FR2952131A1 - Electromagnetic switching device for starter utilized to start engine of automobile, has cases structured in body such that magnetic fluxes are formed in flange portion of core in opposite directions when coils are charged, respectively - Google Patents

Abstract

The device has an electromagnetic relay (6) and an electromagnet (9) including switching cases that constitute outer frames serving as magnetic circuits for the electromagnetic relay and the electromagnet, respectively. The switching cases are fixed in a body such that two magnetic fluxes are formed in a flange portion of a fixed core of the electromagnet in opposite directions when two excitation coils (12, 20) of the electromagnet and the electromagnetic relay are charged, respectively.

Description

ELECTROMAGNETIC SWITCHING DEVICE FOR STARTER

FIELD OF THE INVENTION The present invention relates to motors mounted in vehicles such as automobiles and, more particularly, relates to an electromagnetic switching device for a starter which starts a motor provided with an automatic stop and restart device, which is called an idle stop, with the goal of reducing fuel consumption and exhaust emissions.

DESCRIPTION OF THE RELATED ART Many starters for starting engines have been used so far, particularly in vehicles. Nevertheless, in recent years, the number of vehicles equipped with idle shutdown as a method of improving fuel consumption and reducing vehicle exhaust emissions has increased. Engines are sometimes required to restart just after a start during a temporary stopping of the engine to reduce fuel consumption in moving vehicles; when the engine is not completely stopped at restart, it becomes difficult to connect a starter motor; and in a mechanism in which the connection between the starter and the motor is by gears meshing with each other, it is likely that a toothless portion is generated. As a known device, there is a device in which a starter is started to rotate in response to a request to restart an engine, the activation of the speed control is performed on the starter to synchronize the rotation speed of the engine. starter with the rotational speed of the motor, and the starter is connected to the motor (see Japanese Unexamined Patent Publication No. 2002-70699). Alternatively, another known device is a device in which, when a request to restart an engine is generated, a starter is activated to rotate a pinion; and at the moment when the rotational speed of the pinion is synchronized with the rotational speed of a ring gear, the pinion is engaged with the ring gear by a pinion extrusion unit and the starter is started to restart the motor. . In addition, a known device predicts the moment at which the rotational speed of the pinion is synchronized with the rotational speed of the ring gear and controls the extrusion speed and / or the extrusion start time of the gear unit. pinion extrusion such that the pinion is engaged with the ring gear in accordance with this time (see Japanese Unexamined Patent Publication No. 2005-330813). In addition, the known electromagnetic switching device for the starter has a function in which a coil is energized to generate a magnetic field and a plunger is magnetized to advance a pinion gear via a hook and a lever attached to the plunger and the pinion gear is engaged with a ring gear; and a function causing the plunger to reach a fixed contact using its displacement (the gear gear is advanced to engage the ring gear) and a function causing an internal contact to close through a contact mobile by causing the power on / off of a motor by a power supply are performed by a process in which the coil is energized. In the electromagnetic switching device for the known starter described above, for high speed starting and quiet operation of the idle stop device, a problem is that the motor must turn before the protrusion of the idler gear. pinion so that the pinion gear jumps to the ring gear during the rotation of inertia and that the rotational speed of the pinion gear and the rotational speed of the ring gear must be synchronized when the gear of pinion comes into contact with the ring gear.

SUMMARY OF THE INVENTION The present invention is intended to solve the above problem. It is an object of the present invention to provide an electromagnetic switching device for a starter capable of improving the engagement performance of a pinion gear and a ring gear.

