JP2556631Y2 - Electromagnetic relay - Google Patents

Description

[Detailed description of the invention]

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electromagnetic relay having a cantilevered fixed contact plate having one longitudinal end fixed at a fixed position of a case and the other end provided with a fixed contact.

[0002]

2. Description of the Related Art Generally, as shown in FIGS. 10 and 11, an electromagnetic relay has a base 1 which forms a part of a case 1.
1, a contact device 2 and an electromagnet device 3 for driving the contact device 2 are provided. The contact device 2
A fixed contact plate 22 having a fixed contact 21;
And a movable contact plate 24 disposed opposite to the fixed contact plate 22 and having a movable contact 23 that comes in contact with and separates from the fixed contact plate 22. Each of the fixed contact plate 22 and the movable contact plate 24 has, at one end in the longitudinal direction, a terminal piece 22a, 24a projecting in a direction orthogonal to the longitudinal direction in the same plane as the fixed contact plate 22 or the movable contact plate 24. The terminal pieces 22 a and 24 a are fixed to the base 11 by being inserted into the base 11. The fixed contact 21 and the movable contact 23 are provided at the other end of the fixed contact plate 22 or the movable contact plate 24 in the longitudinal direction. The fixed contact plate 22 has a spring force in a direction in which the fixed contact 21 approaches the movable contact 23, and the movable contact plate 24
Has a spring force in a direction in which the movable contact 23 moves away from the fixed contact 21. Further, the fixed contact plate 22 has a spring force in a direction to bring the fixed contact 21 closer to the movable contact 23 so as to secure the contact pressure.
It is necessary to prevent the fixed contact plate 22 from moving closer to the movable contact plate 24 at a predetermined position so that the distance between the fixed contact plate 22 and the movable contact 23 is maintained. That is, a stopper piece 25 is provided at the other end of the fixed contact plate 22 so as to project perpendicularly to the longitudinal direction in the same plane as the fixed contact plate 22.
Are in contact with the locking surface 12 formed on the base 11.

The electromagnet device 3 includes a drive coil 32 having a coil bobbin 31 wound around a coil, and an iron core 3 of the drive coil 32.
And a substantially L-shaped armature 34 pivotally supported on the drive coil 32 so as to be separated from and attached to one end of the armature 3, and a corner of the armature 34 is protruded from the base 11. It is held between the rib 13 and the coil bobbin 31. The amateur 34 includes an armature piece 34a and a drive piece 34b sandwiching a corner, and when the drive coil 32 is excited and the armature piece 34a is attracted to the iron core 33 of the drive coil 32, the drive piece 34b By transmitting the displacement to the movable contact plate 24 via the card 35, the movable contact 23 is brought into contact with the fixed contact 21. When the drive coil 32 is not excited, the spring force of the movable contact plate 24 is transmitted to the armature 34 via the card 35, and the armature piece 34a is
3 away.

[0004]

In the above configuration, the fixed contact plate 22 is of a cantilever type fixed to the base 11 only at one end in the longitudinal direction. The overtravel after the contact causes the stopper piece 25 to separate from the locking surface 12, and then the movable contact 23 is pushed back by the spring force of the fixed contact plate 22, so that there is a problem that a bounce is likely to occur. In particular, in the above configuration, the stopper piece 25 is set to be smaller than the fixed contact 21 with respect to the distance from the fixed end in the longitudinal direction of the fixed contact plate 22. In this case, as shown in FIG. At time t ₁
In this case, there is a problem that chattering occurs due to bounce generated after the movable contact 23 comes into contact with the fixed contact 21.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and has as its object to provide an electromagnetic relay with reduced bounce.

[0006]

According to the first aspect of the present invention, a fixed contact plate having one end in a longitudinal direction fixed at a fixed position of a case and having a fixed contact at the other end, and a movable contact separated from and connected to the fixed contact. An electromagnetic device comprising: a movable contact plate spring-biased so that the movable contact is separated from the fixed contact at one end; and an electromagnet device for applying a pressing force to the movable contact plate so that the movable contact comes into contact with the fixed contact. In the relay, the fixed contact plate has a spring force in a direction to bring the fixed contact closer to the movable contact, and a stopper piece projects from the other end at a position where the distance from the one end fixed to the case is larger than the fixed contact. The case is provided with a locking surface against which a stopper piece abuts so as to prevent the fixed contact plate from moving in the direction approaching the movable contact plate.

