ELECTROMAGNETIC RELAY

Abstract
In order to provide an electromagnetic relay in which mold manufacturing and assembling work are easy, the electromagnetic relay comprises: a base 10; an electromagnetic block 20 mounted on the base 10, in which one end portion of an iron core 30 around which a coil 21 is wound serves as a magnetic pole portion 31, and the other end portion 32 is caulk-fixed to an L-shaped yoke 40; a movable iron piece 50 rotatably supported on the yoke 40 through an L-shaped hinge spring 60, whose horizontal portion 61 is inserted between an upper surface of the base 10 and a bottom surface of the yoke 40, and facing the magnetic pole portion 31 of the iron core 30 so as to be able to be contacted with and separated from the magnetic pole portion 31 of the iron core 30; and a card 80 making a reciprocating movement based on rotation of the movable iron piece 50; and a contact mechanism portion 70 formed on the base 10 and driven by the card 80. Positioning ribs 62 formed by respectively cutting and raising both side edge portions of the horizontal portion 61 of the hinge spring 60 are each provided with an elastic pawl portion 62a locked to the spool 22 so as to prevent the hinge spring 60 from coming off.
Description
TECHNICAL FIELD

The present invention relates to an electromagnetic relay, in particular to an attachment structure of a hinge spring for supporting a movable iron piece.


BACKGROUND ART

Conventionally, for example, there is an electromagnetic relay comprising: a base 1, an electromagnetic block 2 mounted on the base 1, a movable iron piece 30 rotatably supported through a hinge spring 36 based on excitation and non-excitation of the electromagnetic block 2, a card 39 that makes a reciprocating movement based on rotation of the movable iron piece 30, and a contact mechanism portion formed on an upper surface of the base 1 in which contacts are opened/closed by driving a movable contact piece 47 with the card 39 (refer to Patent Document 1). In the above electromagnetic relay, as shown in FIGS. 2 and 5 of Patent Document 1, bent portions 36a of the spring 36 are inserted into groove portions 23b of the base 1 so that positioning in a widthwise direction is performed.


Patent Document 1: JP2000-348590A
DISCLOSURE OF INVENTION
Problem to be Solved by the Invention

However, in the above electromagnetic relay, the hinge spring 36 is prevented from coming off from the base 1 having a complicated shape so as to support the movable iron piece 30. Therefore, mold manufacturing is not easy, and when the hinge spring 36 is inserted into the base 1, it is difficult to see the groove portions 23b, so that there is a problem that assembling work requires a lot of time and effort.


In view of the above problem, an object of the present invention is to provide an electromagnetic relay in which mold manufacturing and assembling work are easy.


Means of solving the Problem

In order to solve the above problem, an electromagnetic relay of the present invention comprises:


a base;


an electromagnetic block mounted on the base, which is formed by inserting an iron core into a through hole in a body portion of a spool around which a coil is wounded so that one end portion of the iron core that protrudes serves as a magnetic pole portion, and the other end portion that protrudes is caulk-fixed to a vertical portion of an L-shaped yoke;


a movable iron piece rotatably supported using as a fulcrum an edge portion of a tip end surface of a horizontal portion of the yoke through an L-shaped hinge spring, whose horizontal portion is inserted between an upper surface of the base and a bottom surface of the yoke, and facing the magnetic pole portion of the iron core so as to be able to be contacted with and separated from the magnetic pole portion of the iron core; and


a card making a reciprocating movement based on rotation of the movable iron piece; and


a contact mechanism portion formed on the base and driven by the card, wherein,


of positioning ribs formed by respectively cutting and raising both side edge portions of the horizontal portion of the hinge spring, at least either one of the positioning rib is formed with an elastic pawl portion, which is locked to the spool so as to prevent the hinge spring from coming off.


EFFECT OF THE INVENTION

According to the present invention, the hinge spring is locked not to the base but to the spool so as to be prevented from coming off, it becomes unnecessary to manufacture molds having a complicated shape, so that mold manufacturing becomes easy. Further, since the hinge spring can be locked to the spool in advance so that the movable iron piece can be prevented from coming off, positioning of the hinge spring with respect to the spool is easy, and assembling work of the hinge spring and the movable iron piece becomes easy.


