using an insulating resin, and a movable piece 57 is arranged on the slider 56 so as to be orthogonal to the slider 56.
The movable piece 57 is made of a copper material (copper or copper alloy) and is formed in a flat plate shape having a rectangular side view. A pair of movable contacts 58, 58 project leftward from both short-side ends of the movable piece 57.

As shown in FIGS. 2 and 3, the left side cover 60 shown in FIG. 9 is inserted into the left stepped portion 17 of the central yoke 16, and the stepped portion 17 is formed by winding and caulking. It is fastened by a pair of caulking parts 18, 18.
The left cover 60 is molded using a thermosetting resin, and the left cover 60 includes a base portion 61 and a movable piece storage portion (hereinafter referred to as a storage portion) 65.
The base portion 61 is formed in a disc shape whose outer diameter is equal to the inner diameter of the stepped portion 17 of the central yoke 16. A fitting portion 62 is formed on the outer periphery of the base portion 61, and a seal ring 63 is fitted on the fitting portion 62. When the left cover 60 is fastened to the stepped portion 17, the seal ring 63 is compressed by the fitting portion 62, the inner peripheral surface of the stepped portion 17, and the left end surface of the left yoke 46 that is in contact with the left cover 60. These are sealed.

On the inner side of the fitting portion 62 of the base portion 61, four positioning holes 64 formed in a bottomed cylindrical shape are provided at rectangular corners centering on the center of the base portion 61, respectively.
Of the four positioning holes 64, the positioning protrusions 24a and 24a of the left brim 24 that pass through the positioning holes 46a and 46a of the left yoke 46 are inserted into the two positioning holes 64 and 64, respectively. As a result, the left cover 60, the left yoke 46, and the left flange 24 are positioned with respect to each other.

A storage portion 65 is integrally formed in a central portion of the base portion 61 in a box shape having a substantially rectangular shape when viewed from the side. The rectangular shape of the storage unit 65 corresponds to the outer shape of the movable piece 57, and the movable piece 57 is stored in the storage unit 65 so as to be movable in the direction of the center line of the left cover 60 (left and right direction).
A pair of guide ribs 66 are arranged on the inner surfaces of both long sides of the storage portion 65 at intervals, and are laid so as to extend in the left-right direction. Each guide rib 66 is disposed on the side surface of the movable piece 57 via a gap, and when the movable piece 57 is tilted, the guide rib 66 is in sliding contact with the side surface to guide the straight movement of the movable piece 57.
The pair of caulking portions 18 and 18 are engaged with the four corner portions of the storage portion 65 from the outside, respectively, and the left cover 60 is pressed against the stepped portion 17 of the central yoke 16 with the left yoke 46 interposed therebetween, thereby The cover 60 and the central yoke 16 are fastened.

The closing wall (left end wall) of the storage portion 65 has a pair of holding portions 67 and 67 projecting inward (rightward), each forming a valley 67a, and both holding portions 67 and 67 are side surfaces. The views are each formed into a half shape of an oval and are arranged symmetrically. A pair of insertion holes 68 are formed at the center of the semicircular shape of the holding portions 67 and 67, respectively.
A seal ring storage groove 70 for storing the seal ring 69 and a terminal holding hole 71 are sequentially recessed from the back side around the insertion holes 68 and 68 on the left end surface of the closing wall of the storage portion 65.
The outer shape of the seal ring housing groove 70 is circular, and the outer shape of the terminal holding hole 71 is hexagonal.
On the outer side surface (left end surface) of the left cover 60, a partition wall 72 that partitions between the two insertion holes 68, 68 is provided so as to cut vertically along a center line extending in the vertical direction.

