JP4218145B2 - Electromagnetic relay - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an electromagnetic relay provided with a switch that is operated so that a contact portion contacts and separates when an armature is not driven.
[0002]
[Prior art]
Conventionally, as this type of electromagnetic relay, there is one having the configuration shown in FIG. 17 and FIG. This includes iron core A, coil bobbin B, coil C, yoke D, armature E, return spring F, movable spring G, movable member H, base J, normally closed contact terminal K, normally open contact terminal L , Lead wire M, common terminal P, coil terminal Q, case R, display member S, and switch T.
[0003]
The iron core A is formed in a substantially round bar shape from a magnetic material. Coil bobbin B is made of a molding material such as plastic and has a flange B ₁ And the coil C is wound around the winding body. The iron core A is inserted into a through hole provided in the winding body portion of the coil bobbin B, and one end portion protrudes from the opening of the through hole. That is, in the iron core A, the coil C is wound through the coil bobbin B. ₁ It has become.
[0004]
The yoke D is made of a magnetic material, with one piece D ₁ And the other piece D ₂ Is formed in an L-shape with a single piece D ₁ The other end of the iron core A is fixed at the approximate center. The yoke D serves as a magnetic path for magnetic flux generated when the coil C is excited.
[0005]
The armature E is formed of a magnetic material in the shape of a plate, and the tip of the armature E is a magnetic pole part A of the iron core A. ₁ The other end D of the yoke D is closer to the base end ₂ Is supported at the front end of the shaft so as to be rotatable.
[0006]
The return spring F is a coil spring, one end of which is the other piece D of the yoke D. ₂ Fixed part D provided at the base end of _Three The other end is connected to the base end portion of the armature E. This return spring F has a magnetic pole part A of the iron core A with the armature E where the coil C is not excited. ₁ It has a biasing force that is a restoring force in a direction away from the head.
[0007]
The movable spring G is formed in a plate shape by a thin leaf spring material such as a copper alloy, and the normally closed movable contact G is formed on both surfaces of one end. ₁ And normally open side movable contact G ₂ Are provided.
[0008]
The movable member H 1 is the first member H ₁ And second member H ₂ Are connected by pins (not shown), and when one member is displaced, the other is also displaced in the same direction. First member H ₁ Is made of a molding material such as plastic, and the central portion of the armature E is integrated by integral molding. Second member H ₂ Is the first member H ₁ Similarly, it is made of a molding material such as plastic, and the central portion of the movable spring G is integrated by integral molding. Therefore, the tip of the armature E is the magnetic pole A of the iron core A. ₁ When the first member H integrated with the armature E is driven by being separated by suction ₁ Is displaced and its first member H ₁ And second member H ₂ Is also displaced in the same direction, so the second member H ₂ The movable spring G that is integrated with is also driven.
[0009]
Base J is normally closed movable contact G ₁ Normally closed contact G facing ₁ Together with the normally closed fixed contact K ₁ Normally closed contact terminal K with normally open side movable contact G ₂ Normally-open movable contact G facing ₂ Together with the normally open fixed contact L ₁ A normally open contact terminal L having a common terminal P connected to the other end of the movable spring G by a lead wire M and a coil terminal Q connected to the coil C are fixed in a penetrating manner.
[0010]
Case R has a bottom portion and a wall portion R erected from the bottom portion. ₁ The above-mentioned parts are accommodated inward by being attached to the base J.
[0011]
The display member S has a base end rotatably supported by the base J and extends from the central portion. ₁ Is extended. This extension S ₁ Includes a first member H of the movable member H 2. ₁ Bar-shaped insertion part H provided in _Four When is inserted, the inserted part H _Four Groove-type fitting part S for fitting ₂ Is provided. In addition, the display member S includes a through portion R provided at the bottom of the case R. _Three Display S for displaying the contact / separation state of contact U _Three Is provided at the tip.