In an embodiment of the present invention, an elastic tongue piece urged toward the bottom surface of the yoke in a manner so as to be press-fitted thereinto may be cut and raised at the horizontal portion of the hinge spring.


According to the present embodiment, the movable iron piece can be supported on the electromagnetic base without any looseness, so that an electromagnetic relay having good operation characteristics is obtained.


In another embodiment of the present invention, at least one protrusion may be protrusively provided at the horizontal portion of the hinge spring along an insertion direction by protruding work in a manner so as to be press-contacted with the bottom surface of the yoke.


According to the present embodiment, the movable iron piece can be supported on the electromagnetic base without any looseness, so that an electromagnetic relay having good operation characteristics is obtained.





BRIEF DESCRIPTION OF DRAWINGS


FIG. 1A and FIG. 1B are perspective views respectively showing a first embodiment of the electromagnetic relay of the present invention from different angles;



FIG. 2 is an exploded perspective view of the electromagnetic relay shown in FIG. 1;



FIG. 3A and FIG. 3B are a side cross sectional view and a front cross sectional view, respectively, of the electromagnetic relay shown in FIG. 1;



FIG. 4A and FIG. 4B are perspective views for describing an assembling method of a hinge spring, and FIG. 4C is a perspective view of the hinge spring;



FIG. 5A is a perspective view of a base shown in FIG. 1, FIG. 5B is a perspective view showing a state in which a yoke is assembled to the base, and FIG. 5C is a perspective view showing a state in which a coil is disposed on the base;



FIG. 6A and FIG. 6B are perspective views for describing an adjustment method using a thickness gauge;



FIG. 7 is a perspective view showing a spool and a hinge spring according to a second embodiment; and



FIG. 8A and FIG. 8B are perspective views showing a card and an electromagnetic relay, respectively, according to a third embodiment.





DESCRIPTION OF REFERENCE NUMERALS






    • 10: base


    • 11: cylindrical-shaped cover


    • 12: engagement pawl


    • 20: electromagnetic block


    • 22: spool


    • 23: body portion


    • 24, 25: flange portion


    • 26: pedestal portion


    • 26
      a: insertion opening


    • 27: receiving portion


    • 30: iron core


    • 31: magnetic pole portion


    • 32: the other end portion


    • 35: coil terminal


    • 40: yoke


    • 41: vertical portion


    • 42: caulking hole


    • 43: thin neck portion


    • 44: horizontal portion


    • 45: shallow groove


    • 50: movable iron piece


    • 52: upper side portion


    • 53: engagement pawl


    • 60: hinge spring


    • 61: horizontal portion


    • 62: positioning rib


    • 62
      a: elastic pawl portion


    • 63: press-fitting elastic tongue piece


    • 65: vertical portion


    • 66: supporting elastic tongue piece


    • 70: contact mechanism portion


    • 71: normally-closed fixed contact terminal


    • 72: normally-closed fixed contact


    • 73: normally open fixed contact terminal


    • 74: normally open fixed contact


    • 71
      a, 73a, 75a: press-fitting portion


    • 75: movable contact terminal


    • 76: movable contact piece


    • 77: movable contact


    • 80: card


    • 81: connection portion


    • 82: pressing arm portion


    • 82
      a: engagement projection


    • 83: engagement recess


    • 83
      a: slit


    • 84: protrusion


    • 85: adjustment opening


    • 90: case


    • 91: thickness gauge


    • 92: gauge portion





BEST MODE FOR CARRYING OUT THE INVENTION

Embodiments of the present invention will be described in accordance with the accompanying drawings of FIGS. 1 to 8.


A first embodiment is generally constructed of a base 10, an electromagnetic block 20, a movable iron piece 50, a contact mechanism portion 70, a card 80 and a case 90 as shown in FIGS. 1 to 6.


