JP5578257B1 - Electromagnetic switch device for starter - Google Patents

Abstract

PROBLEM TO BE SOLVED: To improve heat dissipation of a coil of an electromagnetic switch in an electromagnetic switch device for a starter in which an electromagnetic switch and a solenoid are arranged in series in an axial direction.
A starter electromagnetic switch 13 according to the present invention has a solenoid 9 housed on the other axial end side in a case 15 and an electromagnetic switch 12 housed on one axial end side. After the winding start side lead wire 17a of the coil 17 passes through the inside of the second bobbin 32 in the axial direction and is pulled out through the insertion hole 32e of the second bobbin 32 to the one end side in the axial direction, 1 It is electrically connected to the external connection terminal 36. Thereby, the space | gap between the 2nd coil 24 and the case 15 can be made small, and the efficiency of the thermal radiation which the 2nd coil 24 which generate | occur | produced by electricity supply through the case 15 can be improved.
[Selection] Figure 5

Description

  The present invention relates to an electromagnetic switch device for a starter used for a starter for starting an engine mounted on, for example, an automobile.

In recent years, vehicles with an engine are installed to automatically stop the engine when the engine output is not needed for the purpose of improving fuel efficiency, etc., and to automatically restart the engine when the engine output is needed. An idle stop system is being adopted.
This idle stop system, for example, when the vehicle is temporarily stopped due to a signal stop or traffic jam at an intersection, the fuel supply to the engine is cut and the engine is automatically stopped, and then the driver performs a start operation (for example, When the restart condition is satisfied by performing a brake pedal release operation, a shift operation to the drive range, or the like, the starter is automatically activated to restart the engine.

As a starter corresponding to this idle stop system, one described in Patent Document 1 is known.
The electromagnetic switch device used in the starter described in Patent Document 1 has an electromagnetic switch for opening and closing the main contact of the motor circuit and a solenoid for pushing the pinion gear to the engine side. When the engine is restarted, the pinion gear and the ring gear can always be engaged in an optimal state by energizing the switch coil of the electromagnetic switch at a predetermined timing after energizing the solenoid exciting coil. .
Moreover, since the electromagnetic switch device described in Patent Document 1 is integrally configured by arranging the electromagnetic switch and the solenoid in series in the axial direction, the lead wire of the excitation coil of the solenoid is connected to the switch of the electromagnetic switch. The electromagnetic switch device is miniaturized by extending to the resin cover through the outer periphery of the coil.

JP 2010-230013 A

Here, in the electromagnetic switching device described in Patent Document 1, since the lead wire of the excitation coil passes through the outer periphery of the switch coil, the insulation between the lead wire of the excitation coil and the switch coil, and the lead wire of the excitation coil and the switch case It was necessary to ensure insulation.
For this purpose, the lead wire of the exciting coil passes through the outer periphery of the switch coil while being held by a lead wire holding member provided integrally with the bobbin of the exciting coil. In order to secure a space for arranging the lead wire holding member. In addition, it is necessary to increase the radial gap between the switch coil and the switch case, and there is a problem in that the efficiency of heat radiation performed by the switch coil that generates heat due to energization through the switch case is deteriorated.

  The present invention has been made to solve the above problems, and in a starter electromagnetic switch device in which an electromagnetic switch and a solenoid are arranged in series in the axial direction, the heat dissipation of the coil of the electromagnetic switch is improved. It is an object of the present invention to provide an electromagnetic switch device for a starter that can be used.

  An electromagnetic switch device for a starter according to the present application has a first coil that forms an electromagnet by energization, a solenoid that pushes a starter pinion to the ring gear side of the engine using the attractive force of the first coil, and an electromagnet by energization An electromagnetic switch that opens and closes a main contact provided in the motor circuit of the starter by using the attractive force of the second coil, and one end side in the axial direction is open, and the bottom surface is on the other end side. A case in which the solenoid is housed on the other end side in the axial direction and the electromagnetic switch is housed on the one end side in the axial direction; and an external connection electrically connected to the first coil A resin cover that holds the terminal and is fixed to one end side in the axial direction of the electromagnetic switch, and the one lead wire of the first coil is located inside the inner periphery of the second coil. It, is characterized in that it is connected to the external connection terminal.

