JPH0793089B2 - Electromagnetic relay - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to an electromagnetic relay suitable for controlling automobile electrical components and the like that involve forward / reverse rotation of a motor and forward / reverse movement of a plunger.

[Prior Art] In recent years, the development viewpoint of automobiles has been toward the automation and upgrading of various on-board equipment. For example, automatic door locks, power windows, automatic seat belts, automatic sunroofs, automatic seat controls, retractable headlights. Various automotive electrical components such as controls have been developed.

The basic mechanism of these automobile electrical components is to rotate the armature of the motor M forward and backward, and to operate the plunger of the solenoid forward and reverse. Generally, two electromagnetic relays as shown in FIG. 4 are used. It has the circuit configuration used. Note that FIG. 5 is a waveform diagram of the drive pulse for operating the electromagnetic relay and the current flowing through the motor.

That is, when one of the electromagnetic relays A is driven by the drive pulse x, the current i flowing through the motor M causes an electric contact a _{1 of} the electromagnetic relay A and an electric contact b _{2 of the} electromagnetic relay B from the battery D.
Flow through, for example, in the forward direction. In addition, the electromagnetic relay A
Is released and the other electromagnetic relay B is driven by the drive pulse y, the electrical contact b _{1 of} the electromagnetic relay B, the electromagnetic relay A
The electric current i flows in the opposite direction to the above direction through the electric contact a _{2 of} . In this way, by driving either one of the electromagnetic relays A and B, the circuit configuration is such that the motor M is rotated in a desired direction.

[Problems to be Solved] As described above, the basic electric circuit of the conventional automotive electric component uses two electromagnetic relays because the electromagnetic relays can only perform simple operations of turning on and off. For this reason, the structure of the electric components of the vehicle becomes complicated, and high functionality,
There was a problem that space saving and miniaturization to meet the needs of diversification could not be achieved. This is true not only for automobile electrical components but also for various electric devices including a basic electric circuit that requires two electromagnetic relays as shown in FIG.

The present invention has been made in consideration of the above problems,
The purpose of the present invention is to provide an electromagnetic relay that has two movable contacts that can operate independently of each other, and integrates the fixed make contact and fixed break contact that move and separate these movable contacts to realize space saving and downsizing. .

[Means for Solving the Problems] In order to achieve the above object, the present invention has a base of an electrically insulating material and a first structure of the same structure in which an external lead-out terminal is inserted and fixed from a top surface into a mounting hole provided in the base. First and second electromagnetic blocks and a fixed U-shaped fixed make contact terminal having two fixed make contacts at both ends fixed by being inserted from the upper surface into a substantially U-shaped mounting hole provided in the base. And a substantially U-shaped fixed break contact terminal member having two fixed break contacts at both ends, which is fixed by being inserted from above into a substantially U-shaped mounting hole provided in the base. In the electromagnetic relay, each of the first and second electromagnetic blocks has a coil in which an iron core is installed and is wound around a spool, a yoke mechanically and magnetically connected to one end of the iron core, and Fixed hinge A, an armature supported by the hinge spring and provided opposite to the other end of the iron core, and a movable contact spring integrally formed with the hinge spring having a movable contact and interlocking with the armature, The first and second electromagnetic blocks are aligned in the longitudinal direction and fixed in the same direction, and the fixed make contact terminal member and the fixed break contact terminal member are fixed with their respective contacts facing each other. In addition, the movable contact of the movable contact spring is located between these contacts.

[Embodiment] Next, an embodiment of the present invention will be described with reference to the drawings.

FIG. 1 is an exploded perspective view of an electromagnetic relay according to this embodiment, and FIG.
Similarly, the figure is a perspective view showing an internal assembled state.

In the drawings, 100 is a first electromagnetic block and 200 is a second electromagnetic block, which have the same structure. Each of these electromagnetic blocks 100, 200 has a coil 3 which has an iron core 1 inside and is wound around a spool 2. Both ends of the lead wire forming the coil 3 are connected to two external lead-out terminals 4 provided on the spool 2.

Further, a yoke 5 is provided near the side of the coil 3,
One end of the yoke 5 is mechanically and magnetically connected to one end of the iron core 1. An armature 6 is supported by a hinge spring 7 and faces the other end of the iron core 1. When the coil 3 is energized, the armature 6 is attracted to the magnetized core 1.

The hinge spring 7 is made of a conductive material and is formed into a substantially L shape or an arc shape. Reference numeral 8 denotes a movable contact spring, which has movable contacts 9 on both surfaces of the distal end portion, and the base end is integrated with the hinge spring 7. That is, in this embodiment, the hinge spring 7 and the movable contact spring 8 are integrally formed. A movable contact terminal 10 is formed so as to project from the lower end of the yoke 5. The movable contact terminal 10 may be formed so as to project downward from the base end of the hinge spring 7.

The above configuration is common to the first and second electromagnetic blocks 100 and 200, and the protruding direction of the movable contact spring 8 is in the same posture and in the same direction. 300 is a fixed make contact terminal member, It is U-shaped and has two fixed make contacts 31 and 32 at both ends.
In addition, the external lead-out terminal 33 extends downward. The fixed break contact terminal member 400 is also formed in a substantially U shape, and has two fixed break contacts 41 and 42 at both ends,
In addition, the external lead-out terminal 43 is extended downward.

Reference numeral 500 denotes a base made of an electrically insulating material, and on its upper surface, mounting holes 51 and 52 for inserting and supporting and fixing the external lead-out terminals 4 of the electromagnetic blocks, respectively, and also inserting and supporting the movable contact terminal 10 for supporting and fixing. The mounting holes 53, 54, and the substantially U-shaped mounting for supporting and fixing the external make-up terminals 33, 43 of the fixed make contact terminal member 300 and the fixed break contact terminal member 400, which are substantially U-shaped, respectively. Holes 55 and 56 are provided.

