JP3819051B2 - Electromagnetic switch - Google Patents

Description

[0001]
[Industrial application fields]
The present invention relates to an electromagnetic switch used to bring an external circuit into a conductive state or a cut-off state by exciting a solenoid coil with an exciting current.
[0002]
[Prior art]
As an electromagnetic switch that energizes the solenoid coil with the excitation current to turn on or off the external circuit, when the excitation current is supplied to the solenoid coil, the plunger is attracted and moved by the magnetic force generated by the solenoid coil. Since the movable contact is connected to the two fixed contacts from the separated state by the movement of the plunger, it is known that each external circuit electrically connected to the fixed contact is in a conductive state. When the supply of the excitation current to the solenoid coil is stopped, the plunger moves back to the side that separates the movable contact from the fixed contact, so that the external circuit is cut off. Excitation current is supplied from the power supply external wiring soldered to the coil terminal arranged outside the case, and the coil terminal is provided in a part of the case and arranged at the bottom of the bottomed square hole with walls on all sides. After soldering the power supply external wiring in the square hole, an insulating agent is put in the square hole to insulate the connection portion between the coil terminal and the power supply external wiring. Such an electromagnetic switch is incorporated in the start circuit of the engine, and supplies current to the starter motor while the ignition key switch is in the start position.
[0003]
[Problems to be solved by the invention]
In the conventional electromagnetic switch described above, the coil terminal is provided at a part of the case, and is disposed at the bottom of the bottomed square hole having walls on all sides, and is connected to the external wiring for power supply at the back of the square hole. If the connection is not made, the connection part cannot be insulated, and soldering in a relatively small square hole is troublesome, and the connection cannot be easily performed. It is difficult to say that the side portions are not damaged, and it has been desired to have a structure that improves workability.
[0004]
OBJECT OF THE INVENTION
An object of the electromagnetic switch according to the present invention is to provide an electromagnetic switch capable of extremely easily and reliably connecting a power supply external wiring to a solenoid coil.
[0005]
[Structure of the invention]
[0006]
[Means for Solving the Problems]
According to a first aspect of the present invention, there is provided an electromagnetic switch having a case, a bobbin in which the plunger is movably accommodated in the plunger moving part, and wound around the bobbin and connected to a connection part of the external wiring for power supply. A solenoid coil that attracts and moves the plunger by being supplied with an exciting current through a connecting portion, a movable contact that is arranged so as to be in contact with the plunger and moves integrally with the plunger, and movement of the movable contact a first stationary contact and a second fixed contact which is electrically connected with placed inside of the case, respectively, a first external terminal connected to said first fixed contact, a second fixed a second external terminal connected to the contact, the source connected to the connection portion of the power supply for the external wiring for supplying power to the solenoid coil And a connecting portion of Noidokoiru respectively disposed outside of the case, further, in the above case, the side and upper power supply external wire are arranged respectively to form an open ended recess insulating material, the insulating The connecting portion of the power supply external wiring and the connecting portion of the solenoid coil are embedded by an insulating agent placed in the concave portion for the agent.
[0007]
In the electromagnetic switch according to claim 2 of the present invention, the case includes an upper case and a lower case. The upper case is integrally provided with a ceiling plate, and a substantially central portion on the ceiling plate is provided. The external terminal mounting portion protruding in a rectangular shape is integrally provided from the first surface on the ceiling plate and the end of the external terminal mounting portion with respect to the first surface. And formed by a first side plate and a second side plate which are formed on both sides of the first surface and the second surface, and are integrated with the upper case. It is said.
[0008]
[Effects of the Invention]
In the electromagnetic switch according to the first aspect of the present invention, the connecting portion of the solenoid coil and the connecting portion of the external power supply wiring are formed by a concave portion for insulating material that opens only on the side where the external power supply wiring is disposed and the upper side . being surrounded. Therefore, the connection between the solenoid coil connection portion and the power supply external wiring connection portion is performed from the side not surrounded by the insulating recess, that is, from the side where the power supply external wiring is provided. After the proper connection, the insulating agent is put into the concave portion for the insulating agent.