  According to the starter electromagnetic switch device according to the present application, one lead wire of the first coil passes through the inside from the inner periphery of the second coil to the one end side in the axial direction and is electrically connected to the external connection terminal. Has been. For this reason, since one lead wire of the first coil does not lead to the one end side in the axial direction through the outer periphery of the second coil, the gap between the second coil and the case can be reduced, The efficiency of heat dissipation performed by the second coil that generates heat through energization through the case can be improved.

It is a fragmentary sectional view of the starter which mounts the electromagnetic switch device for starters concerning Embodiment 1 of the present invention. It is a connection diagram of the starter which mounts the electromagnetic switch device for starters concerning Embodiment 1 of the present invention. It is the figure which looked at the electromagnetic switch device for starters concerning Embodiment 1 of the present invention from the resin cover side (axial direction one end side). It is sectional drawing in the AA arrow of FIG. 3 in the electromagnetic switch apparatus for starters which concerns on Embodiment 1 of this invention. It is sectional drawing in the BB arrow of FIG. 3 in the electromagnetic switch apparatus for starters which concerns on Embodiment 1 of this invention. It is the figure which looked at the 1st bobbin of the solenoid in the electromagnetic switch apparatus for starters concerning Embodiment 1 of this invention from the resin cover side (one axial direction side). It is sectional drawing in CC arrow of FIG. 5 in the electromagnetic switch apparatus for starters which concerns on Embodiment 1 of this invention. It is the figure which looked at the 2nd bobbin of the electromagnetic switch in the electromagnetic switch apparatus for starters concerning Embodiment 1 of this invention from the resin cover side (one axial direction side). It is the figure which looked at the 2nd bobbin of the electromagnetic switch in the electromagnetic switch apparatus for starters concerning Embodiment 1 of this invention from the bottom part side (axial direction other end side) of the case. It is sectional drawing in the DD arrow of FIG. 5 in the electromagnetic switch apparatus for starters which concerns on Embodiment 1 of this invention.

Embodiment 1 FIG.
FIG. 1 is a partial cross-sectional view of a starter equipped with the starter electromagnetic switch device according to Embodiment 1 of the present invention, and FIG. 2 is a connection diagram of the starter equipped with the starter electromagnetic switch device according to Embodiment 1 of the present invention. 3 is a view of the electromagnetic switch device for starter according to the first embodiment of the present invention as viewed from the resin cover side (one axial end side), and FIG. 4 is an electromagnetic switch device for starter according to the first embodiment of the present invention. FIG. 5 is a cross-sectional view taken along line BB in FIG. 3 in the electromagnetic switch device for starter according to Embodiment 1 of the present invention. In addition, in each figure, the same code | symbol shows the same part.
In each of these drawings, a starter 1 includes a motor 3 that generates a rotational force when energized from a battery 2, an output shaft 4 that extracts the rotational force from the motor 3, and an output that is slidable in the axial direction on the output shaft 4. An overrunning clutch 5 to which the rotational force of the motor 3 is transmitted from the shaft 4, a pinion 7 for transmitting the rotational force of the motor 3 transmitted to the overrunning clutch 5 to the ring gear 6 of the engine, and a main contact 8 constituting a motor circuit And an electromagnetic switch 9 that opens and closes the main contact 8 and a solenoid 12 that is arranged coaxially with the electromagnetic switch 9 and moves the pinion 7 in the direction of the ring gear 6 via a shift lever 11 that engages with the hook 10. The starter electromagnetic switch device 13 is provided.

The starter 1 having the starter electromagnetic switch device 13 is applied to, for example, a vehicle equipped with an idle stop system that automatically controls stop and restart of the engine. The electronic control device 14 operates the electromagnetic switch 9 and the solenoid 12. It is configured so that the operation can be controlled independently.
Note that the key switch 14 a is connected between the battery 2 and the electronic control device 14.

