JP5085755B2 - Electromagnetic relay - Google Patents

Description

  The present invention relates to an electromagnetic relay.

  Conventionally, as an electromagnetic relay, an electromagnetic block formed by winding a coil around an iron core via a spool is excited and demagnetized to rotate a movable iron piece that is rotatably supported by a yoke crimped to the iron core. It is known that a movable contact is opened and closed with a fixed contact of a fixed contact piece arranged opposite to the contact piece by driving the contact piece (see, for example, Patent Document 1).

  In this electromagnetic relay, a permanent magnet is arranged above the contact opening / closing part and a magnetic field is generated between the contacts, so that when an arc current is generated at the time of contact opening / closing, the arc current is extended to the side. The arc is extinguished early.

  However, in the conventional electromagnetic relay, a magnetic field is generated by a single permanent magnet disposed above the contact switching part. The magnetic field generated downward from the N pole on the lower side of the permanent magnet is directed from the contact to the side, then upward along each contact piece, and reaches the S pole on the upper side. For this reason, there exists a problem that magnetic flux tends to leak to surrounding space and cannot concentrate on a contact opening-and-closing part. As a result, a permanent magnet that can exert a strong magnetic force is required, resulting in an increase in cost.

JP 2009-87918 A

  Then, this invention makes it a subject to provide the electromagnetic relay provided with the small and cheap arc arc extinguishing function which can extinguish the arc generated at the time of contact opening and closing at an early stage.

As a means for solving the above problems, the present invention provides:
Electromagnetic relay
A contact opening / closing section having a pair of movable contact pieces and a pair of fixed contact pieces each having a fixed contact facing the movable contact of each movable contact piece so as to be able to contact and separate ;
An electromagnet block that is wound around an iron core via a spool, energized and demagnetized by energizing the coil via a coil terminal, and driving the movable contact piece to open and close the contact;
Arc extinguishing composed of a connecting member formed by connecting opposing walls arranged in a direction perpendicular to the contact / separation direction of the contact via an intermediate portion, and a permanent magnet arranged in an opposing part of the opposing wall Members,
Wherein the said electromagnet block is placed between the contact switching portion, disposed the terminal portions of the contact pieces, a first base portion and the terminal portion of the coil terminals that protrude respectively, to so that is connected to the terminal portion A base block consisting of a connecting portion and a second base portion to which a tab terminal having a terminal portion whose position is changed in accordance with an electrical connection position to another component is attached ;
A case attached to the base block and covering the contact opening / closing part and the electromagnet block;
With
The case can be arranged with the opposing wall of the arc extinguishing member and a permanent magnet, and has a recess on the top surface that does not open in the internal space.
By disposing the arc extinguishing member in the recess of the case, the contact opening / closing part and the electromagnet block are electrically insulated,
It is possible to generate a force for displacing the polarity of the facing surface of each permanent magnet and the direction in which the arc current generated when the contact is opened and closed flows upward in which the intermediate portion of the connection member is disposed in the arc current. It is set as the structure determined as follows.

With this configuration, the magnetic field generated from the permanent magnet forms a closed loop through a connection member having a higher magnetic permeability than that of the surrounding atmosphere. Therefore, the magnetic flux can be concentrated at the contact opening / closing position. As a result, the influence of the magnetic field by the arc extinguishing member can be sufficiently applied to the arc current generated when the contact is opened and closed, and the arc current can be sufficiently extended upward to extinguish the arc early. it can. Further, the arc extinguishing member can be disposed completely insulated from the contact opening / closing portion and the electromagnet block which are internal components. Furthermore, the arc current can be deformed and extinguished to a position where the arc current is most unlikely to be adversely affected. Furthermore, the connection position can be freely set by the tab terminal even if the part composed of other parts is an existing one simply by adding the second base part.

The contact opening / closing section includes a pair of movable contact pieces and a pair of fixed contact pieces provided with fixed contacts that are opposed to each other so that the movable contacts of the movable contact pieces can be contacted and separated.
An intermediate portion of the connecting member is arranged such that the direction of the force acting on the arc current generated when the contact is opened / closed between one of the movable contact pieces and one of the fixed contact pieces by the arc extinguishing member. It is preferable to provide a connection terminal for electrical connection so as to be on the upper side .

  With this configuration, the configuration of the electric circuit can be freely changed with a simple configuration simply by adding connection terminals.

Wherein the second base portion of the base block, one of the movable contact piece, preferably Ru fitted with a connection terminal for connecting one of the fixed contact piece.

  According to the present invention, the connection member is arranged around the contact opening / closing position, and the permanent magnet is arranged at the opposite portion, so that the magnetic field generated from the permanent magnet is effectively concentrated on the contact opening / closing position. be able to. For this reason, even if an arc current is generated when the contact is opened and closed, the arc current can be deformed upward by a magnetic field and extinguished quickly.