The base 10 is obtained by integrally molding at its upper surface central portion a cylindrical-shaped cover 11 provided with a partition wall at its back side. The base 10 has a structure that allows the electromagnetic block 20 described below to slide from one side so that it can be assembled thereto. Further, both upper surface side edge portions on the opening side of the cylindrical-shaped cover 11 of the base 10 are respectively provided with engagement pawls 12, 12 protruding therefrom for being engaged with both upper surface side edge portions of a yoke 40 described below.


In the electromagnetic block 20, a coil 21 is wound around a body portion 23 of a spool 22 having flange portions 24, 25 at its both ends. Then, an iron core 30 having a generally T-shape in cross section is inserted into a through hole 23a in the body portion 23, one end portion thereof that protrudes serves as a magnetic pole portion 31, and the other end portion 32 that protrudes is fixed by caulking to a vertical portion 41 of the yoke 40 described below.


Both side edge portions of the one side flange portion 24 are respectively provided with pedestal portions 26, 26 protruding therefrom, and lower side edge portions of the pedestal portions 26, 26 are connected with a receiving portion 27. An insertion opening 26a through which a horizontal portion 44 of the yoke 40 can be inserted is provided between the receiving portion 27 and the flange portion 24. Further, coil terminals 35, 35 are respectively press-fitted into the pedestal portions 26, 26, and lead-out wires of the coil 21 are tied and soldered to upper end portions of the coil terminals 35 that protrude therefrom.


The yoke 40 is made of a magnetic material generally having an L-shape. A vertical portion 41 thereof is formed with a caulking hole, and a shallow groove 45 having an arc shape in cross section along an outer peripheral surface of the coil 21 is formed in the upper surface center of the horizontal portion 44 along a lengthwise direction. Further, a basal portion of the vertical portion 41 is formed with a thin neck portion 43 having a narrow width. Therefore, there is an advantage that bending work is facilitated.


Then, the horizontal portion 44 of the yoke 40 is inserted through the insertion opening 26a, and the other end portion 32 of the iron core 30 is caulk-fixed to the caulking hole 42, whereby the yoke 40 is integrated with the spool 22. Therefore, a tip end surface of the horizontal portion 44 of the yoke 40 is exposed from the insertion opening 26a (FIG. 3).


As shown in FIG. 2, the movable iron piece 50 is made of a plate-shaped magnetic material formed by press work. Its outer surface is protrusively provided with an engagement protrusion 51 by protruding work, and an extended upper side portion 52 is formed with an engagement pawl 53. The movable iron piece 50 is rotatably supported between the pedestal portions 26, 26 of the spool 22 through a hinge spring 60, and a lower end edge portion of the movable iron piece 50 comes in contact with the tip end surface of the horizontal portion 44 of the yoke 40 (FIG. 3).


As shown in FIG. 4, the hinge spring 60 is formed of a thin plate spring material that is bent in a generally L-shape, and positioning ribs 62, 62 are formed by cutting and raising both side edge portions of a horizontal portion 61. Further, each positioning rib 62 is formed with an elastic pawl portion 62a so as to prevent the hinge spring 60 from coming off. Also, a press-fitting elastic tongue piece 63 is cut and raised at the center of the horizontal portion 61, and an assembling tongue piece 64 is cut at a cornered portion of the hinge spring 60. On the other hand, the center of a supporting elastic tongue piece 66, which is cut out of a vertical portion 65 of the hinge spring 60, is provided with a caulking hole 66a. In FIG. 4, the coil 21 and the movable iron piece 50 are not shown for the sake of convenience of the description.


Thereafter, after the engagement protrusion 51 of the movable iron piece 50 is caulk-fixed to the caulking hole 66a, the horizontal portion 61 of the hinge spring 60 is press-fitted into a gap between a bottom surface of the horizontal portion 44 of the yoke 40 and the receiving portion 27 with the assembling tongue piece 64 of the hinge spring 60 being held, and each positioning rib 62 is press-fitted into the gap 26a between a side surface of the yoke 40 and each pedestal portion 26. As a result, the positioning rib 62 that comes out from the gap 26a between the side surface of the yoke 40 and the pedestal portion 26 is engaged with a notched step portion 45a of the yoke 40, and the elastic pawl portion 62a is locked to an edge portion of the pedestal portion 26, so that the movable iron piece 50 is prevented from coming off. Thereby, the movable iron piece 50 is rotatably supported by the hinge spring 60, and the electromagnetic block 20 is completed.