Next, the configuration of the starter electromagnetic switch device 13 will be described. The starter electromagnetic switch device 13 is roughly divided into a case 15 that forms a magnetic circuit, a solenoid 12, and an electromagnetic switch 9.
The case 15 forms the yoke of the electromagnetic switch 9 and also forms the yoke of the solenoid 12. The case 15 has a bottomed cylindrical shape that is open on one end side in the axial direction and has a bottom surface 15a on the other end side, and is connected to the front bracket of the starter 1 via two bolts (not shown) attached to the bottom surface 15a. 16 is fixed.

  The solenoid 12 and the electromagnetic switch 9 are accommodated in this order from the opening side of the case 15, in other words, the solenoid 12 and the electromagnetic switch 9 are arranged on the bottom surface 15a side of the case 15, as shown in FIG. The electromagnetic switch 9 is housed on the side, and both are arranged in series in the axial direction (the vertical direction in the figure) and are integrally configured.

The solenoid 12 is movable in the axial direction (vertical direction in FIG. 4) along the inner periphery of the first coil 17, the first fixed iron core 18 that is magnetized by energizing the first coil 17, and the first coil 17. It is comprised from the 1st movable iron core 19 grade | etc.,.
The first coil 17 is formed by being wound around a first bobbin 20 made of resin, and one coil end is connected to a first external connection terminal 36 (described later) as a winding start side lead wire 17a, and the other The coil end of the coil is grounded via the case 15 as a winding end side lead wire 17b.
The drawing structure of the winding start side lead wire 17a and the winding end side lead wire 17b of the first coil 17 and the detailed shape of the first bobbin 20 related thereto will be described later.

The first fixed iron core 18 is disposed in contact with a flange portion 20 a formed on the opening side of the case 15 in the first bobbin 20, and a part of the first fixed iron core 18 is further arranged on the inner periphery of the first bobbin 20. The first bobbin 20 is held by being press-fitted into the surface.
In addition, a buffer member 21 is attached to the end surface on the bottom 15a side of the case 15 in the first fixed iron core 18, and the collision sound generated when the magnetized first movable iron core 19 collides with the buffer member 21 is reduced. Or generation | occurrence | production of the collision sound itself can be prevented.

When the first fixed iron core 18 is magnetized by energization of the first coil 17, the first movable iron core 19 resists the reaction force of the return spring 22 disposed between the first movable iron core 18 and the first movable iron core 19. When the first coil 17 is attracted to the 1 fixed iron core 18 and energization to the first coil 17 is stopped, the return spring 22 is pushed back to the original position.
The first movable iron core 19 is formed in a substantially cylindrical shape having a cylindrical hole in the radial center portion, and the hook 10 for transmitting the movement of the first movable iron core 19 to the shift lever 11 is provided in the cylindrical hole. A drive spring 23 for storing a reaction force for meshing the pinion 7 with the ring gear 6 is inserted.

  The electromagnetic switch 9 includes a second coil 24, a second fixed iron core 25 and a magnetic plate 26 that are magnetized by energizing the second coil 24, and an inner periphery of the second coil 24 and an inner periphery of the magnetic plate 26. A second movable iron core 27 that is movable in the center direction (vertical direction in FIG. 4), a resin cover 28 that is assembled by closing an opening on one end side of the case 15, and the like are disposed inside the resin cover 28. A pair of fixed contacts 29 and 30 and a movable contact 31 constituting the main contact 8 connected to the motor 3 are arranged.

The second coil 24 is formed by being wound around a resin-made second bobbin 32, and one coil end is connected to a second external connection terminal 37 (described later) as a winding start side lead wire 24a, and the other The coil end of the coil is grounded via the case 15 as a winding end side lead wire 24b.
As shown in FIGS. 4 and 5, the inner diameter of the second coil 24 is configured to be larger than the inner diameter of the first coil 17 described above.
The lead structure of the winding start side lead wire 24a and the winding end side lead wire 24b of the second coil 24 and the detailed shape of the second bobbin 32 related thereto will be described later.