It is a perspective view of the electromagnetic relay which concerns on this embodiment. It is a perspective view which shows the state which decomposed | disassembled the case and the arc-extinguishing member from FIG. It is a perspective view which shows the state which removed only the case from FIG. FIG. 2 is an exploded perspective view of FIG. 1. (A) is a perspective view which shows the state which looked at the 1st base part from the upper side, (b) is a perspective view which shows the state which looked at the 1st base part from the lower side. It is a disassembled perspective view of a 2nd base part and a tab terminal. It is a perspective view which shows the state which looked at FIG. 6 from the downward side. It is a perspective view which shows the connection state of a movable contact piece, a fixed contact piece, a coil terminal, a connection terminal, and a tab terminal. It is a disassembled perspective view of the electromagnet block and movable iron piece shown in FIG. It is a perspective view which shows the state which looked at FIG. 9 from the other side. It is a fragmentary perspective view which shows the relationship between the force which acts on an arc current, the direction of a magnetic field, and an arc current. It is sectional drawing at the time of contact closing which shows the state which removed the case from FIG. It is sectional drawing at the time of contact opening which shows the state which removed the case from FIG.

  Embodiments according to the present invention will be described below with reference to the accompanying drawings. In the following description, terms indicating specific directions and positions (for example, terms including “up”, “down”, “side”, “end”) are used as necessary. Is for facilitating understanding of the invention with reference to the drawings, and the technical scope of the present invention is not limited by the meaning of these terms. Further, the following description is merely illustrative in nature, and is not intended to limit the present invention, its application, or its use.

(1. Overall configuration)
1 to 4 show an electromagnetic relay according to the present embodiment. This electromagnetic relay is generally a base block 1 provided with an electromagnet block 2, a contact opening / closing part 3, and a movable iron piece 4 and covered with a case 5.

(1-1. Base block 1)
As illustrated in FIG. 2, the base block 1 includes a first base portion 6 and a second base portion 7. (Hereinafter, the direction extending in the longitudinal direction along the long side will be described as the X axis, the direction extending in the short direction along the short side as the Y axis, and the direction extending in the height direction as the Z axis).

  As shown in FIG. 5, the first base portion 6 is formed into a rectangular shape in plan view by molding a synthetic resin material. The first mounting portion is provided at two locations in the longitudinal direction (XX ′ direction). 8 and the second mounting portion 9 are juxtaposed.

  The 1st mounting part 8 is for mounting | wearing the electromagnet block 2 mentioned later, and the base part 10 which bulged upwards except the peripheral part is formed. A recess 11 extending in the short direction (YY ′ direction) is formed on one end side (X direction side) of the pedestal portion 10. Positioning recesses 12 that are deeper are formed at both ends of the recess 11. A guide protrusion 66 formed on a spool 52 of the electromagnet block 2 described later is positioned in the positioning recess 12. A through hole 29 a through which the connection terminal portion 70 of the coil terminal 67 is inserted is formed on the bottom surface of the positioning recess 12. Coil terminal holes 13 extending in the longitudinal direction (XX ′ direction) and penetrating through the upper and lower surfaces are formed on both sides of the recess 11 (near the outside of each positioning recess 12).

  In addition, a guide portion 14 is formed at a central portion of the first base portion 6 at a boundary portion with the second mounting portion 9. The guide portion 14 is composed of a pair of guide walls 15 provided to face in the short direction (YY ′ direction) and an insulating wall 16 connecting them. A guide groove 17 extending in the vertical direction is formed on the opposing surface of the guide wall 15. Both guide grooves 17 guide both side portions of a yoke 55 described later. In addition, a pair of protrusions 18 and recesses 19 are formed in the region surrounded by the guide wall 15 and the insulating wall 16 at a predetermined interval in the lateral direction (YY ′ direction). The hinge spring is guided by the protrusion 18 and the recess 19.

  The second mounting portion 9 is for mounting the contact opening / closing portion 3, and is formed with concave portions 21 a and 21 b that are partitioned in the short direction (YY ′ direction) by the ridge portion 20. In each of the recesses 21a and 21b, slit-shaped first terminal holes 22a and 22b are formed along the guide wall 15 so as to open on the upper and lower surfaces, respectively. A movable contact piece 79 described later is press-fitted into each first terminal hole 22a, 22b. The second mounting portion 9 has a thick portion 23 on one end side (X ′ direction side). The thick portion 23 is provided with a groove 23a extending in the longitudinal direction (XX ′ direction) in the central portion, and each of the two divided portions has a slit-like second terminal hole 24a along the short direction (YY ′ direction). , 24b are formed so as to open on the upper and lower surfaces, respectively. A fixed contact piece 78 described later is press-fitted and fixed in each of the second terminal holes 24a and 24b.

  As shown in FIG. 6, the second base portion 7 is formed in a rectangular shape in plan view by molding a synthetic resin material, like the first base portion 6. A rectangular recess 26 surrounded by the peripheral wall 25 is formed on the upper surface of the second base portion 7 so that the lower surface portion of the first base portion 6 is placed thereon. In the rectangular recess 26, a vertically elongated recess 27 for arranging the connection terminal 39 and four through holes 28a to 28d are formed.