According to the present invention, there is provided an electronic switching device for a starter comprising: an electromagnet having a first plunger, a first fixed core, and a first excitation coil, the first excitation coil being energized to excite the first fixed core, which attracts the first plunger in one direction to the first fixed core and displaces a sprocket gear to a ring gear; and an electromagnetic relay which opens or closes a motor circuit and has a second plunger, a second fixed core and a second excitation coil, the second excitation coil being energized to energize the second fixed core, which attracts the second plunger in a direction towards the second fixed core and causing a moving contact which moves in conjunction with the second plunger to contact a fixed contact. A central axis of the second plunger of the electromagnetic relay and a central axis of the first plunger of the electromagnet are arranged coaxially in series. A switch box which constitutes an outer frame serving as a magnetic circuit of the electromagnetic relay and a switch box which constitutes an outer frame serving as a magnetic circuit of the electromagnet are structured in a body. A direction of the magnetic flux flowing in a flange portion of the first fixed core when the first energizing coil is energized is reversed to a direction of the magnetic flux flowing in the flange portion of the first fixed core when the second excitation coil is energized. In addition, according to the present invention, there is provided an electromagnetic switching device for a starter comprising: an electromagnet having a first plunger, a first fixed core, and a first excitation coil, the first excitation coil being brought under control; tension for exciting the first fixed core, which attracts the first plunger in one direction to the first fixed core and displaces a sprocket gear to a ring gear; and an electromagnetic relay which opens or closes a motor circuit and has a second plunger, a second fixed core and a second excitation coil, the second excitation coil being energized to energize the second fixed core, which attracts the second plunger in a direction towards the second fixed core and causing a moving contact which moves in conjunction with the second plunger to contact a fixed contact. A central axis of the second plunger of the electromagnetic relay and a central axis of the first plunger of the electromagnet are arranged coaxially in series. A switch box which constitutes an outer frame serving as a magnetic circuit of the electromagnetic relay and a switch box which constitutes an outer frame serving as a magnetic circuit of the electromagnet are structured in a body. A concave shaped portion in which the second plunger is axially movable is provided on a central portion side of the first fixed core, and a flange portion of the first fixed core is arranged on the outer circumference side of the first fixed core. second diver. In an electromagnetic switching device for a starter according to the present invention, a direction of the magnetic flux flowing in a first fixed core when a first energizing coil is energized is reversed to a direction of the flowing magnetic flux. in a second fixed core when a second excitation coil is energized; in this way, even when the first excitation coil and the second excitation coil are energized, the magnetic flux flowing in the first fixed core is not saturated, a first plunger and a second plunger can be quickly actuated, and a stable engaging performance can be achieved. Furthermore, in an electromagnetic switching device for a starter according to the present invention, a concave shaped portion in which a second plunger is axially movable is provided on a central portion side of a first fixed core. and a flange portion of the first fixed core is arranged on the outer circumference side of the second plunger; in this way, the axial dimension can be reduced and a reduction in size can be performed. The foregoing objects, features, aspects and advantages of the present invention as well as other objects, other features, other aspects and other advantages of the present invention will become apparent from the description. Next detailed description of the present invention with reference to the accompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a circuit diagram of a starter provided with an electromagnetic switching device for a starter according to embodiments 1 and 3 of the present invention; Fig. 2 is a sectional view showing an electromagnetic switching device for a starter according to Embodiments 1 and 2 of the present invention; and Fig. 3 is a pertinent partial sectional view showing an electromagnetic switching device for a starter according to embodiments 1 to 4 of the present invention.

DETAILED DESCRIPTION OF THE INVENTION Embodiment 1 Embodiment 1 of the present invention will be described hereinafter with reference to Figs. 1-3. Fig. 1 is a circuit diagram of a starter provided with a device electromagnetic switching device for a starter according to embodiment 1 of the present invention. Fig. 2 is a sectional view showing the electromagnetic switching device for the starter according to Embodiment 1 of the present invention. Fig. 3 is a pertinent partial sectional view showing the electromagnetic switching device for the starter according to Embodiment 1 of the present invention.