The second fixed iron core 25 is disposed in contact with a flange portion 32 a formed on one end side in the axial direction of the second bobbin 32, and a part of the second fixed iron core 25 is an inner peripheral surface of the second bobbin 32. Is held by the second bobbin 32.
Further, a rod 38, which will be described later, is inserted into the center portion of the second fixed iron core 25 so as to be slidable in the axial direction, and the second movable iron core 27 is in contact with the end surface on the other axial end side of the rod 38. It is arranged by.

  Similarly to the second fixed iron core 25, the magnetic plate 26 is a member magnetized by the excitation of the second coil 24, and is in contact with the flange portion 32 b formed on the other axial end side of the second bobbin 32. Is arranged in.

  The spacer 33 is disposed between the electromagnetic switch 9 and the solenoid 12, particularly between the magnetic plate 26 and the first fixed iron core 18, and holds the magnetic plate 26 and the second movable iron core 27 in the axial direction.

The resin cover 28 is assembled with two terminal bolts 34, 35, inserted into the inner periphery of the opening of the case 15, and in contact with the end face of the second fixed iron core 25 on one end side in the axial direction. The case 15 is fixed to the case 15 by caulking the opening.
In addition, the resin cover 28 is electrically connected to the first external connection terminal 36 electrically connected to the winding start side lead wire 17a of the first coil 17, and to the winding start side lead wire 24a of the second coil 24. And a second external connection terminal 37 connected to the.
The first external connection terminal 36 and the second external connection terminal 37 are electrically connected to the electronic control unit 14.

  The two terminal bolts 34 and 35 are a B terminal bolt 34 connected to the high potential side (battery 2 side) of the motor circuit and an M terminal bolt 35 connected to the low potential side (motor 3 side) of the motor circuit. The pair of fixed contacts 29 and 30 are formed on the heads of the two terminal bolts 34 and 35, but may be fixed contacts separate from the two terminal bolts 34 and 35. it can.

The movable contact 31 is attached to the second movable iron core 27 or is slidably held by a rod 38 provided integrally with the second movable iron core 27. A contact pressure spring 39 is disposed on the outer periphery of the rod 38 between the second movable iron core 27 and the movable contact 31.
A return spring 40 is disposed between the resin cover 28 and the movable contact 31 to urge the movable contact 31 in a direction away from the pair of fixed contacts 29 and 30.

Next, the lead-out structure of the winding end side lead wire 17b of the first coil 17 will be described.
6 is a view of the first bobbin of the solenoid in the starter electromagnetic switch device according to the first embodiment of the present invention as seen from the resin cover side (one axial end side), and FIG. 7 is a starter according to the first embodiment of the present invention. It is sectional drawing in CC arrow of FIG.
On the flange portion 20a of the first bobbin 20, the winding start side lead wire 17a and the winding end side lead wire 17b of the first coil 17 are provided at positions where the insertion grooves 20b through which they are inserted are opposed to each other by 180 °, Around each insertion groove 20b, a lead portion 20c that pulls out and holds the winding start side lead wire 17a and the winding end side lead wire 17b of the first coil 17 to the resin cover 28 side protrudes toward one end in the axial direction. Is formed.
As shown in FIGS. 5 to 7, the insertion groove 20b is formed on the outermost side of the first coil 17 in order to draw out the winding start side lead wire 17a of the first coil 17 in a substantially linear shape in the axial direction. It is provided over the vicinity of the inner diameter portion.

As shown in FIG. 7, this lead-out portion 20c engages with a notch 18a formed in the first fixed iron core 18, and in addition, after passing through the spacer 33 in the axial direction as shown in FIG. The plate 26 is also engaged.
Furthermore, a protruding portion 20d that protrudes further from the opening portion 20c toward the one end side in the axial direction is formed on a part of the protruding portion 20c (in the first embodiment, the innermost peripheral side of the protruding portion 20c). And an engaging portion 32f (described later) formed on the flange portion 32b of the second bobbin 32 disposed on the one axial end side of the magnetic plate 26 engages.

  As shown in FIG. 7, the winding end side lead wire 17b of the first coil 17 is drawn to the lead portion 20c through the insertion groove 20b, and is electrically and mechanically connected to the end surface of the first fixed iron core 18 on one end side in the axial direction. Fixed.