  The connection terminal portion 70 of the coil terminal 67 is inserted into the two through holes 28a and 28b, and the terminal portion 79d of one movable contact piece 79 and the one fixed contact piece are inserted into the remaining two through holes 28c and 28d. 78 terminal portions 78b are respectively inserted. In addition, protrusions 29 a, 29 b, and 29 c are formed on both sides of the second base portion 7 along the outer surface of the peripheral wall 25. Press-fitting holes 30a, 30b, and 30c are formed in the protrusions 29a, 29b, and 29c. The press-fit portion 41b of the first tab terminal 41 and the press-fit portion 42b of the second tab terminal 42 are respectively press-fitted into the press-fit holes 30a and 30b on each of the two sides, and the third tab is inserted into each remaining press-fit hole 30c. The press-fit portion 45b of the terminal 46 and the press-fit portion 46b of the fourth tab terminal 45 are press-fitted, respectively.

  On the bottom surface of the second base portion 7, as shown in FIG. 7, there are four concave portions (first concave portion 31, second concave portion 32, third concave portion 34, first concave portion 34, and second concave portion 34 corresponding to the through holes 28 a to 28 d. 4 recesses 35) are respectively formed.

  Two concave portions (the first concave portion 31 and the second concave portion 32) are for the first tab terminal 41 and the second tab terminal 42 connected to the coil terminal 67. The two press-fitting holes 30a and 30b are opened along the side edge portions on both ends of the first recess 31 and the second recess 32, and the connection terminal portion 70 of the coil terminal 67 is formed in the center portion on the other end side. The protruding through holes 28a and 28b are opened. In addition, inclined surfaces 31 a and 32 a that gradually become deeper from the side edge portion of the second base portion 7 are formed on a part of the inner surface in the vicinity of the through holes 28 a and 28 b.

  The third recess 34 is for the third tab terminal 46 connected to the movable contact piece 79, and the fourth recess 35 is for the fourth tab terminal 45 connected to the fixed contact piece 78. is there.

  The press-fitting hole 30c is opened on one side of the third recess 34, and the press-fitting part 46b of the third tab terminal 46 is press-fitted. A slit-shaped guide recess 37 is formed in succession to the press-fitting hole 30c, with which the stopper portion 46d of the third tab terminal 46 abuts. Further, a through hole 28c through which the terminal portion 79d of one movable contact piece 79B is inserted is opened in the central portion on the other end side of the third recess 34. An inclined surface 34a is formed on a part of the inner surface near the through hole 28c.

  A press-fitting hole 30 c into which the press-fitting part 45 d of the fourth tab terminal 45 is press-fitted is open at one end side of the fourth recess 35. In the same manner as described above, a slit-shaped guide recess 38 with which the stopper portion 45d of the fourth tab terminal 45 abuts is formed continuously with the press-fitting hole 30d. Further, a through hole 28d through which the terminal portion 78b of one fixed contact piece 78A is inserted is opened at the other end side central portion of the fourth recess 35. In addition, a part of the fourth recess 35 is open to the side surface of the second base portion 7.

  The connection terminal 39 is made of a conductive plate having both ends formed in an arc shape, and through holes 40a and 40b are formed at both ends. The terminal portions 79d of the remaining movable contact piece 79A and the terminal portions 78b of the remaining fixed contact piece 78B are inserted into the through holes 40a and 40b, respectively, and are electrically connected to each other by soldering.

  As shown in FIG. 6, the first tab terminal 41 and the second tab terminal 42 are plate-shaped members made of a conductive material, and are a pair of press-fit portions that protrude from the terminal portions 41 a and 42 a and both sides of the upper edge thereof. It is comprised by the connection parts 41c and 42c bent at right angle with respect to the terminal parts 41a and 42a between 41b and 42b. The press-fit portions 41 b and 42 b are press-fitted into the press-fit holes 30 a and 30 b of the second base portion 7 so that the first tab terminal 41 is fixed to the second base portion 7. The tip portions of the connecting portions 41c and 42c are disk-shaped, and through holes 41d and 42d are formed at the centers thereof. The connection terminal portion 70 of the coil terminal 67 is inserted into the through holes 41d and 42d, and is electrically connected to each other by soldering.

  The 3rd tab terminal 46 and the 4th tab terminal 45 are the plate-shaped things which consist of an electroconductive material, and it is the same as the terminal part 45a, 46a and the press-fit part 45b, 46b which protrudes narrowly from the upper edge. The connecting portions 45c and 46c are bent at a right angle from the upper edge, and the stopper portions 45d and 46d protrude to the side opposite to the connecting portions 45c and 46c. The press-fit portions 45 b and 46 b are press-fitted into the press-fit holes 30 c of the second base, and the third tab terminal 46 and the fourth end terminal 46 are fixed to the second base portion 7. The tip portions of the connection portions 45c and 46c are disk-shaped, and through holes 45e and 46e are formed at the centers thereof, respectively. The terminal portions 79d of one movable contact piece 79B and the terminal portions 78b of one fixed contact piece 78A are inserted into the through holes 45e and 46e, and are electrically connected to each other by soldering. The stopper portions 45d and 46d are positioned in contact with the bottom surfaces of the guide concave portions 37 and 38 that are continuous with the press-fitting hole 30c.