[0012]
The switch T is a rod-shaped through-hole T that penetrates the case R from the tip. ₁ And its penetration T ₁ The operation part T that extends in the direction perpendicular to the penetrating direction and faces the bottom of the case R ₂ Consists of. In other words, this operation part T ₂ Is the opposite part R consisting of the bottom of the case R ₂ It is opposed to. This switch T has a penetrating part T due to its own weight. ₁ The tip of the second member H of the movable member H ₂ Extension part H extended from _Three Touching.
[0013]
Next, the operation of this will be described below. When the coil C is energized and magnetic flux is generated through the iron core A, the armature E has a magnetic pole part A whose other end is the iron core A so as to form a closed magnetic circuit. ₁ It is driven by being attracted to the valve and rotates against the urging force of the return spring F 1. Thus, when the armature E is driven, the movable spring G is also driven as described above, so that the normally closed movable contact G of the movable spring G 1 is driven. ₁ Is the normally closed contact K of the normally closed contact terminal K ₁ And then the normally open movable contact G of the movable spring G ₂ Is normally open side contact terminal L and normally open side fixed contact L ₂ Abut.
[0014]
Thus, when the armature E 1 is driven, the first member H in which the central portion of the armature E 1 is integrated. ₁ The first member H is also driven. ₁ Insertion part H _Four Fitting part S fitted with ₂ Extension part S provided with ₁ The display member S extending from the display member S is also driven to rotate about the portion supported by the base J as a rotation fulcrum. _Three Is the penetration part R of case R ₁ And the contact / separation state of the contact portion U is displayed.
[0015]
When the energization of the coil C is stopped, the magnetic flux passing through the iron core A is erased and is energized by the return spring F, so that the armature E becomes a magnetic pole part A of the iron core A. ₁ Is released, and rotates in the opposite direction to when the coil C is energized, returning to the state before energization. Thus, when the armature E returns, the movable spring G is driven in conjunction with the returning armature E, and the normally open side movable contact G of the movable spring G is driven. ₂ Is normally open side contact terminal L and normally open side fixed contact L ₂ Then, the normally closed movable contact G of the movable spring G ₁ Is the normally closed contact K of the normally closed contact terminal K ₁ Abut.
[0016]
Thus, when the armature E 1 returns, the first member H is reversed in the opposite direction. ₁ And the display member S is driven, and the display portion S at the tip of the display member S is displayed. _Three Is the penetration part R of case R ₁ And the contact / separation state of the contact portion U is not displayed.
[0017]
In addition, this is because when the coil C is not excited and the armature E is not driven, the operating part T of the switch T ₂ Is penetration T ₁ When it is pressed in the through direction, the through part T of the switch T ₁ The tip of the second member H of the movable member H ₂ Extension part H _Three The second member H. ₂ When the armature E is driven and the armature E is driven, the normally closed movable contact of the movable spring G is separated from the normally closed fixed contact of the normally closed contact terminal K. Subsequently, the normally open side movable contact of the movable spring G abuts on the normally open side fixed contact of the normally open side contact terminal L.
[0018]
[Problems to be solved by the invention]
In the above-described conventional electromagnetic relay, the switch T 1 has the second member H whose penetrating portion is the movable member H 2 by its own weight. ₂ Extension part H _Three Since the armature E is driven, the first member H in which the central portion of the armature E is integrated is driven. ₁ When the first member H is driven ₁ And the second member H forming the movable member H ₂ It will be driven via. Then, the switch T is connected to the wall R of the case R. ₁ Wall part R of case R ₁ There is a possibility that the abrasion powder generated by the friction enters the vicinity of the contact portion U and causes the contact portion U to cause a contact failure.
[0019]
The present invention has been made paying attention to the above points, and an object thereof is to provide an electromagnetic relay in which a contact portion does not cause a contact failure.