Next, the lead structure of the winding start side lead wire 24a and the winding end side lead wire 24b of the second coil 24 will be described.
FIG. 8 is a view of the second bobbin of the electromagnetic switch in the electromagnetic switch device for starter according to the first embodiment of the present invention as seen from the resin cover side (one axial end side), and FIG. 9 relates to the first embodiment of the present invention. The figure which looked at the 2nd bobbin of the electromagnetic switch in the electromagnetic switch apparatus for starters from the bottom part side (axial direction other end side) of a case, FIG. 10: D of FIG. 5 in the electromagnetic switch apparatus for starters which concerns on Embodiment 1 of this invention It is sectional drawing in -D arrow view.
On the flange portion 32a of the second bobbin 32, there are provided insertion grooves 32c through which the winding start side lead wire 24a and the winding end side lead wire 24b of the second coil 24 are respectively inserted at positions facing each other by 180 °. Around the insertion groove 32c through which the winding end side lead wire 24b of the second coil 24 is inserted, a lead-out portion 32d for drawing the winding end side lead wire 24b of the second coil 24 to the resin cover 28 side is on one end side in the axial direction. Protrusively formed.

This lead portion 32d engages with a notch (not shown) provided in the second fixed iron core 25, and as shown in FIG. 10, the winding of the second coil 24 drawn to the lead portion 32d through the insertion groove 32c. The end-side lead wire 24 b is electrically and mechanically fixed to the end surface on the one end side in the axial direction of the second fixed iron core 25.
The flange portion 32a of the second bobbin 32 is provided with an insertion hole 32e for drawing out the winding start side lead wire 17a of the first coil 17 to the resin cover 28 side.

  The winding start side lead wire 24a of the second coil 24 is drawn out to the flange portion 32a of the second bobbin 32 through the insertion groove 32c, and then formed separately from the second bobbin 32 as shown in FIG. At the same time, it is pulled out to the outside of the resin cover 28 while being held by the holding member 41 that engages both the resin cover 28 and the second fixed iron core 25, and is electrically connected to the second external connection terminal 37. The

As shown in FIG. 9, the flange portion 32 b of the second bobbin 32 is formed with an engaging portion 32 f that engages with the protruding portions 20 d of the two lead portions 20 c formed on the flange portion 20 a of the first bobbin 20. Has been.
The one engaging portion 32f and the insertion hole 32e described above are formed coaxially, and the winding start side lead wire 17a of the first coil 17 drawn from the lead-out portion 20c of the first bobbin 20 is inserted. The resin cover 28 can be pulled out through the hole 32e.

Next, the lead-out structure of the winding start side lead wire 17a of the first coil 17 which is a feature of the present invention will be described.
As shown in FIG. 5, in a state where the electromagnetic switch 9 and the solenoid 12 are assembled in the case 15, the lead-out portion 20 c formed in the flange portion 20 a of the first bobbin 20 is a notch portion of the first fixed iron core 18. 18a, and the protruding portion 20d of the lead portion 20c and the engaging portion 32f of the flange portion 32b of the second bobbin 32 are engaged.
The winding start side lead wire 17a of the first coil 17 drawn out from the lead-out portion 20c of the first bobbin 20 is connected to the engaging portion 32f of the flange portion 32b of the second bobbin 32 and further to the flange portion 32a of the second bobbin 32. It is pulled out to the flange portion 32a of the second bobbin 32 through the insertion hole 32e. Thereafter, as shown in FIGS. 5 and 6, the second bobbin 32 is formed separately from the second bobbin 32 and is held by the holding member 41 that engages both the resin cover 28 and the second fixed core 25. The resin cover 28 is pulled out to the outside and electrically connected to the first external connection terminal 36.
In the present embodiment, the holding member 41 is separated from the second bobbin 32, but the holding member 41 may be formed integrally with the second bobbin 32.
Thus, the winding start side lead wire 17a of the first coil 17 extends substantially linearly in the axial direction and is drawn out to the outside of the resin cover 28, thereby being arranged on the inner side of the inner periphery of the second coil 24. It will be.