(1-2. Electromagnet block 2)
The electromagnet block 2 is obtained by winding a coil 53 around an iron core 51 via a spool 52 as shown in FIGS. 9 and 10.

  The iron core 51 is made of a magnetic material in a rod shape, and has a bowl-shaped magnetic pole portion 54 formed at a lower end portion, and a yoke 55 is caulked and fixed at the upper end portion.

  The spool 52 is obtained by molding a synthetic resin material, and has a cylindrical body portion 57 that forms a center hole 56, and flange portions (upper end side flange portion 58 and lower end side flange portion) formed at both upper and lower ends thereof. Part 59).

  The upper end side collar portion 58 has a relief groove 60 formed on the upper surface, and a central hole 56 is opened there. One end of a yoke 55 described later is disposed in the escape groove 60. A central hole 56 is opened in the lower end side flange 59, from which the iron core 51 can be inserted.

  Terminal attachment portions 61 projecting downward are formed on both side portions of the lower end side flange portion 59, and a groove portion is formed with the bottom surface of the lower end side flange portion 59. Terminal holding holes 62 are respectively formed in the terminal attaching portions 61. Each terminal holding hole 62 has a substantially T-shaped cross section, and includes a terminal fixing portion 62a into which a press-fitting bulging portion 67a of a coil terminal 67 described later is press-fitted, and an escape portion 62b through which the connection terminal portion 70 is inserted. A coil winding portion 68 of the coil terminal 67 that is press-fitted and fixed in the terminal holding hole 62 protrudes from the upper step portion of each terminal mounting portion 61.

  The lower end side flange portion 59 is formed with a guide groove 65 that extends from the body portion 57 to the side end surface and communicates with one upper side step portion of the terminal attachment portion 61. One end side (winding start side) of the coil 53 wound around the trunk portion 57 is disposed in the guide groove 65, and is wound around the coil winding portion 68 of the coil terminal 67.

  A pair of guide protrusions 66 are provided at a predetermined interval on the bottom surface of the lower end side flange 59. These guide protrusions 66 are positioned in the positioning recess 12 of the first base portion 6 and serve to position the spool 52, that is, the electromagnet block 2 with respect to the base block 1.

  The coil terminal 67 is made of a conductive material in the form of a flat plate, and a press-fitting bulge portion 67a that bulges to the opposite surface by pressing is formed at the center portion and both sides thereof. In addition, a coil winding portion 68 that protrudes in the horizontal direction from the upper end edge of the coil terminal 67 and an inclined protrusion 69 that protrudes obliquely downward are formed. From the vicinity of the coil winding portion 68, a connection terminal portion 70 that protrudes downward from the side protrudes. The connection terminal portion 70 protrudes from the lower end side flange portion 59 of the spool 52.

  After the coil 53 is wound around the body 57 of the spool 52, an insulating sheet 71 is adhered to the outer peripheral surface. One end portion of the coil 53 is disposed in the guide groove 65 of the spool 52, and after winding the spool 52 around the body portion 57, both end portions are wound around the coil winding portions 68 of the respective coil terminals 67 and soldered. The

A yoke 55 is caulked and fixed to one end of the iron core 51.
The yoke 55 is formed by bending a magnetic material so as to be substantially L-shaped. At one end portion of the yoke 55, an opening portion 55a for inserting and fixing the one end portion of the iron core 51 is formed. The other end of the yoke 55 is wide, and protrusions 72 are formed on both sides of the lower end. A movable iron piece 4 which will be described later is located between the projecting portions 72, and one corner portion functions as a fulcrum for rotatably supporting the movable iron piece 4.

  As shown in FIG. 4, the hinge spring 44 is a fork-like plate-shaped spring material, and a positioning arm portion 74 on both sides and an elastic support portion 75 in the central portion protrude from the connecting portion 73 on one side. ing. A guide portion 76 protrudes from the connecting portion 73 on the side opposite to the elastic support portion 75. The positioning arm portion 74 is gradually inclined upward toward the tip, and the tip portion is a locking portion 77 that is bent downward and then obliquely upward. The locking portion 77 is positioned by a projection 18 and a concave portion 19 formed on the upper surface of the first base portion 6, and guides the rotation fulcrum of the movable iron piece 4 from below. The elastic support portion 75 gradually goes obliquely upward from the connecting portion 73 and bends further upward from the intermediate portion to support the movable iron piece 4 so as to be rotatable. The guide part 76 abuts on the lower surface of the attracted part 88 of the movable iron piece 4 and regulates the rotation range when the guide part 76 is separated from the magnetic pole part 54 of the iron core 51.