According to the second aspect of the present invention, the stopper piece is formed in substantially the same plane as the fixed contact plate, and has a shape in which the rigidity in the thickness direction of the fixed contact plate is larger than other portions of the fixed contact plate. It is formed. Claim 3
According to the invention, the stopper piece includes a first piece protruding in a direction orthogonal to a longitudinal direction of the fixed contact plate in the same plane as the fixed contact plate, and the one end of the fixed contact plate from a tip end of the first piece. It is formed in a shape having a second piece protruding in a direction orthogonal to the first piece toward the side, and the second piece abuts on the locking surface.

According to the present invention, a fixed contact plate having one end in a longitudinal direction fixed at a fixed position of the case and having a fixed contact at the other end, and a movable contact at one end having a movable contact separated from and fixed to the fixed contact. An electromagnetic relay comprising: a movable contact plate in which a contact is spring-biased in a direction away from the fixed contact; and an electromagnet device for applying a pressing force to the movable contact plate in a direction in which the movable contact comes into contact with the fixed contact. Has a spring force in a direction to bring the fixed contact closer to the movable contact, and has a stopper piece protruding from the other end, and the case has a stopper piece so as to prevent the fixed contact plate from moving toward the movable contact plate. Is formed on the movable contact plate from immediately before the movable contact comes into contact with the fixed contact until the movable contact comes into contact with the movable contact plate. The case Is the in are provided in place.

[0009]

According to the structure of the first aspect, the stopper piece is formed at a position farther than the fixed contact with respect to the distance from the fixed end in the longitudinal direction of the fixed contact plate. Compared to the case where the stopper piece is formed closer to the fixed end than the fixed contact,
Bounce is reduced. That is, since the time during which chattering occurs is shortened, the time constant of the chattering prevention circuit can be set small.

The configurations of claims 2 and 3 are preferred embodiments. According to the configuration of claim 4, since the movable contact plate is braked by the drag acting on the movable contact plate from the shock absorbing piece from immediately before the movable contact contacts the fixed contact to the contact state, the bounce is reduced. As a result, the time during which chattering occurs is shortened.

[0011]

Embodiment 1 (Embodiment 1) The basic configuration of the present embodiment is the same as the conventional configuration shown in FIGS. 10 and 11, and only the differences will be described. That is, as shown in FIG.
Is different from the conventional configuration in that a stopper piece 25 is provided at a position where the distance from the fixed end is larger than the fixed contact 21 at the free end. The stopper piece 25 is formed such that the thickness of the fixed contact plate 22 is twice as large as that of the other portions of the fixed contact plate 22 by folding the fixed contact plate 22 to the side opposite to the movable contact plate 24 and stacking them. . With such a configuration, the fixed contact 21 is provided between the fixed end and the free end of the fixed contact plate 22 where the stopper piece 25 abutting on the locking surface 12 of the base 11 is provided. As a result, the fixed contact plate 22 can obtain characteristics close to those in which both ends are fixed. Moreover, since one end of the fixed contact plate 22 is a free end, a sufficient contact pressure can be obtained. In addition, the rigidity of the stopper piece 25 increases due to the free end of the fixed contact plate 22 being folded back and overlapped,
It is possible to prevent the occurrence of bounce due to the bending of the stopper piece 25.

According to this configuration, as shown in FIG. 2, after the movable contact 23 is brought into contact with the fixed contact 21 at time t _1, there than bounce hardly occurs, the time of occurrence of chattering than conventional It is greatly reduced. Further, since the locking surface 12 is formed below the fixed contact 21, abrasion powder generated when the metal stopper piece 25 comes into contact with or separates from the base 11 made of synthetic resin or the like is fixed. 22 and movable contact plate 2
4 hardly adhere to the contact device 2
Even if it is carbonized by the arc generated by the opening and closing of the battery, it is possible to prevent insulation failure from occurring.