As shown in FIGS. 2 and 3, a pair of fixed contact terminals 73 and 73 are inserted and held in both insertion holes 68 and 68, respectively.
A fixed contact terminal (hereinafter referred to as a contact terminal) 73 is integrally pressed using a round bar having good conductivity such as copper.
On the outer periphery of the contact terminal 73, a retaining portion 74, a seat portion 75, and a fastening portion 76 are formed in order from the inner (right) end. The retaining portion 74 and the fastening portion 76 are each formed in a male screw shape, and the seat portion 75 is formed in a hexagonal flat plate shape.
In a state where the contact terminal 73 is inserted through the insertion hole 68, the seat portion 75 is fitted into the terminal holding hole 71, and a conical washer 77 is fitted into the retaining portion 74 so that the washer 77 is planarized. By crimping so as to press, the contact terminal 73 is in a state of being fastened to the left cover 60.
In this fastened state, the seal ring 69 seals them by being compressed by the side wall of the seal ring housing groove 70 and the contact terminal 73.
Further, the seat surface (left end surface) of the seat portion 75 is in a state of protruding from the end surface (left end surface) of the terminal holding hole 71.
Since the seat surface of the seat portion 75 protrudes from the terminal holding hole 71 in this way, a joint (not shown) of the wire harness connected to the motor drive electric circuit is connected to the fastening portion 76 of the contact terminal 73 with a nut (see FIG. Since the joint is firmly fastened to the seating surface, the electrical connection between the wire harness and the contact terminal 73 is properly maintained.
A contact piece 78 formed by using a material having wear resistance and conductivity is fixed to the inner end face (right end face) of the contact terminal 73 by welding or the like.
The contact piece 78 is opposed to the movable contact 58 of the movable piece 57 with a predetermined air gap (insulation distance). As the plunger shaft 51 moves in the forward direction (left direction), the contact point 73 and the movable piece 57 are electrically connected by the movable contact 58 coming into contact with the contact piece 78 of the contact terminal 73.

As shown in FIGS. 2 and 3, the right cover 80 shown in FIG. 10 is inserted into the right stepped portion 17 of the central yoke 16, and the stepped portion 17 is formed by winding and caulking. It is fastened by a pair of crimped portions 18, 18.
The right cover 80 is molded using a thermoplastic resin such as PBT, and the right cover 80 includes a base portion 81.
The base portion 81 is formed in a circular ring shape whose outer diameter is equal to the inner diameter of the stepped portion 17 of the central yoke 16. A fitting portion 82 is formed on the outer periphery of the base portion 81, and a seal ring 83 is fitted on the fitting portion 82. When the right cover 80 is fastened to the stepped portion 17, the seal ring 83 is compressed by the fitting portion 82, the inner peripheral surface of the stepped portion 17, and the right end surface of the right yoke 47 pressed against the right cover 80. These are sealed.

A large-diameter bulging portion 84 and a small-diameter bulging portion 85, both of which are formed in an oval bottomed cylindrical shape in plan view, are superimposed on the base portion 81 so as to be orthogonal to each other to form a stepped portion 17. It bulges in the opposite direction (right direction).
The outer diameter of the arc of the large-diameter bulge portion 84 matches the outer diameter of the circumference of the base portion 81, and the outer diameter of the arc of the small-diameter bulge portion 85 is smaller than the outer diameter of the circumference of the base portion 81. Is set.
The length of the large-diameter bulge portion 84 in the direction of the center line (left and right direction) is set longer than that of the small-diameter bulge portion 85.
The pair of caulking portions 18, 18 are engaged with the four corner portions of the large-diameter bulge portion 84, which is an intersection with the small-diameter bulge portion 85, respectively, and the right cover 80 is connected to the step portion 17 of the central yoke 16. The right cover 80 and the central yoke 16 are fastened by pressing the right yoke 47 therebetween.

A pair of insertion holes 86, 86 intersect the horizontal surface above the small-diameter bulging portion 85 arranged horizontally in the blocking wall on the left end surface of the large-diameter bulging portion 84 arranged in the vertical direction (vertical direction). It arrange | positions adjacently in a site | part, and is established in the tube center line direction (left-right direction). Both insertion holes 86 and 86 are formed in a slit shape in the horizontal direction, and are aligned on a straight line.
In a state where the right cover 80 is fastened to the central yoke 16, the holder 26 of the bobbin assembly 20 is inserted into the large-diameter bulged portion 84, and a pair of both holes 86 and 86 are attached to the holder 26. The coil terminals 35 and 35 are respectively inserted.
A pair of grommet storage holes 87, 87 are arranged adjacent to each other around the insertion holes 86, 86 on the left end surface of the blocking wall of the large-diameter bulging portion 84. The inner shape of the grommet storage hole 87 is formed in an oval shape corresponding to the outer shape of the grommet 43.
When the grommet 43 is housed in the grommet housing hole 87, the lip 44 presses against the inner wall surface of the grommet housing hole 87, so that the grommet 43 seals the clearance between the coil terminal 35 and the insertion hole 86.