(1-3. Contact switching unit 3)
As shown in FIGS. 4 and 8, the contact opening / closing unit 3 includes a fixed contact piece 78 and a movable contact piece 79 obtained by pressing a conductive material such as copper into a plate shape.

  The fixed contact piece 78 includes a press-fit portion 78a, a terminal portion 78b extending downward from the press-fit portion 78a, and a contact piece portion 78c extending upward from the press-fit portion 78a. The press-fitting portion 78a is formed with a bulging portion 78d that bulges from one side by press working. The bulging portion 78d can be press-fitted into the second terminal holes 24a and 24b of the first base portion 6. A through hole 78e is formed at the upper end of the contact piece 78c, and a fixed contact 80 is fixed by caulking there.

  The movable contact piece 79 includes a press-fit portion 79a and a contact piece portion 79b that is crimped and fixed to the press-fit portion 79a and extends upward. The press-fit portion 79a is bent in a crank shape, and a bulging portion 79c is formed in a wide portion, and a narrower terminal portion 79d is formed on the lower side thereof. The bulging portion 79 c is press-fitted into the terminal hole 22 a of the first base portion 6. The terminal portion 79 d of one movable contact piece 79 is inserted from the first base portion 6 into the through hole 28 c of the second base portion 7 and protrudes into the third recess 34, and the other terminal portion 79 d is connected to the connection terminal 39. It is inserted through the through hole 40a. The contact piece 79b is formed thinner than the press-fit portion 79a so as to be easily elastically deformed, and is bent and extends obliquely from the vicinity of the press-fit portion 79a. A through hole 79e is formed at the upper end of the contact piece 79b, and a movable contact 81 is fixed by caulking there. The movable contact piece 79 includes a fixed contact piece 78 in which the movable contact 62 is press-fitted into the second terminal holes 24a and 24b in a state in which the press-fit portion 79a is press-fitted into the first terminal holes 22a and 22b of the first base portion 6. It faces the fixed contact 81 so as to be able to contact and separate.

(1-4. Movable iron piece 4)
As shown in FIGS. 9 and 10, the movable iron piece 4 is formed by pressing a plate-like magnetic material into a substantially L shape by pressing. One end side of the movable iron piece 4 is a portion to be attracted 88 that is attracted to the magnetic pole portion 54 of the iron core 51. The tip and base of the suctioned portion 88 are narrow, and interference between the guide projection 66 formed on the bottom surface of the spool 52 and the projection 72 formed on the lower end of the yoke 55 is avoided. . An opening 89 is formed on the other end side of the movable iron piece 4. On the other end of the movable iron piece 4, through holes 90 are formed at two locations in the upper part of the opening 89, and the protrusion 93 a of the card member 65 is integrated by heat crimping. In addition, slits 91 are formed on both sides of the heat caulking position, and when the concave portion 92 is formed to prevent the resin from protruding during the heat caulking, lateral deformation at the portion is allowed. Provides a space to do.

  The card member 65 is made of a synthetic resin material, and a depression 93 in which the upper end side of the movable iron piece 4 is disposed is formed on one surface. Protrusions 93a are formed at two locations in the upper and lower portions of the recess 93, and these are used for heat caulking after being inserted into the through hole 90 of the movable iron piece 4. Further, three rows of first ribs 94 extending in the vertical direction are formed on the other surface of the card member. The upper ends of the first ribs 94 are connected to each other by a connecting wall 95, and protrusions 96 are formed in pairs on the left and right sides from the front edge of the first rib 94 toward the front. The upper end portion of the movable contact piece 79 is guided between each pair of protrusions 18 and is pressed against the front end portion of the connecting wall 95. A first shielding wall 97 that protrudes forward is formed at the upper end of the card member 65, and a second shielding wall 98 that protrudes forward and then extends downward is formed at the lower end.

(1-5. Case 5)
As shown in FIG. 2, the case 5 is made of a synthetic resin material in a box shape with an open bottom surface. Resin sealing holes 99 are formed in the upper corners of the case 5. The resin sealing hole 99 is heat sealed after sealing the fitting portion between the base block 1 and the case 5. On the upper surface edge of the case 5 (on the side opposite to the resin sealing hole 99), slit-shaped recesses 100 are formed on both sides. A recess 101 that is recessed from the upper surface is formed between the recesses 100, and a protrusion 102 is formed at the center of the upper surface. In addition, 5a is an attachment part for screwing and fixing an electromagnetic relay.

  An arc extinguishing member 103 is attached to the case 5 using the recess 100 and the recess 101.