[0020]
[Means for Solving the Problems]
In order to solve the above-described problem, the invention according to claim 1 includes an iron core in which a coil is wound and a magnetic pole portion is provided, an armature that is driven by being attracted to and separated from the magnetic pole portion of the iron core, and A contact portion that contacts and separates when the armature is driven, and a switch in which an operation portion that can be pressed so that the contact portion contacts and separates when the armature is not driven extends in a direction intersecting the pressing direction , The opposite part facing the operation part On the bottom An electromagnetic relay comprising a case having the operation portion Is provided with a constant thickness portion having a constant thickness, and a spring portion extending in a direction opposite to the extending direction of the constant thickness portion, and having elasticity along the pressing direction. , When the operation unit is not pressed Spring part The contact part that can contact with Spring part Projecting toward The spring portion is provided such that the thickness dimension of the portion extending in the opposite direction is locally thinner than the thickness dimension of the constant thickness portion, and the spring portion is opposed to the facing portion of the case. The opposing surface is located on the same plane as the constant thickness portion and is elastically deformed within the range of the thickness dimension so that the front end portion in the extending direction does not protrude from the opposite surface opposite to the opposing surface. Made It has a configuration.
[0024]
Claim 2 In the invention described in claim 1, in the invention according to claim 1, the contact portion is provided in the facing portion, and the contact state is released by the operation portion being displaced in a direction orthogonal to the pressing direction. The operation portion is configured such that an inclined portion is provided at a contact portion that contacts the contact portion.
[0025]
Claim 3 The invention according to claim 1 is the invention according to claim 1, wherein a display member having a display unit for executing a display operation for displaying the contact / separation state of the contact part through a through part provided in the case is provided. And the said display member is set as the structure provided with the flexible part which can be deform | transformed.
[0026]
Claim 4 The invention described is Claim 3 In the described invention, the flexible portion is made of metal.
[0027]
Claim 5 According to the invention described in claim 1, in the invention described in claim 1, there is provided a display member having a display unit that performs a display operation for displaying a contact / separation state of the contact part through a through part provided in the case. A movable member movable according to the contact / separation state of the part is provided with an insertion part, and a fitting part for fitting the inserted insertion part is provided on the display member, The display member has a configuration in which a restricting portion that restricts the inserted portion from being inserted is provided in the fitting portion.
[0028]
DETAILED DESCRIPTION OF THE INVENTION
A first embodiment of the present invention will be described below with reference to FIGS. This electromagnetic relay consists of iron core 1, coil bobbin 2, coil 3, yoke 4, armature 5, return spring 6, movable spring 7, movable member 8, base 9, normally closed contact terminal 10, normally open contact terminal 11, a lead wire 12, a common terminal 13, a coil terminal 14, a case 15, a display member 16, and a switch 17.
[0029]
The iron core 1 is formed in a substantially round bar shape from a magnetic material. The coil bobbin 2 is formed in a substantially cylindrical shape with a flange portion 2a at both ends of a winding drum portion made of a molding material such as plastic, and the coil 3 is wound around the winding drum portion. The iron core 1 is inserted into a through-hole provided in the coil bobbin 2 winding body, and one end thereof protrudes from the opening of the through-hole. That is, in the iron core 1, the coil 3 is wound through the coil bobbin 2, and as a result, one end portion is the magnetic pole portion 1a.
[0030]
The yoke 4 is formed of a magnetic material into an L shape having one piece 4a and the other piece 4b, and the other end of the iron core 1 is fixed to the approximate center of the one piece 4a. The yoke 4 serves as a magnetic path for magnetic flux generated when the coil 3 is excited.
[0031]
The armature 5 is formed of a magnetic material in the shape of a plate, and the proximal end portion is rotated around the distal end portion of the other piece 4b of the yoke 4 so that the distal end portion thereof is disposed opposite to the magnetic pole portion 1a of the iron core 1. It is supported freely.
[0032]
The return spring 6 is a coil spring, one end of which is connected and fixed to a fixed portion provided at the base end of the other piece 4b of the yoke 4, and the other end is connected to the base end of the armature 5. It is connected. The return spring 6 has a return force in a direction in which the armature 5 in which the coil 3 is not excited is separated from the magnetic pole portion 1a of the iron core 1.