A support piece 88 projects horizontally in the left direction at a position directly below both the insertion holes 86, 86. The support piece 88 faces the lower surface of the front end of the holder 26 with a gap so that the holder 26 inserted into the large-diameter bulging portion 84 does not fall down and the coil wire 21 connected to the coil terminal 35 is disconnected. Has been placed.
A central press 89 protrudes in a prismatic shape at a portion of the inner peripheral surface of the large-diameter bulging portion 84 facing the support piece 88, and the end surface of the central press 89 reaches the opening end surface of the right cover 80. The end faces are the same. The center presser 89 faces the surge absorbing element 45 installed between the coil terminals 35 and 35 from above.
A support protrusion 99 is disposed at the end of the center presser 89. The support protrusion 99 faces the tip holding wall 27 of the holder 26 through a gap so that the holder 26 inserted into the large-diameter bulging portion 84 does not fall down and the wire 21 connected to the coil terminal 35 does not break. Has been placed.
A pair of end presses 90, 90 project from both sides of the center presser 89 on the inner peripheral surface of the large-diameter bulge portion 84, and the pair of end pressers 90, 90 are the base ends of the center presser 89. It is the length that stops at the part. The pair of end pressing members 90, 90 are arranged so as to face directly above the locking grooves 40, 40 of both coil terminals 35, 35.

On the upper surface of the small diameter bulging portion 85, two pairs of holding grooves 91, 91 that are fitted to both ends of both coil terminals 35, 35 are laid next to each other, and the right cover 80 is attached to the central yoke 16. In the fastened state, the two sets of both holding grooves 91 and 91 hold the pair of coil terminals 35 and 35, respectively.
A pair of holding holes 92, 92 are submerged in the upper surface wall of the small-diameter bulging portion 85 so as to be positioned directly below both the coil terminals 35, 35, and the both holding holes 92, 92 are square flat holes. It is formed into a shape.
Square flat nuts 93 and 93 are fitted in the holding holes 92 and 92, respectively, and the nuts 93 and 93 are aligned with the insertion holes 41 and 41 of the coil terminals 35 and 35, respectively. .
A relief hole 94 is coaxially recessed in the bottom surface of the holding hole 92. When the joint of the wire harness connected to the ignition key switch is fastened to the coil terminal 35, the escape end 94 is inserted into the insertion hole 41 and inserted into a nut 93 (not shown). Run away.
The inside of the holding hole 92 and the inside of the escape hole 94 are isolated so as not to communicate with the inside of the small diameter bulging portion 85 and the inside of the large diameter bulging portion 84.

On the lower surface of the small-diameter bulging portion 85, two pairs of holding grooves 95, 95 are laid and arranged at intervals.
A pair of holding holes 96, 96 are respectively provided between two pairs of holding grooves 95, 95 on the lower wall of the small diameter bulging portion 85, and both holding holes 96, 96 are square flat holes. Is formed. On the bottom surface of the holding hole 96, a clearance hole 97 is coaxially recessed.
The inside of the holding hole 96 and the inside of the escape hole 97 are isolated so as not to communicate with the inside of the small diameter bulging portion 85 and the inside of the large diameter bulging portion 84.
A partition wall 98 is provided on the outer surface (right end surface) of the right cover 80 so as to project vertically along a center line extending in the vertical direction, and the partition wall 98 divides both the coil terminals 35 and 35 and the like. .

Next, functions and effects will be described.
In a normal (normal) state, the relay switch of the electromagnetic relay is in an off (open) state, and the relay coil is in a demagnetized state.

When the ignition key switch is turned on and the battery voltage is applied to the pair of coil terminals 35 and 35, the coil wire 21 is excited and the plunger 52 is magnetically attracted. The plunger shaft 51 moves in the direction of the left yoke 46.
When the plunger shaft 51 moves in the direction of the left yoke 46, both the movable contacts 58, 58 of the movable piece 57 fixed to the plunger shaft 51 simultaneously contact the contact pieces 78, 78 of the both contact terminals 73, 73. The contact pieces 78 and 78 are electrically connected by both movable contacts 58 and 58 and the movable piece 57.
That is, the relay switch of the motor drive electric circuit is turned on (closed).