[0009]
In the electromagnetic switch according to claim 2 of the present invention, the connecting portion of the solenoid coil and the connecting portion of the external wiring for supplying power are the first surface on the ceiling plate integral with the upper case and the substantially central portion on the ceiling plate. A second surface disposed substantially perpendicular to the first surface at the end of the external terminal mounting portion protruding in a rectangular shape from the first surface, and formed on both sides of the first surface and the second surface. The upper case and the first side plate integrated with the upper case and the second side plate are surrounded by a concave portion for an insulating agent. For this reason, the concave portion for the insulating agent has a structure in which only the side where the power supply external wiring is disposed and the upper side are opened . Therefore, the connection between the solenoid coil connection portion and the power supply external wiring connection portion is performed from the side not surrounded by the insulating recess, that is, from the side where the power supply external wiring is provided. After the proper connection, the insulating agent is put into the concave portion for the insulating agent.
[0010]
【Example】
1 to 3 show an embodiment of an electromagnetic switch according to the present invention.
[0011]
The illustrated electromagnetic switch 1 mainly includes a case 2, a bobbin 3, a first coil terminal 4, a second coil terminal 5, a solenoid coil 6, a plunger 7, a core 8, a movable contact 9, a first fixed contact 10, The second fixed contact 11, the first external terminal 12, and the second external terminal 13 are configured.
[0012]
The case 2 is composed of an upper case 2a and a lower case 2b. The upper case 2a is integrally provided with a ceiling plate 2a2 on an upper portion of a cylindrical main body 2a1, and substantially on the ceiling plate 2a2. An external terminal mounting portion 2a3 protruding in a rectangular shape from the central portion is integrally provided, and hexagonal square holes 2a5, 2a6 are formed on both sides of the protruding plate 2a4 formed in the central portion of the external terminal mounting portion 2a3. Therefore, the first external terminal 12 and the second external terminal 13 are inserted into the square holes 2a5 and 2a6.
[0013]
Further, the main body 2a1 of the upper case 2a is provided with a front side plate 2a8, a rear side plate 2a9, a right side plate (not shown), and a left side plate 2a11 which are arranged substantially at right angles to the upper surface 2a7 of the ceiling plate 2a2. Insulating agent recess 2a12 is formed between front side plate 2a8 and external terminal mounting portion 2a3.
[0014]
The insulating recess 2a12 is disposed on the ceiling plate 2a2 at the first surface 2a13 located on the front side plate 2a8 side, and at the end of the external terminal mounting portion 2a3 at a substantially right angle to the first surface 2a13. The second surface 2a14 is formed by a first side plate 2a15 and a second side plate 2a16 formed on both sides of the first surface 2a13 and the second surface 2a14.
[0015]
The first side plate 2a15 is arranged on the right side plate side of the first surface 2a13 and the second surface 2a14, and the second side plate 2a16 is on the left side plate 2a11 side of the first surface 2a13 and the second surface 2a14. The two side plates 2a15 and 2a16 are formed in a right triangular plate shape between the end of the external terminal mounting portion 2a3 and the front side plate 2a8 side of the ceiling plate 2a2 so as to surround the both sides 2a13 and 2a14. cage, insulating agents recess 2a12 is open only the side and above the insulating agent recesses 2a12 power supply external wire 14, 15 is arranged.
[0016]
And since the 1st terminal hole 2a17 and the 2nd terminal hole 2a18 are each formed in the said 1st surface 2a13 as what connected from the inner side to the outer side of the ceiling board 2a2, each said 1st terminal hole 2a17 is formed. Thus, a first coil terminal 4 to be described later is supported in a protruding state, and a second coil terminal 5 to be described later is supported in a protruding state by the second terminal hole 2a18.
[0017]
The lower case 2b is fixed to the lower ends of the front side plate 2a8, the rear side plate 2a9, the right side plate, and the left side plate 2a11, and the bobbin 3, the first coil terminal 4, and the like inside the main body 2a1 to which the lower case 2b is fixed. A second coil terminal 5, a solenoid coil 6, a plunger 7, a core 8, a movable contact 9, a first fixed contact 10, and a second fixed contact 11 are accommodated.