In the respective figures, the starter comprises a motor 1 which generates a rotational force; an output shaft 2 which receives the rotational force of the motor 1; a freewheel clutch 3 which is axially slidable on the output shaft 2, to which the rotational force of the motor 1 is transmitted from the output shaft 2; a pinion gear 4 which is a constituent component of the overrunning clutch 3 and which transmits the rotational force of the motor 1 transmitted to the freewheel clutch 3 to a ring gear (not shown in the figure) of a motor ; and an electromagnetic switching device for a starter 10 provided with an electromagnetic relay 6 which is provided with a main contact 5 constituting a motor circuit and which opens or closes the main contact 5, and an electromagnet 9 which is arranged coaxially in series with the electromagnetic relay 6 on the side of the axial displacement lever 8 and moves the pinion gear 4 in a direction towards the ring gear via the axial displacement lever 8 which is engaged with a hook 7. A configuration of the electromagnetic switching device for the starter 10 will be described hereinafter. The electromagnetic switching device for the starter 10 is largely divided into a switching box 11, the electromagnetic relay 6, and the electromagnet 9. The electromagnet 9 and the electromagnetic relay 6 are placed in an appropriate order in the configuration box 11 to configure and serve as an electromagnetic switching device for the starter 10. The configuration box 11 consists of a magnetic material to form magnetic circuits of the electromagnetic relay 6 and the electromagnet 9, and is a cup-shaped component which forms the outer circumferences of the electromagnetic relay 6 and the electromagnet 9 in a body. The electromagnet 9 will be described below.

The electromagnet 9 comprises a first excitation coil 12, a first winding frame 13, a first fixed core 14, a return spring 15 and a first plunger 16. In the electromagnet 9, the first excitation coil 12 is energized to energize the first fixed core 14, which attracts the first plunger 16 in a direction towards the first fixed core 14 and causes the pinion gear 4 to move towards the ring gear via the axial displacement lever 8. The first excitation coil 12 consists of a conductive material and is wound on the first winding frame 13 made of an insulating material. The first fixed core 14 is composed of a magnetic material and constitutes a magnetic circuit; and a flange portion 14a is mounted on the switch housing 11. The return spring 15 is located between the first fixed core 14 and the first plunger 16 and constrains the first plunger 16 toward the side of the axial displacement lever 8.

The first plunger 16 consists of a magnetic material, it is provided with a spring of the lever 17, and it is constrained in one direction towards the axial displacement lever 8 by the force of the return spring 15. The lever spring 17 constrains the axial displacement lever 8 in the direction towards the first fixed core 14 in the case where the amount of displacement of the first plunger 16 in the direction towards the first fixed core 14 is large. The electromagnetic relay 6 will be described below. The electromagnetic relay 6 comprises a second plunger 18, a rod 19, a second excitation coil 20, a second winding frame 21, a second fixed core 22, a return spring 23 and a terminal block 24.

The second plunger 18 consists of a magnetic material, it constitutes a magnetic circuit and is axially constrained towards the side of the spacer 29 by the force of the return spring 23. The second excitation coil 20 consists of a conductive material and is wound on the second winding frame 21 made of an insulating material. The second fixed core 22 consists of a magnetic material, it constitutes the magnetic circuit, and it is mounted on the switching housing 11. The return spring 23 is located between the terminal block 24 and a fixing element 25 so as to forcing the rod 19 and the second plunger 18 in a direction toward the spacer 29. The terminal block 24 comprises an insulating element 26 and fixed contacts 5a and 5b of the main contact 5. In addition, the electromagnetic relay 6 comprises a contact mobile 27 and a contact spring 28. In addition, the spacer 29 made of a non-magnetic material is provided between the second plunger 18 and the first fixed core 14.