Next, operations of the solenoid 12 and the electromagnetic switch 9 will be described. First, regarding the operation of the electromagnetic switch 9, when a current flows through the second coil 24, a magnetic field is generated. Then, the attractive force acting on the second movable iron core 27 overcomes the return spring 40 and the contact pressure spring 39, and the second movable iron core 27 is attracted to the second fixed iron core 25.
Since the rod 38 is in contact with the end surface of the second movable iron core 27 on the one end side in the axial direction, the rod 38 moves together when the second movable iron core 27 moves in the direction of the second fixed iron core 25. When the rod 38 moves, the movable contact 31 held by the rod 38 also moves, and when the second movable iron core 27 moves by a predetermined amount, the movable contact 31 comes into contact with a set of fixed contacts 29 and 30.

Further, when the second movable iron core 27 moves in the direction of the second fixed iron core 25, the load of the contact pressure spring 39 is applied between the movable contact 31 and the pair of fixed contacts 29 and 30. When the movable contact 31 and the pair of fixed contacts 29 and 30 come into contact with each other, electric power is supplied from the battery 2 to the motor 3 and the motor 3 rotates.
When the energization of the second coil 24 is stopped, the magnetic field disappears, and the rod 38 and the second movable iron core 27 return to their original positions by the load of the return spring 40 and the contact pressure spring 39, so the movable contact 31 and a pair of fixed contacts 29 and 30 are separated, and the power supply from the battery 2 is lost, so the motor 3 stops.

Next, the operation of the solenoid 12 will be described. When a current flows through the first coil 17, a magnetic field is generated. Then, the attractive force acting on the first movable iron core 19 overcomes the return spring 22, and the first movable iron core 19 is attracted to the first fixed iron core 18.
When the first movable iron core 19 is sucked in the direction of the first fixed iron core 18, the pinion 7 moves in the direction of the ring gear 6 through the shift lever 11 engaged with the hook 10 of the first movable iron core 19. When the end surfaces of the pinion 7 and the ring gear 6 come into contact with each other and the pinion 7 does not enter the tooth surface of the ring gear 6, only the first movable iron core 19 further moves, thereby generating a deflection amount of the drive spring 23. The pinion 7 is urged in the direction of the ring gear 6 through the shift lever 11 with a load of.

In the starter 1 having the starter 1 having the solenoid 9 and the electromagnetic switch 12 that perform the operation as described above, as an example of the case where the idle stop is performed, the engine stop process (engine rotation completely stops) The operation when a restart request is generated during the deceleration period until the operation is performed will be described.
In this case, for example, the electronic control device 14 first operates the electromagnetic switch 12 to push the pinion 7 toward the ring gear 6, and the end surface of the pinion 7 comes into contact with the end surface of the ring gear 6. At this time, since the rotation of the engine is not completely stopped, that is, the ring gear 6 is rotating while decelerating, the ring gear 6 is stored in the drive spring 23 when the ring gear 6 rotates to a position where it can mesh with the pinion 7. Due to the reaction force, the pinion 7 meshes with the ring gear 6.

  Thereafter, the solenoid 9 is operated, electric power is supplied from the battery 2 to the motor 3, and the motor 3 rotates. The rotation of the motor 3 is transmitted to the pinion 7 via the output shaft 4, and the ring gear 6 can be rotated by the pinion 7, and the engine can be restarted quickly.

In the starter electromagnetic switch device 13 according to the first embodiment, the winding start side lead wire 17a of the first coil 17 of the solenoid 12 is located inside the second bobbin 32 of the electromagnetic switch 9, in other words, within the second coil 24. It passes through the inside of the circumference and is pulled out to one end in the axial direction, and is electrically connected to the first external connection terminal 36 of the resin cover 28.
For this reason, one lead wire of the first coil 17 does not lead out to the one end side in the axial direction through the outside of the outer periphery of the second coil 24, so that the gap between the second coil 24 and the case 15 is reduced. Therefore, the efficiency of heat radiation performed through the case 15 by the second coil 24 that generates heat by energization can be improved.
In the first embodiment, the winding start side lead wire 17a of the first coil 17 is drawn to the one end side in the axial direction through the inside from the inner periphery of the second coil 24. Even if the lead wire 17b is drawn to the one end side in the axial direction through the inside from the inner periphery of the second coil 24, the above-described effect can be obtained.