[0033]
The movable spring 7 is formed into a plate shape by a thin plate spring material such as a copper alloy, and a normally closed side movable contact 7a and a normally open side movable contact 7b are respectively provided on both surfaces of one end.
[0034]
In the movable member 8, the first member 8a and the second member 8b are connected by a pin (not shown), and when one member is displaced, the other member is also displaced in the same direction. The first member 8a is made of a molding material such as plastic, and the central portion of the armature 5 is integrated by integral molding. Similarly to the first member 8a, the second member 8b is made of a molding material such as plastic, and the central portion of the movable spring 7 is integrated by integral molding. Therefore, when the tip of the armature 5 is attracted and separated from the magnetic pole portion 1a of the iron core 1, the first member 8a integrated with the armature 5 is displaced, and the first member 8a is displaced together with the first member 8a. Since the second member 8b is also displaced in the same direction, the movable spring 7 integrated with the second member 8b is also driven.
[0035]
The base 9 faces the normally closed side movable contact 7a and faces the normally closed side movable contact 7b and the normally closed side contact terminal 10 having the normally closed side fixed contact 10a that forms the contact portion 20 together with the normally closed side movable contact 7a. A normally open contact terminal 11 having a normally open fixed contact 11a that forms a contact portion 20 together with a normally open movable contact 7b, a common terminal 13 connected to the other end of the movable spring 7 by a lead wire 12, and a coil 3 The connected coil terminal 14 is fixed through.
[0036]
The case 15 is a box shape having a bottom portion which becomes an opposing portion 15a to be described later and a wall portion 15b erected from the bottom portion. The case 15 is attached to the base 9 to accommodate each of the above components inside. .
[0037]
The display member 16 includes a first display piece 16a and a second display piece 16b made of a resin material, and a flexible portion 16c made of a metal plate that can be bent and deformed is positioned between the display pieces 16a and 16b. It is formed by integral molding. The first display piece 16a is positioned on the base end side of the display member 16, is rotatably supported by the base 9, and an extending portion 16d extends from the center portion.
[0038]
As shown in FIG. 7, the extending portion 16d has a groove-type fitting portion that fits a plug portion 8c that has a distal end portion having a circular cross section from the first member 8a of the movable member 8 and is extended. 16e is provided. Specifically, the fitting portion 16e has an opening portion in which the insertion portion 8c inserted and fitted from the side is substantially orthogonal to the insertion direction, that is, in a direction opposite to the extending direction of the insertion portion 8c. A protruding portion 16f that restricts the protrusion from the both sides is provided so as to project inward from the opening edges on both sides.
[0039]
The second display piece 16b is located on the front end side of the display member 16, and a display portion 16g for displaying the contact / separation state of the contact portion 20 is provided at the front end through a through portion 15d provided in the bottom portion of the case 15. It has been.
[0040]
The switch 17 includes a rod-like through portion 17a that penetrates the case 15 from the front end, and an operation portion 17b that extends from the base end portion of the through portion 17a in a direction orthogonal to the through direction and faces the bottom portion of the case 15. . In other words, the operation portion 17b is opposed to the facing portion 15a formed from the bottom of the case 15.
[0041]
The operation portion 17b is formed of a constant thickness portion 17c having a substantially elliptic shape in plan view together with the penetration portion 17a and a spring portion 17d extending in a direction opposite to the extending direction of the constant thickness portion 17c. . As shown in FIG. 8, the spring portion 17d is formed by making the thickness dimension of the portion extending in the opposite direction thinner than the constant thickness portion 17c and locally thinning. Further, the spring portion 17d has a narrow tip in the extending direction, and the facing surface facing the facing portion 15a of the case 15 is located on the same plane as the constant thickness portion 17c.