In addition, in the electromagnetic switching device for the starter 10, the main contact 5 is connected to a vehicular power supply device 30 by a cable. The first excitation coil 12 and the second excitation coil 20 are further connected to an electronic control device 31 by separate cables and are connected to the vehicular power supply device 30 by a key switch 32. The side downstream of the first excitation coil 12 is connected to a body ground and the downstream side of the second excitation coil 20 is also connected to the body ground. The operation will be described below. At idle stop, to synchronize the rotational speed of the pinion gear 4 with respect to the ring gear during the inertia rotation, an electric current turns the second energizing coil 20 under voltage. control of the electronic control device 31 when the engine is started. The main contact 5 and the mobile count 27 are closed by energizing the second excitation coil 20; and a power supply is therefore supplied from the vehicular power supply device 30 to the starter 1 and the rotation of the pinion gear 4 begins. Then, the pinion gear 4 is engaged with the ring gear by energizing the first energizing coil 12 under the control of the electronic control device 31 at which time the rotation of the ring gear is synchronized with the rotation. At this stage, a configuration is established such that a direction of the magnetic flux 33 flowing in the flange portion 14a of the first fixed core 14 when the first excitation coil 12 is turned on. energized is opposite to a direction of the magnetic flux flowing in the flange portion 14a of the first fixed core 14 when the second energizing coil 20 is energized; and when both excitation coils are energized, the magnetic fluxes are balanced with each other. In the embodiment 1, the configuration is such that the direction of the magnetic flux 33 flowing in the flange portion 14a of the first fixed core 14 when the first excitation coil 12 is energized is reversed to the direction of the magnetic flux 34 flowing in the flange portion 14a of the first fixed core 14 when the second excitation coil 20 is energized; therefore, even when the first excitation coil 12 and the second excitation coil 20 are energized, the magnetic flux flowing in the flange portion 14a of the first fixed core 14 is not saturated and a force maximum attraction can be exercised; the first plunger 16 and the second plunger 18 can therefore be quickly actuated and a stable engagement performance can be achieved.

Embodiment 2 An electromagnetic switching device for a starter according to an embodiment 2 of the present invention will be described with reference to Figures 2 and 3. In Embodiment 2 of the present invention, the basic configuration is the same as that of Embodiment 1 described above. As apparent from Figures 2 and 3, a housing has a concave portion 35 which is concave with respect to the side of the first plunger 16 on the central portion side of a first fixed core 14. A second plunger 18 is positioned axially in a space within the concave shaped portion 35 provided on the central portion side of the first fixed core 14. In addition, a configuration such as a flange portion is established. 14a of the first fixed core 14 is arranged on the outer circumference side of the second plunger 18. In the embodiment 2, there is provided the concave-shaped portion 35 in which the second plunger 18 is placed so as to be able to move axially the concave shaped portion 35 being concave with respect to the side of the first plunger 16 on the central portion side of the first fixed core 14; and therefore the axial dimension can be reduced and size reduction can be performed.

Embodiment 3 An electromagnetic switching device for a starter according to an embodiment 3 of the present invention will be described hereinafter with reference to FIGS. 1 to 3.

In Embodiment 3, winding start portions of a first drive coil 12 and a second drive coil 20 are connected to respective switch input terminals 36 and 37; and winding end portions thereof are respectively connected to a first fixed core 14 and a second fixed core 22, thereby forming a ground circuit. According to the embodiment 3, the directions of the first excitation coil 12 and the second excitation coil 20 are the same; and therefore the workability of manufacture can be improved.

Embodiment 4 An electromagnetic switching device for a starter according to an embodiment 4 of the present invention will be described hereinafter with reference to FIG. 3. In the embodiment 4, a configuration such as a relationship T1 <T2 is obtained in a state in which an electromagnetic switching device 10 is in a static state when the spacing of a spacer 29 made of a non-magnetic material inserted between a first fixed core 14 and a second plunger 18 is T2 and the spacing between the second plunger 18 and a second fixed core 22 is T1. According to the embodiment 4, when a second excitation coil 20 is energized, the second plunger 18 is not attracted towards the first fixed core 14 and is rapidly moved in one direction towards the second fixed core 22 ; therefore a starter motor 1 can be quickly started to run. While the presently preferred embodiments of the present invention have been shown and described, it is to be understood that these disclosures are illustrative and that various changes and modifications can be made without departing from the scope of the invention as defined. in the appended claims.

