JP5292266B2 - Starter - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To overcome such a problem that a starter control device is at the risk of breakage caused by significant influence of vibrations of a starter, since a starter motor becomes long in a motor shaft direction and becomes long in a cantilever direction, in the related art. <P>SOLUTION: The starter includes: the starter motor driving an engine; a magnet switch extruding a pinion gear to be meshed with a ring gear connected to the engine; a gear case holding the starter motor and the magnet switch to fix them to the engine; and a starter control device controlling the electric current of the starter motor. The gear case has a fixed plate extended to a side face in a magnet switch outer peripheral direction. In the starter control device, fixed points are disposed on the engine mounting side of the fixed plate and a starter motor side opposite to the engine mounting side of the fixed plate, and the starter control device is fixed at at least three points. <P>COPYRIGHT: (C)2011,JPO&amp;INPIT

Description

  The present invention relates to a starter for idling stop.

  As a prior art, a structure in which a starter control device is disposed on the rear side of a starter motor is known (see Patent Document 1).

JP 2001-165020 A

  According to Patent Document 1, since the starter motor becomes longer in the motor shaft direction and becomes longer in the cantilever direction, the starter control device may be damaged due to the influence of the starter vibration.

  Therefore, an object of the present invention is to provide a starter that does not break down even if the starter control device is attached to the starter.

  In order to solve the above problems, one of the desirable embodiments of the present invention is as follows.

This starter includes a starter motor that drives the engine, a magnet switch that pushes and meshes the pinion gear with the ring gear connected to the engine, a gear case that holds the starter motor and the magnet switch and fixes the engine, and a starter motor. The gear case has a fixed plate extending to the outer circumferential side surface of the magnet switch, and the starter control device is opposite to the engine mounting side of the fixed plate and the engine mounting side of the fixed plate. A fixing point is provided on the side of the starter motor, and is fixed at least at three or more locations.

  ADVANTAGE OF THE INVENTION According to this invention, even if a starter control apparatus is attached to a starter, the starter which a starter control apparatus does not destroy can be provided.

A side view of a starter. The rear view of a starter. The figure which shows the stationary plate shape of a gear case. The figure which shows the relationship of bus-bar thickness. The control board arrangement | positioning figure inside a starter control apparatus. The figure which shows the example for improving the rigidity of a bus-bar.

  FIG. 1 is a side view of the starter.

  The starter 1 for idling stop includes a starter control device 2, a starter motor 3, a magnet switch 4, a gear case 5, a connector 6, a starter control device fixing point 7, a mold case 11, a motor terminal 41, a switch terminal 42, a battery terminal 43, The motor bus bar 21, the switch bus bar 22, the battery bus bar 23, and the fixed plate 51 are included.

  The starter control device 2 controls the current to the starter motor 3 by an idling stop command signal from an ECU (not shown). The starter motor 3 rotates a pinion gear (not shown) meshed with the engine. The magnet switch 4 pushes out the pinion gear to mesh the ring gear connected to the pinion and the engine. The starter motor 3 and the magnet switch 4 are fixed with a gear case 5 sandwiching the outer periphery.

  The starter 1 is fixed to the engine at an engine fixing point 52 provided in the gear case 5.

  The magnet switch 4 includes a motor terminal 41, a switch terminal 42, and a battery terminal 43. The motor terminal 41 is connected to the starter motor 3, and the battery terminal 43 is connected to a vehicle battery (not shown).

  The switch terminal 42 drives a movable contact in the magnet switch 4. When a current flows through the switch terminal 42, the motor terminal 41 and the battery terminal 43 are connected, and power is supplied to the starter motor 3 from the battery. Rotate the engine.

  A motor bus bar 21, a switch bus bar 22, a battery bus bar 23, and a GND bus bar 24 are inserted into the mold case 11 constituting the starter control device 2. The motor bus bar 21, the switch bus bar 22, and the battery bus bar 23 are connected to the magnet switch 4. Are connected to the motor terminal 41, the switch terminal 42 and the battery terminal 43, respectively. The mold case 11 is provided with a total of three starter control device fixing points 7, two on the engine side and one on the opposite side of the engine. A metal collar (not shown) is inserted into the frame.

  In the gear case 5, a fixing plate 51 for fixing the starter control device 2 as shown in FIG. 3 extends to the outer circumferential side surface of the magnet switch 4, and the starter control device 2 is a starter control device fixing point 7. The fixing plate 51 is fixed with screws. The connection of the GND bus bar 24 inserted in the mold case 11 also serves as fixing of the starter controller fixing point 7.