In the present embodiment, the positioning ribs 62 and the gap 26a can be visually checked at the same time and thus there is an advantage that assembling work is facilitated.


The contact mechanism portion 70 is disposed on one side of the cylindrical-shaped cover 11 of the base 10, and consists of normally-closed, normally open fixed contact terminals 71, 73 and a movable contact terminal 75. The normally-closed, the normally open fixed contact terminals 71, 73 are obtained by continuously integrally molding press-fitting portions 71a, 73a and terminal portions 71b, 73b, respectively, at lower sides of fixed contacts 72, 74. In particular, the press-fitting portion 71a of the normally-closed side fixed contact terminal 71 is bent generally at right angles.


In the movable contact terminal 75, a connection portion of a movable contact piece 76 formed by being punched in a generally J-shape 76a is bent generally at right angles to form a rib portion 76a serving as a rotational fulcrum, and a movable contact 77 is caulk-fixed to a free end portion thereof. Further, right above the movable contact 77, a protrusion 82a of a card 80 described below is inserted, and an engagement opening 76b serving as a point of action is formed. Therefore, a shaft center of the engagement opening 76b and a shaft center of the movable contact 77 are located on the same vertical surface.


In the movable contact terminal 75, a press-fitting portion 75a located at a basal portion of the movable contact piece 76 is press-fitted sideways into a slit 13, which is provided in one side edge portion of the base 10, whereby a terminal portion 75b is protruded from a bottom surface of the base 10. Further, the press-fitting portions 71a, 73a of the normally-closed, normally open fixed contact terminals 71, 73 are press-fitted sideways into a pair of slits 14, 15, respectively, which are provided in an edge portion on the opposite side of the slit 13 for the movable contact terminal. Thereby, the terminal portions 71b, 73b are protruded from the bottom surface of the base 10, and the movable contact 77 and the fixed contacts 72, 74 are opposite to each other so that they can be respectively contacted with and separated from each other.


Subsequently, both the side edge portions of the horizontal portion 44 of the yoke 40 are inserted in a sliding manner so as to be engaged with the pair of the engagement pawls 12, 12, and a part of the electromagnetic block 20 is inserted into the cylindrical-shaped cover 11, whereby the base 10 and the electromagnetic block 20 are integrated with each other.


The card 80 is for connecting the movable iron piece 50 and the movable contact terminal 75. It has a rectangular frame shape in plan view, and its middle portion is provided with a connection portion 81. In particular, frame portions in a lengthwise direction each have a generally triangular shape in cross section (refer to FIG. 3B), and therefore a dead space can be effectively used, so that there is an advantage that the entire device can be reduced in size. Further, the card 80 is provided sideways with an engagement projection 82a protruding from the center of a tip end surface of a pressing arm portion 82, which is provided protruding from the center of a tip end surface of one end side of the card 80. Further, a central portion of the other end side of the card 80 is formed with an engagement recess 83, and a pair of protrusions 84, 84 are protrusively provided on the same shaft center in its inside, whereby an adjustment opening 85 is formed between the protrusions 84.


Then, while the engagement projection 82a is inserted through the engagement opening 76b, both side edge portions of the upper side portion 52 of the movable iron piece 50 are held by one end portion of the card 80 and the pair of the protrusions 84, 84, and the engagement pawl 53 of the movable iron piece 50 is engaged with the engagement recess 83 to prevent the card 80 from coming off.


The case 90 has a box shape capable of covering the base 10. The case is assembled to the base 10 to which internal components are assembled, whereby an assembling work is completed.


Next, an operation method of the electromagnetic relay will be described.


That is, if a voltage is not applied to the coil 21 of the electromagnetic block 20, the card 80 is urged to the movable iron piece 50 side by a spring force of the movable contact piece 76. Therefore, the movable contact 77 is in contact with the normally-closed fixed contact 72, and separated from the normally open fixed contact 74.