Claims (5)

REVENDICATIONS1. An electromagnetic switching device for a starter (10), characterized in that it comprises: an electromagnet (9) having a first plunger (16), a first fixed core (14), and a first excitation coil (12) ), said first exciting coil (12) being energized to energize said first fixed core (14), which attracts said first plunger (16) in a direction toward said first fixed core (14) and displaces a pinion gear (4) to a ring gear; and an electromagnetic relay (6) which opens or closes a motor circuit and has a second plunger (18), a second fixed core (22) and a second excitation coil (20), said second excitation coil ( 20) being energized to energize said second fixed core (22), which attracts said second plunger (18) in a direction toward said second fixed core (22) and which causes a movable contact that moves in conjunction with said second plunger (18) to contact a fixed contact, said second plunger (18) of said electromagnetic relay (6) having a central axis and said first plunger (16) of said electromagnet (9) having a central axis, the two central axes being arranged coaxially in series, andsaid electromagnetic relay (6) having a switching box (11) which constitutes an outer frame serving as a magnetic circuit of the electromagnetic relay (6) and said electromagnet (9) having a housing of switching (11) which constitutes an outer frame serving as a magnetic circuit of the electromagnet (9), said two switch boxes being structured in a body, wherein when said first exciting coil (12) is energized, a magnetic flux flows in a flange portion of said first fixed core (14) and when said second excitation coil (20) is energized, a magnetic flux flows in the flange portion of said first fixed core ( 14), the magnetic fluxes flowing in opposite directions. 2. Electromagnetic switching device for a starter (10), characterized in that it comprises: an electromagnet (9) having a first plunger (16), a first fixed core (14), and a first excitation coil (12), said first exciting coil (12) being energized to energize said first fixed core (14), which attracts said first plunger (16) in a direction toward said first fixed core (14) and moving a pinion gear (4) to a ring gear; and an electromagnetic relay (6) which opens or closes a motor circuit and has a second plunger (18), second fixed core (22) and a second excitation coil (20), said second excitation coil (20). ) being energized to energize said second fixed core (22), which attracts said second plunger (18) in a direction toward said second fixed core (22) and which causes a movable contact that moves in conjunction with said second plunger (22) plunger (18) to contact a fixed contact, said second plunger (18) of said electromagnetic relay (6) having a central axis and said first plunger (16) of said electromagnet (9) having a central axis, the two central axes being arranged coaxially in series, and said electromagnetic relay (6) having a switching box (11) which constitutes an outer frame serving as a magnetic circuit of the electromagnetic relay (6) and said electromagnet (9) having a solenoid box utation (11) which constitutes an outer frame serving as a magnetic circuit of the electromagnet (9), said two switch boxes being structured in a body, wherein said first fixed core (14) comprises a concave portion (35) provided on a central portion side of the first fixed core (14), said second plunger (18) being located in said concave portion (35) so as to be axially movable, and said first fixed core (14) comprises a flange portion disposed on an outer circumference side of said second plunger (18). An electromagnetic switching device according to claim 1 or 2, characterized in that said first exciting coil (12) and said second exciting coil (20) each have a winding start portion and an end portion of winding, said winding start portions being connected to respective switch input terminals (36, 37), and said winding end portions being respectively connected to said first fixed core (14) and said second fixed core (22), thereby forming an earth circuit. 15 4. An electromagnetic switching device according to claim 1 or 2, characterized in that it further comprises: the spacing T2 provided by a spacer (29) inserted between said first fixed core (14) and said second plunger (18). ), said spacer (29) being composed of a non-magnetic material; and the T1 spacing provided between said second plunger (18) and said second fixed core (22), the spacings having a T1 <T2 relationship which is set in a state in which said electromagnetic switching device is in a static state. 5. Electromagnetic switching device according to claim 3, characterized in that it further comprises: the spacing T2 provided by a spacer (29) inserted between said first fixed core (14) and said second plunger (18), said spacer (29) being composed of a non-magnetic material; and the spacing T1 provided between said second plunger (18) and said second fixed core (22), the spacings having a relation T1 <T2 which is set in a state in which said electromagnetic switching device is in a static state.