  The fixed plate 51 is molded integrally with the gear case 5.

  By arranging the starter control device 2 on the side surface of the magnet switch 4, the starter 1 can be mounted compactly without extending in the cantilever direction, and the vibration of the starter control device 2 can be reduced.

Further, in the starter control device 2, the thickness of the bus bar (here, the motor bus bar) farthest from the three starter control device fixing points is made thicker than other bus bars to increase the rigidity, thereby measuring the starter control device. Since it can hold | maintain at four fixed points, it can be set as the attachment structure excellent in earthquake resistance (refer FIG. 4). Thickness of t ₂₁ of the motor bus bar 21, the switch bus bar 22 of plate thickness of t _22, when the plate thickness t ₂₃ of the battery bus bar 23, the relationship of the bus bar plate thickness, t _21> t ₂₂ = t ₂₃ or, t ₂₁ > T ₂₂ > t ₂₃

  As a result, the starter controller 2 only needs to increase the rigidity of only the bus bar farthest from the starter controller fixing point 7, so that the other two bus bars (in this case, the battery bus bar and the switch bus bar) are made thinner and Since the structure can be simplified, the bus bar can be manufactured at low cost.

  Further, as a structure for increasing the rigidity of the bus bar, a structure in which the bus bar is bent into an L shape and the rigidity is increased as shown in FIG.

  In addition, regarding the connector 6 for the starter control device 2 to send and receive an idling stop command from an ECU (not shown), there is a concern about the disconnection of the wiring due to the influence of vibration by the engine.

  In addition, in the starter 1, the G at the rear end of the magnet switch on the opposite side to the G on the engine mounting side of the gear case 5 is about three times as the mounting of the starter 1 has a cantilever structure. G is on. Therefore, as shown in FIG. 5, the vibration applied to the connector 6 can be suppressed by arranging the connector 6 on the engine mounting side.

  The connector 6 is molded integrally with the mold case 11.

  Further, as shown in FIG. 5, a MOSFET 12 is mounted on the switch board 8 in the starter control device 2, and a control board 9 on which a control IC 10 is mounted so as to be stacked on the switch board 8. Is fixed by bonding.

  The MOSFET 12 is switched by the control IC 10 to control the current flowing to the starter motor 3. Since the control board 9 is laminated on the switch board 8, there is a possibility that the adhesion part of the switch board 8 may be peeled off or the solder joint part of the control IC 10 may be broken by vibration. It is possible to provide a mounting structure with excellent vibration resistance by being laminated on the engine mounting side.

  The starter is arranged on the side surface of the outer periphery of the magnet switch so that the starter control device is not elongated in the axial direction of the motor, and is fixed to a fixed plate integrally formed with the gear case by die casting. The impact can be mitigated. Also, by providing a control board that is vulnerable to vibration and a connector for exchanging signals between the ECU and the starter control device on the engine mounting side where vibration is low, it is possible to provide a starter control device with excellent vibration resistance. it can. In addition, the engine room can be narrowed, and a starter control device that is smaller and resistant to vibration can be provided.

DESCRIPTION OF SYMBOLS 1 Starter 2 Starter controller 3 Starter motor 4 Magnet switch 5 Gear case 6 Connector 7 Starter controller fixed point 8 Switch board 9 Control board 10 Control IC
11 Mold case 12 MOSFET
21 Motor bus bar 22 Switch bus bar 23 Battery bus bar 24 GND bus bar 41 Motor terminal 42 Switch terminal 43 Battery terminal 51 Fixing plate 52 Engine fixing point

Claims (3)

A starter motor that drives the engine;
A magnet switch that pushes and meshes the pinion gear to the ring gear connected to the engine;
A gear case for holding the starter motor and the magnet switch and fixing the engine,
A starter control device for controlling a current to the starter motor;
The gear case has a fixing plate extending to the outer peripheral side surface of the magnet switch,
The starter control device is provided with fixing points on the engine mounting side of the fixed plate and the starter motor side opposite to the engine mounting side of the fixed plate , and is fixed at at least three locations.   The starter according to claim 1, wherein the fixing plate is integrally formed with the gear case.   The bus bar of the starter control device connected to the battery terminal, the motor terminal, the switch terminal and the fixed plate extending from the gear case attached to the magnet switch is integrally molded with the mold case constituting the starter control device. When the fixing point of the starter control device is attached to the fixing plate, at least one of the battery bus bar, the motor bus bar, and the switch bus bar is connected to the terminal of the magnet switch, and the GND bus bar is connected to the fixing point. The starter according to claim 1, wherein the starter is connected and fixed simultaneously.

Images