In the first embodiment, the lead wire of the first coil 17 that is drawn to the one axial end side through the inner periphery of the second coil is the winding start lead wire 17a.
Usually, the coil wound around the bobbin is manufactured by winding so that the winding start side lead wire is on the inner diameter side and the winding end side lead wire is on the outer diameter side. Also in the first embodiment, the first coil 17 wound around the first bobbin 20 is wound so that the winding start side lead wire 17a is on the inner diameter side and the winding end side lead wire 17b is on the outer diameter side. The second coil 24 wound around the second bobbin 32 is also wound so that the winding start side lead wire 24a is on the inner diameter side and the winding end side lead wire 24b is on the outer diameter side. .
For this reason, compared with the case where the winding end side lead wire 17b of the first coil 17 passes through the inner side of the second coil to the one end side in the axial direction, the winding start side lead wire 17a of the first coil 17 is When the coil is pulled out to the one end side in the axial direction through the inner circumference from the inner circumference of the two coils, the coil length of the first coil 17 can be shortened, and hence for the starter. The total length of the electromagnetic switch device 13 can be shortened.

In the first embodiment, the first fixed iron core 18 is disposed on one end side in the axial direction of the first coil 17, and the winding end lead wire 17 b of the first coil 17 is electrically connected to the first fixed iron core 18. Connected mechanically and mechanically.
As described above, the winding end side lead wire 17b of the first coil 17 is located on the outer diameter side of the first bobbin 20, in other words, the outer diameter side of the first coil 17, and the first fixed iron core located in the vicinity thereof. By electrically and mechanically connecting to 18, it is possible to prevent the first coil 17 from being separated in the process of assembling the starter electromagnetic switch device 13.
In the first embodiment, the winding end side lead wire 17b of the first coil 17 and the first fixed iron core 18 are directly connected. However, the present invention is not limited to this, and a conductive intermediate member is used. Thus, the winding end side lead wire 17b of the first coil 17 and the first fixed iron core 18 may be indirectly connected.

In addition, in the first embodiment, the inner diameter of the second coil 24 is configured to be larger than the inner diameter of the first coil 17.
For this reason, since the winding start side lead wire 17a of the first coil 17 is located on the inner diameter side than the winding start side lead wire 24a of the second coil 24, the winding end side lead wire 17b of the first coil 17 is more than that. However, the winding start side lead wire 17a of the first coil 17 is less likely to interfere with the second coil 24 in the radial direction. Therefore, it is possible to easily perform the operation of drawing the winding start side lead wire 17a of the first coil 17 linearly toward one end side in the axial direction.

In the first embodiment, a flange portion 20a is formed on one axial end side of the first bobbin 20 around which the first coil 17 is wound. A lead-out portion 20c is formed to hold the winding start side lead wire 17a and to be drawn out at one end in the axial direction.
For this reason, the vibration resistance of the winding start side lead wire 17a of the first coil 17 can be improved.

Further, in the first embodiment, the winding start side lead wire 17a of the first coil 17 is inserted through the inside of the second bobbin 32 around which the second coil 24 is wound in the axial direction, via the insertion hole 32e. It is pulled out to one end side in the axial direction and is electrically connected to the first external connection terminal 36 of the resin cover 28.
Thereby, it is possible to prevent the winding start side lead wire 17a of the first coil 17 and the second coil 24 from being in electrical contact.

In addition, in the first embodiment, the protruding portion 20d, which is a part of the lead portion 20c of the first bobbin 20, and the engaging portion 32f formed on the flange portion 32b of the second bobbin 32 are engaged. It is configured.
Accordingly, since the first bobbin 20 around which the first coil 17 is wound and the second bobbin 32 around which the second coil 24 is wound can be easily positioned, the starter electromagnetic switch device 13 is assembled. The first bobbin 20 and the second bobbin 32 can stably hold the winding start side lead wire 17a of the first coil 17 and improve the vibration resistance. .