  The arc extinguishing member 103 includes a pair of permanent magnets 104a and 104b arranged at predetermined intervals to extinguish the arc, and a connecting member 105 made of a magnetic material for magnetically connecting the permanent magnets 104a and 104b. It consists of

  The permanent magnets 104 a and 104 b have a substantially rectangular parallelepiped shape, and are arranged so that the opposing surfaces have different polarities when attached to the inner surfaces of the opposing walls 106 of the connecting member 105. However, the polarity of the facing surface may be set so that the direction of the force acting on the arc current is directed to the intermediate wall 107 side of the connecting member 105 described later according to the difference in the direction of current flow between the contacts.

  The connecting member 105 is obtained by bending a plate-like magnetic material by pressing so that both end sides face each other. Permanent magnets 104a and 104b are attracted and fixed to the inner surface of each facing wall 106 by their own magnetic force. The magnetic flux generated from one of the permanent magnets 104a and 104b forms a closed loop as a magnetic circuit that returns from the other permanent magnet 104a and 104b via the connecting member 105.

  Thus, according to the arc extinguishing member 103, not only the pair of permanent magnets 104a and 104b but also the connecting member 105 for magnetically connecting them is provided. For this reason, the magnetic circuit used as a closed loop is formed and it becomes difficult to generate magnetic flux leakage. As a result, even if an arc is generated when the contact is opened and closed, the arc is extended in a direction perpendicular to the direction in which the arc current flows according to the Fleming left-hand rule, and is extinguished in a short time.

(2. Assembly method)
Then, the assembly method of the electromagnetic relay which consists of the said structure is demonstrated.

  The coil 53 is wound around the trunk portion 57 of the spool 52, and the coil terminal 67 is press-fitted and fixed in the terminal holding hole 62 of the lower end side flange portion 59. Both ends of the coil 53 are wound around the coil winding portion 68 of the coil terminal 67 and soldered. Further, the iron core 51 is inserted into the center hole 56 of the spool 52 from the lower end side, and the yoke 55 is caulked and fixed to a portion protruding from the upper end. Thereby, the electromagnet block 2 is completed.

The completed electromagnet block 2 is mounted on the first base portion 6.
In mounting the electromagnet block 2, the card member 65 is attached to the first mounting portion 8 of the first base portion 6 together with the movable iron piece 4 and the hinge spring 44. That is, the locking portion 77 of the hinge spring 44 is positioned in the protrusion 18 and the recess 19 of the first base portion 6. And the movable iron piece 4 is arrange | positioned above the hinge spring 44, and also the electromagnet block 2 is arrange | positioned further on it. The electromagnet block 2 is fixed to the first base portion 6 by positioning the guide protrusion 66 in the positioning recess 12, inserting both ends of the yoke 55 into the guide groove 17, and press-fitting the coil terminal 67 into the coil terminal hole 13. To do. Thereby, the movable iron piece 4 is rotatably supported by the lower end corner portion of the yoke 55.

  In this state, the bottom surface of the protruding portion 72 of the yoke 55 and the bottom surface of the terminal mounting portion 61 of the spool 52 are in contact with the top surface of the base portion 10 of the first base portion 6. As a result, a gap in which the movable iron piece 4 is rotatable is formed between the upper surface of the base portion 10 of the first base portion 6 and the magnetic pole portion 54 of the iron core 51 exposed at the lower end portion of the spool 52. The shielding wall 70 of the card member 65 integrated with the movable iron piece 4 is disposed beyond the insulating wall 16 of the base block 1. The guide wall 15 and the insulating wall 16 of the base block 1 and the shielding walls 97 and 98 of the card member 65 sufficiently ensure insulation between the electromagnet block 2 and the contact opening / closing part 3.

The contact opening / closing part 3 is attached to the first base part 6.
When the contact opening / closing part 3 is mounted, the terminal part 79d of the movable contact piece 79 is inserted into the first terminal holes 22a and 22b, and the press-fitting part 79c is press-fitted and fixed. The upper end portion of the movable contact piece 79 is sandwiched between the projections 96 of the card member 65 that has been previously mounted, and is brought into pressure contact with the connecting portion 73. Thereby, the elastic force of the movable contact piece 79 acts on the movable iron piece 4, and the movable iron piece 4 is positioned at the initial position where the attracted part 88 is separated from the magnetic pole part 54 of the iron core 51.

  Further, the terminal portion 78b of the fixed contact piece 78 is inserted into the second terminal holes 24a and 24b of the first base portion 6, and the press-fit portion 78a is press-fitted and fixed. In this state, the fixed contact piece 78 faces the movable contact piece 79 at a predetermined interval, and the movable contact 81 can be brought into contact with and separated from the fixed contact 80.

  Further, one movable contact piece 79 </ b> A protruding from the bottom surface of the first base portion 6 and one fixed contact piece 78 </ b> B are connected by the connection terminal 39. That is, the terminal part 79d of one movable contact piece 79A and the terminal part 78b of one fixed contact piece 78B are inserted into the through holes 40a and 40b of the connection terminal 39, respectively, and are electrically connected by soldering.