[0018]
The bobbin 3 is formed of resin, and a plunger moving part 3a having a round hole shape is formed at the center. Therefore, a plunger 7 made of a magnetic material having a round bar shape is movably accommodated in the plunger moving part 3a. Has been.
The bobbin 3 is provided with flanges 3b and 3c, and a solenoid coil 6 around which an enamel wire is wound is provided between the flanges 3b and 3c.
[0019]
The ends of the enameled wire of the solenoid coil 6 are lead portions 6a and 6b constituting a part of the connecting portion, and one of the lead portions 6a and 6b is an outer edge portion of one flange 3b. Is electrically connected to a power supply external wiring fixing portion 4b provided in a first coil terminal 4 to be described later, and the other lead portion 6b is separated from the first coil terminal 4. The second coil terminal 5 attached to the outer edge of the flange 3b by press-fitting is electrically connected to a power supply external wiring fastening portion 5b. Another part of the connection part is constituted by the first coil terminal 4 and the second coil terminal 5.
[0020]
The first coil terminal 4 is provided with a power supply external wiring fixing portion 4b formed in a bifurcated shape on the distal end side of a bobbin mounting portion 4a provided on the proximal end side, and a second coil The terminal 5 is also provided with a power supply external wiring fixing portion 5b formed in a bifurcated shape on the distal end side of the bobbin mounting portion 5a provided on the base end side, and the first coil terminal 4 Since both of the coil terminals 4 and 5 are inserted into the first terminal hole 2a17 from the inside of the case 2 and the second coil terminal 5 is also inserted from the inside of the case 2 into the second terminal hole 2a18. The power supply external wiring fastening portions 4b and 5b protrude into the insulating recess 2a12 and are supported by the first surface 2a13.
[0021]
Since both the coil terminals 4 and 5 project the power supply external wiring fixing portions 4b and 5b into the insulating recess 2a12, respectively, the power supply external wiring fixing portions 4b and 5b allow the power supply external wiring. 14 and 15 has a function of temporarily connecting the connection portions 14a and 15a by sandwiching them, and then electrically connecting the connection portions 14a and 15a to the power supply external wiring fixing portions 4b and 5b by soldering. . Since the external power supply fixing portions 4b and 5b for supplying power to both the coil terminals 4 and 5 have a slight size on the first surface 2a13, they do not protrude toward the opening side of the insulating recess 2a12.
[0022]
The connection of the power supply external wirings 14 and 15 to the power supply external wiring fastening portions 4b and 5b of both the coil terminals 4 and 5 is performed by connecting the first surface 2a13, the second surface 2a14, and the first surface on the case 2 to each other. side plates 2A15, is performed from the second depending on the side plate 2a16 enclosed has a side space at the time of connection is set larger.
[0023]
The insulating agent 20 is placed in the insulating recess 20a12 where the connecting portions 14a, 15a of the power supply external wires 14, 15 are connected to the power supply external wiring fixing portions 4b, 5b of the coil terminals 4, 5. Is applied. As shown in FIG. 3, the insulating agent 20 is provided for the insulating agent by inclining the rear side plate 2 a 9 at an angle θ (approximately 45 degrees that is an angle at which the inclined side is horizontal) with the front side plate 2 a 8 of the case 2 facing upward. With the open side of the recess 2a12 facing upward, in this state, by pouring into the insulating recess 2a12, the external wiring for supplying power to the coil terminals 4 and 5 is secured without flowing out from the insulating recess 2a12. Insulate the outsides of the portions 4b and 5b and the connection portions 14a and 15a of the power supply external wirings 14 and 15. The insulating agent 20 is preferably an epoxy adhesive.