When the plunger 52 is attracted by the left yoke 46 and the plunger shaft 51 moves even after the movable contacts 58 and 58 collide with the contact pieces 78 and 78 during the above closing operation, the position restriction is applied to the contact pieces 78 and 78. The plunger shaft 51 moves relative to the movable piece 57 to compress and deform the pressing spring 54, so that both the movable contacts 58, 58 are pressed against both contact pieces 78, 78 by the elastic force of the pressing spring 54. It is in a pressed state.
As a result, since the contact resistance between the movable contacts 58, 58 and the contact pieces 78, 78 is reduced, it is possible to prevent the occurrence of trouble such as heat generation, and the reliability of the relay switch closing operation. Improvements can be made.
That is, even a controlled current having a high voltage and a large current can be energized satisfactorily without causing trouble such as heat generation.
Further, since the pressing spring 54 reduces the impact when both the movable contacts 58, 58 of the movable piece 57 collide with both the contact pieces 78, 78, the collision sound can be suppressed to a small level.

When the application of voltage to both the coil terminals 35, 35 is stopped, the coil wire 21 and the left yoke 46 are demagnetized, so that the plunger shaft 51 is restored by the elastic force of the return spring 53, so Get away.
Then, since the movable piece 57 fixed to the plunger shaft 51 moves away from both contact pieces 78, 78, both movable contacts 58, 58 of the movable piece 57 are simultaneously separated from both contact pieces 78, 78, The electrical connection by the movable contacts 58 and 58 and the movable piece 57 between the contact pieces 78 and 78 is released.
That is, the relay switch of the motor drive electric circuit is turned off (opened).

  When the movable piece 57 is reciprocated, the movable piece 57 is guided by the guide rib 66 laid on the storage portion 65 of the left cover 60 when the movable piece 57 falls down due to vibration or the like. The position with respect to the contact pieces 78 and 78 can be accurately maintained.

  According to the embodiment, the following effects can be obtained.

(1) Since the fixed contact terminal is formed in a rod shape and arranged in the forward / backward direction of the plunger, the spread of the cover in the radial direction can be suppressed, so that the entire electromagnetic relay can be reduced in size and weight. .

(2) Since the pair of fixed contact terminals are arranged in a pair of holding portions that are spaced apart from each other by forming a valley, the creepage distance of the pair of fixed contact terminals can be set longer by the valley. The insulation performance between the pair of fixed contact terminals can be improved while the distance between the fixed contact terminals is kept short.

(3) By arranging the pair of fixed contact terminals in a pair of holding portions that form a valley between each other, so-called meat theft can be formed in the cover, so that resin shrinkage during resin molding of the cover is suppressed. In addition, the amount of resin used can be reduced and the weight and manufacturing cost of the electromagnetic relay can be reduced.

(4) By forming a storage groove around the insertion hole on the outer surface of the cover storage wall of the cover, and compressing the seal ring stored in the storage groove between the storage groove and the seat of the fixed contact terminal, Since the clearance between the outer periphery of the fixed contact terminal and the inner periphery of the insertion hole can be sealed, the inside of the storage portion can be kept airtight.

(5) Covering terminal The fixed contact terminal is covered by forming a hexagonal holding hole around the insertion hole on the outer wall of the closed wall of the cover and inserting a seat with a hexagonal outer shape into this holding hole. Therefore, the workability when the joint of the relay switch is fastened to the fastening portion of the fixed contact terminal with the nut can be improved.

(6) Since the outer end surface of the seat portion of the fixed contact terminal protrudes from the opening surface of the holding hole, it is possible to prevent the join from interfering with the opening edge of the insertion hole. The workability at the time of fastening with the nut to the fastening portion of the fixed contact terminal can be further enhanced.

  Needless to say, the present invention is not limited to the above-described embodiment, and various modifications can be made without departing from the scope of the invention.

  For example, the seat portion of the fixed contact terminal and the holding hole of the cover are not limited to hexagonal shapes. In short, it is only necessary that the fixed contact terminal can be prevented from rotating with respect to the cover by the seat portion and the holding hole.

  In the above embodiment, the electromagnetic relay for supplying the current from the battery to the starter motor while the ignition key switch of the automobile is in the start position has been described. However, the present invention generally relates to an electromagnetic relay for other uses. Can be applied to.