The second base part 7 to which the tab terminals 41, 42, 45, 46 are fixed is mounted on the first base part 6.
When the tab terminals 41, 42, 45, 46 are fixed, the press-fit portions 41b, 42b, 45b, 46b of the tab terminals 41, 42, 45, 46 are press-fitted into the press-fit holes 29a-29c of the second base portion 7, respectively. To do. Thereby, the connection portions 41c, 42c, 45c, 46c of the tab terminals 41, 42, 45, 46 are arranged in the recesses 31, 32, 34, 35 formed on the bottom surface of the first base portion 6, and each connection The through holes 41d, 42d, 45c, and 46e of the portions 41c, 42c, 45c, and 46c coincide with the positions of the through holes 28a to 28d of the second base portion 7.

  In mounting the second base portion 7 to the first base portion 6, the lower end portion of the first base portion 6 is fitted and integrated into the rectangular recess 26 of the second base portion 7. At this time, the terminal portion 47 of the coil terminal 67 is inserted into the through hole 41 d of the first tab terminal 41 and the through hole 42 d of the second tab terminal 42. Further, the terminal portion 79 d of the movable contact piece 79 is inserted into the through hole 45 e of the third tab terminal 46, and the terminal portion 78 b of the fixed contact piece 78 is inserted into the through hole 46 e of the fourth tab terminal 45. Therefore, the terminal portions 78b and 79d of the contact pieces 78B and 79A inserted through the through holes 28a to 28d are electrically connected by soldering.

The arc extinguishing member 103 is attached to the case 5.
In attaching the arc extinguishing member 103, the opposing wall 106 of the connecting member 105 and the permanent magnet 104 a, each of the concave portions 100 formed in the case 5, with the permanent magnets 104 a and 104 b attached to the opposing wall 106 of the connecting member 105. 104b is respectively inserted. Then, the connecting member 105 is fixed to the case 5 by heat caulking. Subsequently, the case 5 to which the arc extinguishing member 103 is attached is put on the base block 1, and the fitting portion of both is sealed.

  The internal space may be sealed by thermally sealing the resin sealing hole 99. However, the resin sealing hole 99 can be left open and the internal space can be used in communication with the surrounding atmosphere.

  In the electromagnetic relay assembled in this way, the other components except for the second base can be used as they are, with almost no change in the configuration used conventionally. And by providing the 2nd base part 7, it can be set as the electromagnetic relay corresponding to another form. Here, the connection terminal 39 is provided to connect the movable contact piece 79 and the fixed contact piece 78 so that the contact points are opened and closed at two locations along the same electric circuit. In addition, by providing the four tab terminals 41, 42, 45, 46, it is possible to freely set the electrical connection position to other components (for example, a printed circuit board) of the electromagnetic relay.

(3. Operation)
Next, the operation of the electromagnetic relay having the above configuration will be described.

  In a state where the coil 53 is not energized and the electromagnet block 2 is demagnetized, the attracted portion 88 is made to be an iron core around the fulcrum supported by the yoke 55 by the elastic force of the movable contact pieces 79A and 79B. It is located at an initial position away from the magnetic pole portion 54 of the 51. Therefore, the movable contact 81 maintains an open state separated from the fixed contact 80.

  When the coil 53 is energized and the electromagnet block 2 is energized, the movable iron piece 4 is attracted to the attracted portion 88 by the magnetic pole portion 54 of the iron core 51 and resists the urging force of the movable contact pieces 79A and 79B, as shown in FIG. Then rotate. Thereby, the movable contact pieces 79 </ b> A and 79 </ b> B are elastically deformed, and the movable contact 81 is closed to the fixed contact 80 of the fixed contact piece 78.

  When the energization to the coil 53 is cut off and the electromagnet block 2 is demagnetized, the movable iron piece 4 loses the attractive force of the iron core 51 and rotates by the elastic force of the movable contact pieces 79A and 79B, as shown in FIG. Then, the movable contact 81 is separated from the fixed contact 80.

  At this time, an arc may occur between the contacts, but since the arc extinguishing member 103 is disposed around the contact opening / closing region, the generated arc is quickly extinguished.

  That is, as shown in FIG. 11, the magnetic flux generated from the N pole of one permanent magnet 104 a reaches the S pole of the other permanent magnet 104 b and returns to the S pole of one permanent magnet 104 a through the connection member 105. Constitutes a closed loop magnetic circuit. For this reason, there is almost no magnetic flux leakage to the periphery, and a magnetic force can be effectively applied to the arc generated between the contacts. Specifically, when the connection member 105 is provided as compared with the case where only the permanent magnets 104a and 104b are disposed, the magnetic flux density at the contact opening / closing position can be improved by 53.3%. As a result, due to Fleming's left-hand rule, a force was applied to the generated arc in a direction perpendicular to the contact opening direction, and this arc was greatly extended and extinguished rapidly.