[0024]
Since the first coil terminal 4 is connected to one lead portion 6a of the solenoid coil 6 and the second coil terminal 5 is connected to the other lead portion 6b of the solenoid coil 6, the first coil terminal 4 The solenoid coil 6 is excited by the current flowing through the second coil terminal 5, and the magnetic force generated from the solenoid coil 6 is arranged on the outside of the bobbin 3. In order to flow through the core 8 composed of the second core 8b fixed on the upper side of 8a, the plunger 7 is sucked downward in FIG. Since the plunger 7 is accommodated in the plunger moving part 3 a via the return spring 16, when the solenoid coil 6 is demagnetized, the plunger 7 automatically moves upward in FIG. 2 by the elastic repulsive force of the return spring 16. Move back. A first fixed contact 10 and a second fixed contact 11 are disposed above the plunger 7.
[0025]
The first fixed contact 10 is fixed by caulking to the first external terminal 12 inserted through the O-ring 17 into the square hole 2a5 of the external terminal mounting portion 2a3 provided in the case 2, and the second fixed contact 10 The contact 11 is fixed by caulking to the second external terminal 13 inserted through the O-ring 18 into the square hole 2a6 of the external terminal mounting portion 2a3, and the first fixed contact 10 and the second fixed The contact 11 is arranged at a middle portion with a predetermined gap. A shaft portion 9a provided for the movable contact 9 described later is disposed in the gap.
[0026]
The movable contact 9 has a shaft portion 9 a provided at the center in contact with the upper end of the plunger 7, and a conducting portion 9 b formed as a disk shape on the outer peripheral side of the shaft portion 9 a has a first fixed contact 10. Since the solenoid coil 6 is demagnetized because it is disposed above the second fixed contact 11, both the conducting portions 9 b are caused by the elastic repulsive force of the return spring 19 disposed on the ceiling plate 2 a 2 side of the case 2. When the fixed contacts 10 and 11 are separated from the fixed contacts 10 and 11 and the solenoid coil 6 is energized and attracted against the return spring 19, the conduction portion 9 b is connected to the fixed contacts 10 and 11. , 11 to bring both fixed contacts 10, 11 into a conductive state.
[0027]
The electromagnetic switch 1 having such a structure electrically connects the first external terminal 12 and the second external terminal 13 into the engine starting circuit, and the external power supply wirings 14 and 15 are ignition key switches. Since the ignition key switch is switched from the on position to the start position, a current flows from the first coil terminal 4 to the second coil terminal 5 via the power supply external wires 14 and 15. Flows, the solenoid coil 6 is excited to attract the plunger 7, and when the plunger 7 is attracted, the movable contact 9 is also moved, so that the conducting portion 9b is connected to the first fixed contact 10 and the second fixed contact 11. The first external terminal 12 and the second external terminal 13 are connected to each other so that the fixed contacts 10 and 11 are connected and connected. Supplying a current to the starter motor of the starter circuit as a state.
[0028]
In addition, when the ignition key switch is returned from the start position to the on position, no current flows from the power supply external wires 14 and 15, so the solenoid coil 6 is demagnetized and does not attract the plunger 7, and the movable contact 9 returns. Since the moving portion 9b moves away from the first fixed contact 10 and the second fixed contact 11, the first fixed contact 10 and the second fixed contact 11 are cut off and the first external terminal 12 and the second fixed contact 11 are disconnected. The external terminal 13 of 2 is cut off and the supply of current to the starter motor is stopped.
[0029]
In such use, the connecting portions 14a and 15a of the power supply external wires 14 and 15 and the power supply external wiring fixing portions 4b and 5b of the coil terminals 4 and 5 are embedded in the insulating recess 2a12. In this state, the case 20 is insulated by the insulating agent 20, so that even if a water droplet or the like is applied to the case 2, the cause of energization failure due to rust or the like is not caused.