(Embodiment 2) In this embodiment, as shown in FIG. 3, instead of making the stopper piece 25 twice as thick as the other parts, a reinforcing ridge 25a running in the longitudinal direction of the stopper piece 25 is provided. It is stamped and formed. Also with this configuration, the rigidity of the stopper piece 25 can be increased. Other configurations and operations are the same as those of the first embodiment.

(Embodiment 3) In the present embodiment, as shown in FIG.
In the same plane as the fixed contact plate 22, a first piece 22 b protruding in a direction orthogonal to the longitudinal direction of the fixed contact plate 22, and orthogonal to the fixed end of the fixed contact plate 22 from the distal end of the first piece 22 b. And a second piece 2c protruding in the direction of movement. The second piece 2c for the locking surface 12
Abuts on the tip. This configuration also has the effect of suppressing bounce as in the first and second embodiments.
Other configurations and operations are the same as those of the first embodiment.

(Embodiment 4) In this embodiment, as shown in FIG. 5, the movable contact plate 24 is braked from immediately before the movable contact 23 contacts the fixed contact 21 to the contact state. is there. That is, between the fixed contact plate 22 and the movable contact plate 24, the shock absorbing piece 26 is protruded from the base 11. The shock absorbing piece 26 has flexibility, and is provided at a position in contact with the movable contact plate 24 from immediately before the movable contact 23 contacts the fixed contact 21 to a contact state. Further, in the driving coil 32, a shock absorbing member 36 made of an elastic material such as rubber is fixed to a portion of the armature 34 facing the armature piece 34a. Here, either one of the impact relaxation piece 26 and the impact relaxation member 36 may be used, or both may be used in combination.

According to the above configuration, the spring load curve changes as shown by the solid line in FIG. The braking force acts to obtain a larger spring load than the conventional spring load (shown by a broken line). As a result, bounce is suppressed and chattering time is shortened. The dashed line in FIG.
Is an attraction force acting between the drive coil 32 and the armature 34 of FIG. Here, the spring load is set so as not to exceed the attraction force even when the braking force by the shock absorbing pieces 26 and the shock absorbing member 36 acts, so that the sensing voltage is not affected.

The other structure is the same as the conventional structure shown in FIG. (Embodiment 5) In the present embodiment, basically the same operation as in Embodiment 4 is performed. As shown in FIG. 7, a part of the movable contact plate 24 is cut out to form the shock absorbing piece 26. It is provided.
Further, the shock absorbing piece 26 comes into contact with the contact piece 27 fixed at a fixed position of the case 1, thereby exerting a drag force on the movable contact plate 24 in a direction of separating from the fixed contact plate 22. . The shock absorbing piece 26 is a movable contact 2
The positional relationship with the contact piece 27 is set so that the contact piece 3 is in contact with the contact piece 27 from immediately before contacting the fixed contact 21 to the contact state. Therefore, the braking force acts on the movable contact plate 24 immediately before the movable contact 23 comes into contact with the fixed contact 21, and the impact force on the fixed contact plate 22 is reduced. As a result, the effect of suppressing the bounce is obtained. is there. Further, in this configuration, the member for absorbing the impact is integrally formed on the movable contact plate 24, so that the manufacturing becomes easy. Other configurations are the same as in the fourth embodiment.

(Embodiment 6) As shown in FIG. 8, this embodiment has basically the same configuration as the embodiment 3 shown in FIG. However, the protrusion 14 forming the locking surface 12 is formed smaller than in the third embodiment. For example, when the wall 15 is formed so as to surround the contact portion between the fixed contact 21 and the movable contact 23 as shown in FIG. 9A, the position shown by the hatched portion in FIG. However, there is a problem that the abrasion powder of the contact adheres and the abrasion powder easily accumulates around the contact and the insulation performance is easily deteriorated. , Leading to a longer life.
Also, as compared with the third embodiment, since the size of the protrusion 14 is small, the configuration is such that abrasion powder hardly accumulates around the contact. Other configurations are the same as in the third embodiment.