As a result, the first and second electromagnetic blocks 100, 200 are arranged in the longitudinal direction in the same orientation and are arranged in the longitudinal direction.
Mounted on the 500. Further, in the fixed make contact terminal member 300, the external lead-out terminal 33 is inserted into the attachment hole 55a of the base 500, and the lower edge is inserted into the groove 55 to be fixed. Similarly, the fixed break contact terminal member 400 has the external lead terminal 43
Insert into the mounting hole 56a of the base 500, and
Insert into 56 and secure.

Each contact terminal member 300, 400 supported and fixed in this way
The contact points 31 and 41, and 32 and 42 of are placed at positions facing each other. Then, the movable contacts 9, 9 of each electromagnetic block 100, 200
Are arranged between these contacts, and contact the fixed break contacts 41 and 42 when the current to the coil 3 is cut off, and move with the armature 6 to contact the fixed make contacts 31 and 32 when energized. To do. These operations can be controlled independently for each electromagnetic block 100, 200.

FIG. 3 is a circuit diagram of the electromagnetic relay described above. As can be seen from the figure, a structure is provided in which two movable contacts 9 that can be operated independently are provided, and the fixed make contacts 31 and 32 and the fixed break contacts 41 and 42 that contact and separate the movable contacts 9 are integrated respectively. It has become. Moreover, the base 50
Since 0 is used in common, it is downsized, space saving,
And the number of parts can be reduced.

In FIG. 1, reference numeral 600 denotes a cover, which is made of acrylic or the like, and whose open end is bonded to the base 500 in a state of covering the above-mentioned structural portion. The cover 600 is not essential to the present invention, and may be left as it is as a final product as shown in FIG. 2 if necessary.

The present invention is not limited to the above-described embodiment, and it goes without saying that various modifications can be made without departing from the scope of the invention. Further, the application is not limited to automobile electrical components.

[Effects of the Invention] As described above, according to the present invention, two movable contacts that can operate independently of each other are provided, and a fixed make contact and a fixed break contact that move and separate these movable contacts are integrated to form an electromagnetic field. In addition to downsizing the relay, space saving of the electric device using this electromagnetic relay,
It can be miniaturized.

Also, all the members that make up the electromagnetic relay, that is,
The first and second electromagnetic blocks of the same structure, the fixed make contact terminal member and the fixed break contact terminal member are all attached from one direction on the upper surface of the base, so they are excellent in manufacturability and can be easily adapted to an automatic production line. .

Further, since the movable contact spring and the hinge spring are integrally formed and the armature is supported by the hinge spring, the number of parts can be reduced.

Furthermore, since the fixed make contact terminal member and the fixed break contact terminal member are substantially U-shaped and are attached to the base, the contact position is highly accurate and the contact contact force has a very small variation.

[Brief description of drawings]

FIG. 1 is an exploded perspective view of an electromagnetic relay according to an embodiment of the present invention, FIG. 2 is a perspective view showing an internal assembly state of the same, and FIG.
FIG. 4 is a circuit diagram showing the same circuit configuration, FIG. 4 is a circuit diagram showing a conventional example, and FIG. 5 is a waveform diagram of drive pulses for operating an electromagnetic relay and currents flowing in a motor. 100: First electromagnetic block 200: Second electromagnetic block 300: Fixed make contact terminal member 400: Fixed break contact terminal member 500: Base 1: Iron core, 2: Spool 3: Coil, 4: External lead terminal 5: Yoke , 6: Armature 7: Hinge spring, 8: Moving contact spring 9: Moving contact, 10: Moving contact terminal

 ─────────────────────────────────────────────────── ─── Continuation of the front page (56) References JP-A-63-37531 (JP, A) JP-A-63-37532 (JP, A) Actually developed JP-A-62-145249 (JP, U)

Claims (1)

[Claims] 1. A base (500) made of an electrically insulating material, and mounting holes (51, 52) formed in the base (500) are fixed by inserting external lead-out terminals (4, 4) from the upper surface. First and second electromagnetic blocks (100, 200) having the same structure, and a mounting hole (5) formed in the base (500) and having a substantially U shape.
5) A fixed make contact terminal member (300) having two fixed make contacts at both ends, which is fixed by inserting it from the upper surface in 5), and a substantially U-shaped mounting provided on the base (500). Hole (5
An electromagnetic relay comprising: a fixed break contact terminal member (400) having two fixed break contacts at both ends, which is fixed by being inserted from above in 6). The electromagnetic blocks (100, 200) of the coil (3, 3) each having an iron core (1, 1) inside and wound around a spool (2, 2), and one end of the iron core (1, 1) Magnetically connected yoke (5,5) and this yoke (5,5)
A hinge spring (7,7) fixed to the armature, and an armature (6,6) supported by the hinge spring (7,7) and provided to face the other end of the iron core (1,1), A movable contact spring (8, 8) integrally formed with the hinge spring (7, 7) having a movable contact (9, 9) and interlocking with the armature (6, 6); The two electromagnetic blocks (100, 200) are aligned in the longitudinal direction and fixed in the state of being oriented in the same direction, and the fixed make contact terminal member (300) and the fixed break contact terminal member (400) are connected to their respective contacts (31,
32) (41, 42) are fixed in a state of facing each other, and the movable contact spring (8, 8) is provided between these contacts (31, 32) (41, 42).
An electromagnetic relay characterized in that the movable contact (9, 9) of 8) is located.