[0042]
A projecting contact portion 15c having a round projecting tip is provided on the facing portion 15a facing the operation portion 17b, that is, on the bottom of the case 15, toward the spring portion 17d. Therefore, when the operating portion 17b is not pressed in the penetrating direction of the penetrating portion 17a, the spring portion 17d is brought into contact with the abutting portion 15c provided in the case 15 so that the opposing surface and the case 15 face each other. A gap corresponding to the height dimension of the contact portion 15c is formed between the portion 15a and the portion 15a.
[0043]
Next, the operation of this will be described below. When the coil 3 is energized and a magnetic flux is generated through the iron core 1, the armature 5 is driven by the other end being attracted to the magnetic pole part 1a of the iron core 1 so as to form a closed magnetic circuit, and the return spring It rotates against the biasing force of 6. Thus, when the armature 5 is driven, the movable spring 7 is also driven as described above, and the normally closed movable contact 7a of the movable spring 7 is opened from the normally closed fixed contact 10a of the normally closed contact terminal 10. Then, the normally open movable contact 7b of the movable spring 7 contacts the normally open fixed contact 11a of the normally open contact terminal 11.
[0044]
As described above, when the armature 5 is driven, the first member 8a in which the central portion of the armature 5 is integrated is also driven, so that the insertion portion 8c of the first member 8a is fitted. The display member 16 extended from the extended portion 16d provided with the fitting portion 16e is also driven to rotate with the portion supported by the base 9 as a rotation fulcrum, so that the display portion at the tip of the display member 16 is displayed. 16g can be visually recognized through the through portion 15d of the case 15, and the contact / separation state of the contact portion 20 is displayed.
[0045]
When the energization of the coil 3 is stopped, the magnetic flux penetrating the iron core 1 is erased, and the armature 5 is released from the magnetic pole part 1a of the iron core 1 by being energized by the return spring 6, and the coil 3 is energized. It rotates in the opposite direction to when it is done, and returns to the state before energization. Thus, when the armature 5 returns, the movable spring 7 is driven in conjunction with the returning armature 5, and the normally open movable contact 7b of the movable spring 7 is the normally open fixed contact of the normally open contact terminal 11. Then, the normally-closed movable contact 7a of the movable spring 7 comes into contact with the normally-closed fixed contact 10a of the normally-closed contact terminal 10.
[0046]
As described above, when the armature 5 is restored, the first member 8a and the display member 16 are driven in the opposite direction to the above, and the display portion 16g at the tip of the display member 16 is visually recognized through the through portion 15d of the case 15. The contact / separation state of the contact portion 20 is not displayed.
[0047]
Further, as shown in FIG. 1 to FIG. 3, when the coil 3 is not excited and the armature 5 is not driven, the constant thickness portion 17c of the operation portion 17b of the switch 17 is inserted into the through portion. When pressed in the penetrating direction of 17a, the tip of the penetrating portion 17a of the switch 17 comes into contact with the extended portion 8d extending from the second member 8b of the movable member 8 and is driven to press. The movable spring 7 integrated with the second member 8b is also driven, and the normally closed movable contact 7a of the movable spring 7 is connected to the normally closed side of the normally closed contact terminal 10 in the same manner as when the armature 5 is driven. After the release from the fixed contact 10a, the normally open side movable contact 7b of the movable spring 7 comes into contact with the normally open side fixed contact 11a of the normally open side contact terminal 11.
[0048]
Thus, when the constant thickness portion 17c is pressed and the spring portion 17d contacts the contact portion 15c, the spring portion 17d is elastically deformed as shown in FIG. Since it is made within the range of the thickness dimension, the extension direction front-end | tip part does not protrude from the opposite surface on the opposite side to an opposing surface.
[0049]
Further, when the switch 17 is rotated with the penetrating portion 17a as the rotation axis in a state where the spring portion 17d is pressed, the operation portion 17b is displaced in a direction orthogonal to the pressing direction, so that the operation portion 17b and the contact portion 15c The contact state of is released. By this turning operation, the locking projection 17e provided on the switch 17 is locked to the locked portion provided on the inner surface of the wall portion 15b of the case 15, and as shown in FIGS. The contact release state between the operation portion 17b and the contact portion 15c is maintained.