[0030]
【The invention's effect】
As described above, according to the electromagnetic switch according to the first aspect of the present invention, the connection portion of the solenoid coil and the connection portion of the external power supply wiring are arranged on the side where the external power supply wiring is disposed and the upper side. surrounded only by the opened insulating agent recess, connection between the connection portion of the connection portion of the solenoid coil and the power supply external wiring side not surrounded by a recess insulating material, i.e. the power supply external wiring distribution The insulating agent is put into the concave portion for the insulating agent after the electrical connection is made from the provided side . Therefore, the flexibility of the space is given to the connection between the solenoid coil and the external wiring for power supply, and the connection of the external wiring for power supply to the solenoid coil can be performed very easily and reliably . There is an effect. According to the electromagnetic switch according to claim 2 of the present invention, the connecting portion of the solenoid coil and the connecting portion of the external wiring for power supply are substantially the first surface on the ceiling plate integrated with the upper case, and substantially on the ceiling plate. A second surface arranged at a right angle to the first surface at the end of the external terminal mounting portion protruding in a rectangular shape from the central portion, on both sides of the first surface and the second surface It is formed and surrounded by a concave portion for an insulating agent formed by a first side plate and a second side plate integrated with the upper case. For this reason, the concave portion for the insulating agent has a structure in which only the side where the external wiring for power supply is disposed and the upper side are opened, and the connection between the connecting portion of the solenoid coil and the connecting portion of the external wiring for power supply is the insulating agent. This is performed from the side not surrounded by the concave portion for use , that is, from the side where the external wiring for power supply is provided, and after the electrical connection, the insulating agent is put into the concave portion for the insulating agent. Therefore, the flexibility of the space is given to the connection between the solenoid coil and the external wiring for power supply, and the connection of the external wiring for power supply to the solenoid coil can be performed very easily and reliably. There is an effect.
[Brief description of the drawings]
FIG. 1 is an external perspective view of an embodiment of an electromagnetic switch according to the present invention.
FIG. 2 is an external perspective view for explaining an assembly relationship of components in the electromagnetic switch shown in FIG.
FIG. 3 is a partially longitudinal side view of the electromagnetic switch shown in FIG. 1 when an insulating agent is poured.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Electromagnetic switch 2 Case 2a Upper case 2b Lower case 2a2 Ceiling board 2a3 External terminal attaching part 2a12 Indentation recessed part 2a13 1st surface 2a14 2nd surface 2a15 1st side plate 2a16 2nd side plate 3 Bobbin 3a Plunger moving part 4 (Connection part) Coil terminal (1st coil terminal)
4b External wiring fixing part 5 for power supply (connection part) Coil terminal (second coil terminal)
5b Power supply external wiring fixing part 6 Solenoid coil 7 Plunger 9 Movable contact 10 First fixed contact 11 Second fixed contact 12 First external terminal 13 Second external terminal 14 Power supply external wiring 14a connection part 15 Power supply external wiring 15a connection part 20 Insulating agent

Claims (2)

A bobbin having a case and movably accommodated in the plunger moving part and wound around the bobbin and supplied with an exciting current via a connecting part connected to the connecting part of the external power supply wiring A solenoid coil for sucking and moving the plunger, a movable contact disposed so as to contact the plunger, and moving integrally with the plunger, and a first fixed contact electrically connected by movement of the movable contact and a and a second fixed contact, as well as placed inside of the case, respectively, a first external terminal connected to said first fixed contact, a second external terminal connected to the second fixed contact, The solenoid coil connecting portion connected to the connecting portion of the power supply external wiring for supplying power to the solenoid coil Arranged outside of the case, further, in the above case, the side and upward the power supply external wire is arranged to form an open recess insulating agent, respectively, with an insulating agent placed in the recess for the insulating agent An electromagnetic switch comprising a connecting portion of the external power supply wiring and a connecting portion of the solenoid coil. The case is composed of an upper case and a lower case. The upper case is integrally provided with a ceiling plate, and an external terminal mounting portion protruding in a rectangular shape from a substantially central portion on the ceiling plate is integrated. The insulating recess is provided with a first surface on the ceiling plate, and a second surface disposed substantially perpendicular to the first surface at an end of the external terminal mounting portion. 2. The electromagnetic switch according to claim 1, wherein the electromagnetic switch is formed by a first side plate and a second side plate that are formed on both sides of the first surface and the second surface and are integrated with the upper case. .

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