Then, by applying a voltage to the coil 21 of the electromagnetic block 20, the magnetic pole portion 31 of the iron core 30 attracts the movable iron piece 50. Therefore, the movable iron piece 50 is rotated against the spring force of the movable contact piece 76, whereby the card 80 is moved in a sliding manner in a horizontal direction to press the movable contact piece 76, so that the movable contact 77 is separated from the fixed contact 72, brought into contact with the fixed contact 74 and then the movable iron piece 50 is attracted to the magnetic pole portion 31.


Then, if the voltage application to the coil 21 is stopped, the card 80 is pushed back by the spring force of the movable contact piece 76, and the movable iron piece 50 is separated from the magnetic pole portion 31. Thereafter, the movable contact 77 is separated from the fixed contact 74 and brought into contact with the fixed contact 72 to return to the original state.


If operation characteristics of the electromagnetic relay of the present embodiment are adjusted, as shown in FIG. 6, for example, a gauge portion 92 of a thickness gauge 91 having a thickness of 0.15 mm is inserted into the adjustment opening 85 formed between the pair of the protrusions 84, 84. Then if a voltage is applied to the coil 21 to rotate the movable iron piece 50, and the gauge portion 92 is held by the movable iron piece 50 and the magnetic pole portion 31 of the iron core 30, whether or not the movable contact 77 is in contact with the normally open fixed contact 74 is judged by an electrical means. If they are not in contact with each other, since it means that a predetermined stroke with respect to the normally open fixed contact 74 is not obtained, the fixed contact terminal 73 and the like are slightly deformed to adjust the operation characteristics.


A second embodiment is a case where a press fitting protrusion 67 is provided by protruding work in place of the press-fitting elastic tongue piece provided at the horizontal portion 61 of the hinge spring 60 as shown in FIG. 7. According to the present embodiment, there is an advantage that the hinge spring 60 can be prevented from coming off without reducing its strength. Since the other portions are the same as those in the above embodiment, the same portions are designated by similar numerals and the description thereof is omitted.


A third embodiment is a case where the center of one end portion of the card 80 is provided with a slit 83a as shown in FIG. 8. According to the present embodiment, the one end side of the card 80 is easily elastically deformed, and the engagement pawl 53 is easily engaged, so that there is an advantage that assembling performance is improved.


INDUSTRIAL APPLICABILITY

The electromagnetic relay of the present invention can be applied not only to the above electromagnetic relays but also to other electromagnetic relays.

Claims
  • 1. An electromagnetic relay comprising: a base;an electromagnetic block mounted on the base, which is formed by inserting an iron core into a through hole in a body portion of a spool around which a coil is wounded so that one end portion of the iron core that protrudes serves as a magnetic pole portion, and the other end portion that protrudes is caulk-fixed to a vertical portion of an L-shaped yoke;a movable iron piece rotatably supported using as a fulcrum an edge portion of a tip end surface of a horizontal portion of the yoke through an L-shaped hinge spring, whose horizontal portion is inserted between an upper surface of the base and a bottom surface of the yoke, and facing the magnetic pole portion of the iron core so as to be able to be contacted with and separated from the magnetic pole portion of the iron core; anda card making a reciprocating movement based on rotation of the movable iron piece; anda contact mechanism portion formed on the base and driven by the card, wherein,of positioning ribs formed by respectively cutting and raising both side edge portions of the horizontal portion of the hinge spring, at least either one of the positioning rib is formed with an elastic pawl portion, which is locked to the spool so as to prevent the hinge spring from coming off.
  • 2. The electromagnetic relay according to claim 1, wherein an elastic tongue piece urged toward the bottom surface of the yoke in a manner so as to be press-fitted thereinto is cut and raised at the horizontal portion of the hinge spring.
  • 3. The electromagnetic relay according to claim 1, wherein at least one protrusion is protrusively provided at the horizontal portion of the hinge spring along an insertion direction by protruding work in a manner so as to be press-contacted with the bottom surface of the yoke.
Priority Claims (1)
Number Date Country Kind
2006-098267 Mar 2006 JP national
PCT Information
Filing Document Filing Date Country Kind 371c Date
PCT/JP2007/056860 3/29/2007 WO 00 9/23/2008