[0050]
In such an electromagnetic relay, since the contact portion 15c protruding from the facing portion 15a contacts the operation portion 17b, displacement of the operation portion 17b toward the facing portion 15a is restricted. Since the switch 17 itself does not displace in the pressing direction when the switch 17 is not, even if the switch 17 is placed in contact with the wall portion 15b of the case 15 along the pressing direction, the wall portion of the case 15 placed in contact therewith Friction does not occur with 15b, and wear powder is not generated with the friction, so that the contact portion 20 does not cause contact failure due to wear powder.
[0051]
Further, since the spring portion 17d having elasticity along the pressing direction returns to the state before pressing when the pressing is released during pressing, it is not necessary to perform a manual operation to return.
[0052]
Further, since the spring portion 17d has elasticity along the pressing direction, the pressing operation itself becomes easy.
[0053]
Further, the spring portion 17d that is elastically deformed within the range of the thickness dimension of the operation portion 17b does not locally protrude from the operation portion 17b in the thickness direction even when elastically deformed by being in contact with the contact portion 15c. Therefore, there is no possibility that the finger is touched by mistake and the operation is not mistaken.
[0054]
In general, the protruding portion is easily damaged when an excessive load is applied, but the spring portion 17d does not protrude locally from the operation portion 17b in the thickness direction, and thus is difficult to be damaged.
[0055]
Further, by appropriately deforming the deformable flexible portion 16c, it is possible to adjust the display operation to display the contact / separation state of the contact portion 20 through the through portion 15d provided in the case 15.
[0056]
In addition, the flexible part 16c is made of a metal that is stronger than a molding material such as plastic. Therefore, even if the flexible part 16c is deformed many times for adjustment, it does not deteriorate from the deformed part and prolongs the life. Can do.
[0057]
Further, since the display member 16 restricts the insertion portion 8c inserted into the fitting portion 16b from being pulled out by the restricting portion 16f, the fitting portion 16b can reliably fit the insertion portion 8c, and thus Assembling work becomes easy.
[0058]
Next, a second embodiment of the present invention will be described below based on FIG. In addition, the same code | symbol is attached | subjected to the member which has a function substantially the same as 1st Embodiment, and only the difference from 1st Embodiment is described. This embodiment is basically the same as the first embodiment, but the spring portion 17d is bent in a direction in which the distal end portion in the extending direction is away from the facing portion 15a of the case 15, and the contact portion 15c. An inclined portion 17f having a curvature is provided at an abutting portion that abuts on the rim. Note that the inclined portion 17f may not have a curvature.
[0059]
In such an electromagnetic relay, in addition to the effects of the first embodiment, the operation portion 17b in which the inclined portion 17f is provided at the abutting portion that abuts on the abutting portion 15c has a contact with the abutting portion 15c. When it is displaced in a direction perpendicular to the pressing direction so that the contact state is released, it can be smoothly displaced while in contact with the contact portion 15c, so that the contact between the operation portion 17b and the contact portion 15c It is easy to release the contact state.
[0060]
Next, a third embodiment of the present invention will be described below based on FIG. In addition, the same code | symbol is attached | subjected to the member which has a function substantially the same as 1st Embodiment, and only the difference from 1st Embodiment is described. In the first embodiment, the abutting portion 15c protrudes from the facing portion 15a of the case 15, whereas in this embodiment, the abutting portion 15c protrudes from the distal end in the extending direction of the spring portion 17d of the operating portion 17b. It is configured.
[0061]
Such an electromagnetic relay can achieve the same effects as those of the first embodiment.
[0062]
Next, a fourth embodiment of the present invention will be described below based on FIG. In addition, the same code | symbol is attached | subjected to the member which has a function substantially the same as 3rd Embodiment, and only the place different from 3rd Embodiment is described. This embodiment is basically the same as the third embodiment, except that the facing portion 15a is provided with an engaging portion 15e formed of a concave portion having a substantially semicircular cross section that engages with the abutting portion 15c. It has become.