  In the first embodiment, since a part of the lead portion 20c of the first bobbin 20 is integrally formed as the protruding portion 20d, the protruding portion 20d is formed separately from the first bobbin 20. The number of parts can be reduced as compared with. Needless to say, in consideration of the moldability of the first bobbin 20, the first bobbin 20 may be a separate protruding member.

Further, in the first embodiment, the holding member 41 holding the winding start side lead wire 17a of the first coil 17 and the resin cover 28 are engaged between the second bobbin 32 and the resin cover 28. It is configured.
For this reason, positioning when the resin cover 28 is assembled to the case 15 can be easily performed.

In the first embodiment, the insertion groove 20b of the first bobbin 20 is provided at a position opposed to 180 °, and the insertion groove 32c of the second bobbin 32 is similarly provided at a position opposed to 180 °. However, the present invention is not limited to this, and the insertion groove 20b and the insertion groove 32c can be appropriately changed in angle depending on the configuration of other components and the positions of the first external connection terminal 36 and the second external connection terminal 37. It is.

  In the first embodiment, the starter electromagnetic switch device 13 is described as being used for the starter 1 of a vehicle equipped with an idle stop system. However, the starter electromagnetic switch device 13 is not limited to this, and the starter of the vehicle not compatible with the idle stop system is used. It is good also as what is used for.

DESCRIPTION OF SYMBOLS 1 Starter 3 Motor 6 Ring gear 7 Pinion 8 Main contact 9 Electromagnetic switch 12 Solenoid 13 Starter electromagnetic switch device 15 Case 15a Bottom surface 17 First coil 17a Winding start side lead wire (one lead wire)
17b Winding end side lead wire (the other lead wire)
18 1st fixed iron core 20 1st bobbin 20a Flange part 20c Opening part 24 2nd coil 28 Resin cover 32 2nd bobbin 36 1st terminal for external connection

Claims (7)

A first coil that forms an electromagnet by energization, and a solenoid that pushes the starter pinion to the ring gear side of the engine using the attractive force of the first coil;
An electromagnetic switch that has a second coil that forms an electromagnet when energized, and that opens and closes a main contact provided in a motor circuit of the starter using the attractive force of the second coil;
A case in which one end side in the axial direction is open and formed in a bottomed cylindrical shape having a bottom surface on the other end side, the solenoid is housed on the other end side in the axial direction, and the electromagnetic switch is housed on one end side in the axial direction;
A resin cover that holds an external connection terminal electrically connected to the first coil, and is fixed to one end side in the axial direction of the electromagnetic switch,
One starter line of the first coil passes through the inner side of the inner periphery of the second coil and is connected to the external connection terminal. The starter electromagnetic switch device according to claim 1,
The starter electromagnetic switch device, wherein the one lead wire of the first coil is a winding start side lead wire. The starter electromagnetic switch device according to claim 2,
A first fixed iron core is disposed on one axial end side of the first coil,
An electromagnetic switch device for a starter, wherein a winding end side lead wire which is the other lead wire of the first coil is electrically and mechanically connected to the first fixed iron core. The starter electromagnetic switch device according to claim 2 or 3,
2. An electromagnetic switch device for a starter, wherein the inner diameter of the second coil is larger than the inner diameter of the first coil. The starter electromagnetic switch device according to any one of claims 1 to 4,
The first coil is wound, and includes a first bobbin having a flange portion formed on one axial end side,
The starter electromagnetic switch device characterized in that the flange portion is formed with a lead portion for holding the one lead wire of the first coil and pulling it toward one end in the axial direction. The starter electromagnetic switch device according to claim 5,
A second bobbin around which the second coil is wound;
The starter electromagnetic switch device, wherein the one lead wire of the first coil is disposed through the second bobbin in the axial direction. The starter electromagnetic switch device according to claim 6,
The starter electromagnetic switch device, wherein the lead portion engages with the second bobbin.

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