  Here, since the movable contact pieces 79A and 79B are configured to open and close between the fixed contact pieces 78A and 78B, the arc current when the contact is opened flows in the direction shown in FIG. Therefore, the magnetic poles of the permanent magnets 104a and 104b are set to have different polarities on the opposing surfaces so that a magnetic flux direction that can deform the arc toward the intermediate wall 107 side of the connecting member 105 is obtained. In other words, the arc is more reliably extinguished by deforming the arc toward the intermediate wall 107 side of the connecting member 105.

DESCRIPTION OF SYMBOLS 1 ... Base block 2 ... Electromagnet block 3 ... Contact opening / closing part 4 ... Movable iron piece 5 ... Case 6 ... 1st base part 7 ... 2nd base part 8 ... 1st attaching part 9 ... 2nd attaching part 10 ... Base part 11 ... Recess 12 ... Positioning recess 13 ... Coil terminal hole 14 ... Guide part 15 ... Guide wall 16 ... Insulating wall 17 ... Guide groove 18 ... Protrusion 19 ... Recess 20 ... Projection part 21 ... Recess 22 ... First terminal hole 23 ... Meat Thick part 24 ... second terminal hole 25 ... peripheral wall 26 ... rectangular recess 27 ... longitudinal recess 28 ... through hole 29 ... projection 30 ... press-fit hole 31 ... first recess 32 ... second recess 33 ... press-fit hole 34 ... third Recess 35 ... Fourth recess 36 ... Press-fit hole 37 ... Guide recess 38 ... Guide recess 39 ... Connection terminal 40 ... Through hole 41 ... First tab terminal 42 ... Second tab terminal 45 ... Third tab terminal 46 ... Fourth tab terminal 51 ... Iron core 52 ... Spool 53 ... Coil 54 ... Magnetic pole part 55 ... Yoke 56 ... Center hole 57 ... Body part 58 ... Upper end side collar part 59 ... Lower end side collar part 60 ... Relief groove 61 ... Terminal attachment part 62 ... Terminal attachment hole 65 ... Guide groove 66 ... Guide protrusion 67 ... Coil terminal 68 ... Coil winding part 69 ... Inclined protrusion 70 ... Connection terminal part 71 ... Insulating sheet 72 ... Projection part 73 ... Connection part 74 ... Positioning arm part 75 ... Elastic support part 76 ... Guide part 77: Locking part 78A, 78B: Fixed contact piece 79A, 79B ... Movable contact piece 80 ... Fixed contact 81 ... Movable contact 88 ... Suctioned part 89 ... Opening part 90 ... Through hole 91 ... Slit 92 ... Recessed part 93 ... Depressed part 94 ... 1st rib 95 ... Connection wall 96 ... Protrusion 97 ... 1st shielding wall 98 ... 2nd shielding wall 99 ... Resin sealing hole 100 ... Recess 101 ... Recess 102 ... Protrusion 103 ... Arc extinguishing member 104 ... Permanent Magnet 105 ... Connection member 106 ... Opposing wall 107 ... Intermediate wall

Claims (3)

A contact opening / closing section having a pair of movable contact pieces and a pair of fixed contact pieces each having a fixed contact facing the movable contact of each movable contact piece so as to be able to contact and separate ;
An electromagnet block that is wound around an iron core via a spool, energized and demagnetized by energizing the coil via a coil terminal, and driving the movable contact piece to open and close the contact;
Arc extinguishing composed of a connecting member formed by connecting opposing walls arranged in a direction perpendicular to the contact / separation direction of the contact via an intermediate portion, and a permanent magnet arranged in an opposing part of the opposing wall Members,
Wherein the said electromagnet block is placed between the contact switching portion, disposed the terminal portions of the contact pieces, a first base portion and the terminal portion of the coil terminals that protrude respectively, to so that is connected to the terminal portion A base block consisting of a connecting portion and a second base portion to which a tab terminal having a terminal portion whose position is changed in accordance with an electrical connection position to another component is attached ;
A case attached to the base block and covering the contact opening / closing part and the electromagnet block;
With
The case can be arranged with the opposing wall of the arc extinguishing member and a permanent magnet, and has a recess on the top surface that does not open in the internal space.
By disposing the arc extinguishing member in the recess of the case, the contact opening / closing part and the electromagnet block are electrically insulated,
It is possible to generate a force for displacing the polarity of the facing surface of each permanent magnet and the direction in which the arc current generated when the contact is opened and closed flows upward in which the intermediate portion of the connection member is disposed in the arc current. An electromagnetic relay characterized by being determined as follows. The one of the previous SL movable contact piece, and one of the fixed contact piece, to the arc current generated at the time of contact switching, the direction of the force acting by the arc extinguishing member, an intermediate portion of said connecting member is disposed The electromagnetic relay according to claim 1, further comprising a connection terminal for electrical connection so as to be on an upper side. The electromagnetic relay according to claim 1 , wherein a connection terminal that connects one of the movable contact pieces and one of the fixed contact pieces is attached to the second base portion of the base block .

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