[0063]
In such an electromagnetic relay, the contact state is stabilized when the engagement portion 15e provided on the other side that is in contact with the contact portion 15c is engaged with the contact portion 15c. Thus, the effect of the first embodiment that the contact portion 20 does not cause a contact failure can be stably achieved.
[0064]
Further, as in the third embodiment, it is not necessary to perform a manual operation to return, the pressing operation itself becomes easy, there is no mistaken operation, the spring portion 17d is not easily damaged, and the contact The display operation for displaying the contact / separation state of the part 20 can be adjusted to execute, the life of the flexible part 16c can be extended, and the assembly work is facilitated.
[0065]
In the first to fourth embodiments, the operation portion 17b is provided with a spring portion 17d having elasticity along the pressing direction. However, as shown in FIGS. 13 and 14, the operation portion 17b is also shown in FIG. Thus, even if the spring portion 17d is not provided, the displacement of the operation portion 17b toward the facing portion 15a is restricted by the contact portion 15c. Therefore, there is an effect that the contact portion 20 does not cause a contact failure due to the wear powder. However, as shown in FIGS. 13 and 14 and as shown in FIG. 15, when the operation portion 17b is not provided with the spring portion 17d, the pressing operation is performed while performing the rotation operation.
[0066]
In the fourth embodiment, the contact portion 15c is provided on the spring portion 17d of the operation portion 17b, and the engagement portion 15e is provided on the facing portion 15a of the case 15, as shown in FIG. Even if the contact portion 15c is provided on the facing portion 15a of the case 15, and the engagement portion 15e is provided on the spring portion 17d of the operation portion 17b, the engagement portion 15e is engaged with the contact portion 15c. Since the contact state is stabilized, the same effect can be obtained.
[0067]
Further, in the first to fourth embodiments, the member that does not generate wear powder even if placed in contact with the penetrating portion 17a of the switch 17 is the wall portion 15b of the case 15, but is limited to the wall portion 15b of the case 15. It is not a thing.
[0068]
【The invention's effect】
The invention according to claim 1 Opposing part The abutment projecting on the Spring part Since the operation part is restricted from being displaced toward the opposing part by abutting on the switch, the switch itself does not displace in the pressing direction when it is not pressed. Even if it is placed in contact with the contact, there will be no friction with other members placed in contact with it, and no wear powder will be generated with the friction. No waking.
[0069]
Claim 1 The invention described is the above In addition to the effect of the invention, the spring portion having elasticity along the pressing direction returns to the state before pressing when the pressing is released during pressing, so that it is not necessary to perform a manual operation to return. .
[0070]
Claim 1 The invention described is the above In addition to the effect of the present invention, the spring portion that is elastically deformed within the range of the thickness dimension of the operation portion protrudes locally from the operation portion in the thickness direction even when elastically deformed by contact with the contact portion. Since there is no, there is no chance that the finger will accidentally touch it and it will not be erroneously operated.
[0072]
Claim 2 In addition to the effect of the invention described in claim 1, the invention described in claim 1 is such that the operating portion in which the inclined portion is provided in the contact portion that contacts the contact portion is released from the contact state with the contact portion. Thus, when it is displaced in the direction perpendicular to the pressing direction, it can be smoothly displaced while being in contact with the contact portion, so that the operation for releasing the contact state between the operation portion and the contact portion is easy. Become.
[0073]
Claim 3 In addition to the effect of the invention of the first aspect, the described invention performs a display operation of displaying the contact / separation state of the contact portion through the through portion provided in the case by appropriately deforming the deformable flexible portion. Can be adjusted to run.
[0074]
Claim 4 The invention described is Claim 3 In addition to the effects of the described invention, the flexible portion is made of metal having a strength stronger than that of a molding material such as plastic, so that even if it is deformed many times for adjustment, it does not deteriorate from the deformed portion. , Can extend the life.