The electromagnetic relay which is one embodiment of this invention is shown, (a) is a front view, (b) is a bottom view, (c) is a left side view, (d) is a right side view. It is front sectional drawing. FIG. It is a disassembled perspective view. It is a partially cutaway plan view showing a yoke assembly. The bobbin assembly is shown, (a) is a top view, (b) is a front sectional view. The bobbin is shown, (a) is a left side view, (b) is a right side view. The plunger assembly is shown, (a) is a partially cut front view, (b) is a left side view. The left cover is shown, (a) is a left view, (b) is side sectional drawing which follows the bb line of (a). The right side cover is shown, (a) is a left side view, (b) is a right side view.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 ... Electromagnetic relay, 11 ... Bracket, 12 ... Support part, 13 ... Leg part, 14 ... Mounting part, 15 ... Welding part, 16 ... Central yoke (1st yoke), 17 ... Step part, 18 ... Caulking process part,
DESCRIPTION OF SYMBOLS 20 ... Bobbin assembly (coil bobbin assembly), 21 ... Coil wire, 21a ... Winding start terminal, 21b ... Winding end terminal, 22 ... Bobbin (coil bobbin), 23 ... Trunk part,
24 ... left side collar, 24a ... positioning convex part,
25 ... right side collar part, 25a ... insertion groove, 25b ... winding part,
26 ... Holder (terminal holder), 27 ... End holding wall, 28 ... Holding hole, 29 ... Intermediate holding wall, 30 ... Holding groove, 31 ... Locking hole, 32 ... Partition wall, 33, 34 ... Window hole,
35 ... Coil terminal, 36 ... Coil connection part, 37 ... Lead wire connection part, 38 ... Locking claw, 39 ... Fusing claw part, 40 ... Locking groove, 41 ... Insertion hole,
43 ... Grommet, 44 ... Lip,
45. Surge absorbing element,
46 ... left yoke (second yoke), 46a ... positioning hole, 46b ... escape portion, 46c ... insertion hole,
47 ... right side yoke (third yoke), 47a ... notch, 47b ... inner cylinder part,
50 ... Plunger assembly, 51 ... Plunger shaft, 51a ... Spring seat part, 51b ... Retaining prevention part, 51c ... Annular groove, 52 ... Plunger, 52a ... Spring accommodation hole, 53 ... Return spring, 54 ... Pressing spring, 55 ... Stopper Ring, 56 ... slider, 57 ... movable piece, 58 ... movable contact,
60 ... left side cover, 61 ... base portion, 62 ... fitting portion, 63 ... seal ring, 64 ... positioning hole, 65 ... storage portion (bulging portion), 66 ... guide rib, 67 ... holding portion, 68 ... insertion hole, 69 ... Seal ring, 70 ... Seal ring storage groove, 71 ... Terminal holding hole, 72 ... Bulkhead,
73: Contact terminal (fixed contact terminal), 74: Stopping part, 75 ... Seat part, 76: Fastening part, 77 ... Washer, 78 ... Contact piece,
80 ... right side cover, 81 ... base part, 82 ... fitting part, 83 ... seal ring, 84 ... large diameter bulging part, 85 ... small diameter bulging part, 86 ... insertion hole, 87 ... grommet storage hole, 88 ... support Part: 89 ... Center presser, 90 ... End presser, 91 ... Holding groove, 92 ... Holding hole, 93 ... Nuts, 94 ... Relief hole, 95 ... Retaining hole, 96 ... Retaining hole, 97 ... Relief hole, 98 ... Septum, 99 ... supporting protrusion.

Claims (3)

A plunger that moves forward and backward by excitation and demagnetization of the coil, a movable piece supported by the plunger, a pair of fixed contact terminals that opens and closes by the movement of the movable piece, and a cover that covers the movable piece,
The cover is provided with a pair of holding portions that form a valley between each other at a position facing the movable piece and projecting apart from each other.
The holding portion is formed with insertion holes through which the pair of fixed contact terminals are inserted,
The electromagnetic relay, wherein the fixed contact terminals are respectively inserted into the pair of insertion holes.   The storage groove formed around the insertion hole of the holding portion stores a seal ring, and the seal ring is compressed between the storage groove and the seat portion. The electromagnetic relay according to 1.   A rectangular holding hole is formed around the insertion hole on the outer surface of the holding portion, and the seat portion having an outer shape formed into a square shape is formed in the holding hole, and an outer end surface thereof extends from an opening surface of the holding hole. The electromagnetic relay according to claim 1 or 2, wherein the electromagnetic relay is fitted in a protruding state.

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