[0019]

According to the first aspect of the present invention, the stopper piece is formed at a position farther than the fixed contact with respect to the distance from the fixed end in the longitudinal direction of the fixed contact plate. Compared to the case where the stopper piece is formed closer to the fixed end than the fixed contact,
This has the effect of reducing bounce.

According to the fourth aspect of the present invention, the movable contact plate is braked by the drag acting on the movable contact plate from the shock absorbing piece during a period from immediately before the movable contact comes into contact with the fixed contact to the contact state. This has the effect of reducing the time during which chattering occurs and shortening the time.

[Brief description of the drawings]

FIG. 1 is a perspective view of a main part showing a first embodiment.

FIG. 2 is an operation explanatory diagram of the first embodiment.

FIG. 3 is a perspective view of a main part showing a second embodiment.

FIG. 4 is a perspective view of a main part showing a third embodiment.

FIG. 5 is a perspective view showing a fourth embodiment.

FIG. 6 is an operation explanatory diagram of the fourth embodiment.

FIG. 7 is a perspective view showing a main part of a fifth embodiment.

FIG. 8 is a perspective view of a main part showing a sixth embodiment.

9A and 9B show a comparative example with respect to Example 6, wherein FIG. 9A is a perspective view of a main part, and FIG. 9B is a perspective view showing a problem.

FIG. 10 is a perspective view showing a conventional example.

FIG. 11 is a plan view showing a conventional example.

FIG. 12 is an operation explanatory diagram of a conventional example.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Case 2 Contact device 3 Electromagnet device 11 Base 12 Locking surface 21 Fixed contact 22 Fixed contact plate 23 Movable contact 24 Movable contact plate 25 Stopper piece 25a Reinforcement ridge 25b First piece 25c Second piece 26 Impact relaxation piece

Claims (4)

(57) [Scope of request for utility model registration] 1. A fixed contact plate having one end in a longitudinal direction fixed to a fixed position of a case and having a fixed contact at the other end, and a movable contact at one end having a movable contact separated from and connected to the fixed contact. A fixed contact plate moves a fixed contact in an electromagnetic relay including a movable contact plate that is spring-biased away and an electromagnet device that applies a pressing force to the movable contact plate so that the movable contact contacts the fixed contact. It has a spring force in the direction approaching the contacts, and a stopper piece protrudes from the one end fixed to the case at a position larger than the fixed contact at the other end. An electromagnetic relay having a locking surface with which a stopper piece abuts so as to prevent movement in a direction approaching a contact plate. 2. The fixed contact plate is formed in substantially the same plane as the fixed contact plate, and is formed in such a shape that rigidity in the thickness direction of the fixed contact plate is larger than other portions of the fixed contact plate. Item 7. The electromagnetic relay according to Item 1. 3. The stopper piece includes a first piece protruding in a direction orthogonal to a longitudinal direction of the fixed contact plate in the same plane as the fixed contact plate, and a stopper piece of the fixed contact plate from a tip end of the first piece. A second projecting in a direction orthogonal to the first piece toward one end side
The electromagnetic relay according to claim 1, wherein the electromagnetic relay is formed in a shape having a piece, and the second piece contacts the locking surface. 4. A fixed contact plate having one end in the longitudinal direction fixed to a fixed position of the case and having a fixed contact at the other end, and a movable contact at one end having a movable contact separated from and connected to the fixed contact. A fixed contact plate moves a fixed contact in an electromagnetic relay including a movable contact plate that is spring-biased away and an electromagnet device that applies a pressing force to the movable contact plate so that the movable contact contacts the fixed contact. A stopper that has a spring force in a direction approaching the contact point, and a stopper piece protrudes from the other end, and a stopper piece abuts on the case so as to prevent the fixed contact plate from moving toward the movable contact plate. A surface is formed, and a flexible shock absorbing piece that acts on the movable contact plate in a direction away from the fixed contact plate from just before the movable contact comes into contact with the fixed contact to a contact state is fixed to the case at the fixed position of the case. Set up Electromagnetic relay.