[0075]
In the invention according to claim 5, in addition to the effect of the invention according to claim 1, the display member restricts the insertion portion inserted into the fitting portion from being pulled out by the restricting portion. The insertion portion can be fitted, and as a result, assembly work is facilitated.
[Brief description of the drawings]
FIG. 1 is a front sectional view of a first embodiment of the present invention.
FIG. 2 is a side sectional view of the above.
FIG. 3 is a plan view of the same.
FIG. 4 is a front sectional view when the switch of the above is operated.
FIG. 5 is a side cross-sectional view when the switch of the above is operated.
FIG. 6 is a plan view when the switch of the above is operated.
FIG. 7 is a front view showing a state in which the insertion part of the movable member is inserted into the fitting part of the display member.
FIG. 8 is a partial front sectional view showing a spring portion of the switch.
FIG. 9 is a partial front sectional view showing a state where a spring portion of the switch is pressed.
FIG. 10 is a partial front sectional view showing a spring portion of a switch according to a second embodiment of the present invention.
FIG. 11 is a partial front sectional view showing a spring portion of a switch according to a third embodiment of the present invention.
FIG. 12 is a partial front sectional view showing a spring portion of a switch according to a fourth embodiment of the present invention.
FIG. 13 is a plan view of a switch that is not provided with a spring portion in the operation portion.
14 is a partial plan sectional view of FIG. 13;
FIG. 15 is a partial front view showing a state in which a contact part provided in an operation part not provided with a spring part comes into contact with a facing part.
FIG. 16 is a partial front cross-sectional view showing a state in which an engagement portion is provided on the spring portion of the operation portion.
FIG. 17 is a front sectional view of a conventional example.
FIG. 18 is a plan view of the above.
[Explanation of symbols]
1 Iron core
1a Magnetic pole part
3 coils
5 Armature
8 Movable parts
8c plug
15 cases
15c Contact part
15d penetration
15e engagement part
16 Display material
16b Flexible part
16e mating part
16f Regulatory Department
16g display
17 switch
17b Operation unit
17d Spring part
17f Inclined part
20 Contact part

Claims (5)

An iron core in which a coil is wound and provided with a magnetic pole part, an armature that is driven by being attracted to and separated from the magnetic pole part of the iron core, a contact part that is contacted and separated by driving the armature, and an armature A switch having an operating portion that extends in a direction intersecting the pressing direction, and a case having a facing portion facing the operating portion at the bottom. In the provided electromagnetic relay,
The operation portion is provided with a constant thickness portion having a constant thickness, and a spring portion extending in a direction opposite to the extending direction of the constant thickness portion, and having elasticity along the pressing direction. In the part, a contact part that can come into contact with the spring part when the operation part is not pressed is projected toward the spring part ,
The spring portion is provided such that the thickness dimension of the extending portion in the opposite direction is locally thinner than the thickness dimension of the constant thickness portion, and the spring portion is opposed to the facing portion of the case. The facing surface is located on the same plane as the constant thickness portion, and is elastically deformed within the range of the thickness dimension so that the extending direction front end portion does not protrude from the opposite surface opposite to the facing surface. electromagnetic relay, characterized in that the. The contact portion is provided at the facing portion, and the contact state is released when the operation portion is displaced in a direction orthogonal to the pressing direction. The electromagnetic relay according to claim 1, wherein an inclined portion is provided at a contact portion that contacts the contact portion. A display member having a display unit for executing a display operation for displaying the contact / separation state of the contact part through a through part provided in the case is provided, and the display member is a deformable flexible part The electromagnetic relay according to claim 1, further comprising: The electromagnetic relay according to claim 3, wherein the flexible portion is made of metal. A display member having a display unit for executing a display operation for displaying the contact / separation state of the contact part through a through part provided in the case is provided, and a movable member movable according to the contact / separation state of the contact part A fitting portion that is provided with an insertion portion and that fits the inserted insertion portion is provided in the display member, and the display member allows the inserted insertion portion to be removed. The electromagnetic relay according to claim 1, wherein a restriction portion for restriction is provided in the fitting portion.

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