JPWO2015098327A1 - Magnet switch and starter equipped with the same - Google Patents

Abstract

Provided is a highly reliable magnet switch that can stably transfer a contact shaft even when the magnet switch is reduced in size and weight. Energize the solenoid to attract the plunger (6) against the fixed iron core (5) against the spring force, and operate the contact shaft (12) with the plunger (6) to open and close the contact (9). (12) is slidably supported by the first sliding support portion (6c) formed on the plunger (6) and the second sliding support portion (5c) formed on the fixed iron core (5). The first engaging portion for engaging the plunger (6) with the contact shaft (12) and propelling the contact shaft (12) in the contact closing direction is the first sliding support (6c). The magnet switch is configured so as to be provided between the second sliding support portion (5c).

Description

  The present invention relates to a magnet switch suitable for a starter of an internal combustion engine, and a starter provided with the magnet switch.

  As a background art in this technical field, there is Japanese Patent No. 3235783 (Patent Document 1). This publication describes that “a magnet switch that reliably separates contacts using a contact shaft is provided”.

Japanese Patent No. 3235783

  In a conventional configuration such as Patent Document 1, when the diameter of the contact shaft is reduced or the material is changed in order to reduce the size and weight of the magnet switch, there are the following problems. That is, when the plunger is sucked, the contact shaft is deformed and tilted when the inner peripheral bottom surface of the plunger and the contact shaft tip surface are engaged and the contact shaft is transferred, resulting in a sliding resistance of the contact shaft support portion. There was a risk that it would become too large to slide and damage the contact shaft.

  Therefore, an object of the present invention is to provide a highly reliable magnet switch that can stably transfer a contact shaft even when the magnet switch is reduced in size and weight.

  In order to solve the above problems, for example, the configuration described in the claims is adopted. The present application includes a plurality of means for solving the above-mentioned problems. For example, the solenoid is energized to attract the plunger against the fixed iron core against the force of the spring, and the contact shaft is operated by the plunger. A magnetic switch for opening and closing the contact, wherein the contact shaft is slidable between a first sliding support portion formed on the plunger and a second sliding support portion formed on the fixed iron core. A first engagement portion is supported, and a first engaging portion for engaging the contact shaft with the plunger to propel the contact shaft in the contact closing direction is the first sliding support portion and the second sliding support portion. It is provided between the two parts.

  ADVANTAGE OF THE INVENTION According to this invention, even when a magnet switch is reduced in size and weight, the reliable magnetic switch which can transfer a contact shaft stably can be provided.

  Problems, configurations, and effects other than those described above will be clarified by the following description of embodiments.

Sectional drawing of the starter principal part which mounted the magnet switch of the Example. Sectional drawing of the magnet switch of an Example. Sectional drawing which shows attraction | suction operation | movement (a plunger and a collar are engaged) of the magnet switch of FIG. Sectional drawing which shows the attraction | suction operation (a movable contact and fixed contact joining) of the magnet switch of FIG. Sectional drawing which shows the open | release operation of the magnet switch of FIG.

  Embodiments of the present invention will be described below with reference to the drawings.

  FIG. 1 is a cross-sectional view showing a main part of a starter of an embodiment in which a magnet switch according to the present invention is mounted. FIG. 2 is a cross-sectional view showing a magnet switch according to an embodiment of the present invention. With reference to FIGS. 1 and 2 at the same time, the configuration of the magnet switch of this embodiment will be described.

  In FIG. 1, the starter includes a starter body 1 and a magnet switch 2. In FIG. 2, a magnet switch 2 includes an exciting coil 3 that generates a magnetomotive force when energized, a coil case 4 that receives a magnetomotive force to form a magnetic path and serves as a fixed iron core, a boss 5, and a plunger 6 that serves as a movable iron core. And a biting portion that shifts the pinion 8 that engages with the lower end 7a of the shift lever 7 by using the operation in which the plunger 6 is sucked and transferred to the boss 5 side when the solenoid is operated. When the plunger 6 is transferred, the movable contact 9 is transferred and joined to the fixed contact 10, and the contact between the fixed contacts 10 is energized. At this time, a plunger shaft 11 that engages with the shift lever 7 and moves the shift lever 7 when the plunger 6 is transferred, and a contact shaft 12 are disposed in the plunger 6.

  The contact shaft 12 holds a collar 13 that engages with the plunger 6 and moves and presses the movable contact 9 after the plunger 6 is transferred by a predetermined stroke. The contact shaft 12 is slidably supported on the radially inner peripheral surface 6 c (first sliding support portion) of the plunger 6, and the radial inner peripheral surface 5 c (second second) of the boss 5 via the collar 13. (Sliding support portion) is slidably supported. Further, the contact shaft 12 has a C return spring 14 and a plunger return spring 15 for returning the plunger 6 to the initial position and disconnecting the movable contact 9 from the fixed contact 10 after energization OFF.

  The operation at the time of attraction of the magnet switch 2 will be described with reference to FIG. When the key switch (not shown) is turned on, the exciting coil 3 is energized, and the plunger 6 is attracted to one axial direction (contact closing direction) indicated by the arrow, and the axial direction of the radially inner peripheral surface 6c of the plunger 6 The end 6a engages with the axial end 13a of the radially outer peripheral surface 13c of the collar 13 held by the contact shaft 12 provided with the movable contact 9.

  FIG. 4 is an operation diagram in a state where the plunger 6 is further sucked and the movable contact 9 and the fixed contact 10 are joined. The collar 13 engaged with the plunger 6 in the operation shown in FIG. 3 moves the movable contact 9 via the C oscillating spring 16 and the insulating plate 17 and joins it to the fixed contact 10. After joining, energization is performed from the battery-side fixed contact 10 to the motor-side fixed contact 10 via the movable contact 9 to rotate a motor (not shown).

  Here, in this embodiment, the collar 13 is provided, and the surface that engages the plunger 6 and pushes the contact shaft 12 is not the tip surface 12a of the contact shaft 12 but the movable contact 9 side rather than the tip surface 12a of the contact shaft 12. The structure is close. By bringing the engagement position of the plunger 6 and the contact shaft 12 close to the movable contact 9, the span of the receiving surface and the pressing surface is the diameter of the collar 13 with respect to the tip surface 12a portion: L1 of the contact shaft 12 as shown in FIG. The axial end portion 13a of the directional outer peripheral surface 13c is shortened to L2, and the deformation and inclination of the contact shaft 12 are reduced at a ratio of L2 / L1.

  The operation in a state where the movable contact 10 is disconnected from the fixed contact 9 after the key switch is turned off will be described with reference to FIG. After the key switch is turned off, the suction force of the plunger 6 disappears, and the plunger 6 tries to return to the other side in the axial direction (contact opening direction) indicated by the arrow by the plunger return spring 15. When the plunger 6 is stroked by a predetermined amount, the tip collar portion 12b of the contact shaft 12 and the axial end portion 6b of the inner peripheral surface 6c of the plunger 6 are engaged, and the return of the C return spring 14 that separates the movable contact 9 from the fixed contact 10 In addition to the force, the return force of the plunger return spring 15 is further applied for separation. Here, the axial end 6b of the inner peripheral surface 6c of the plunger 6 is located on the other axial side of the axial end 6a. After the movable contact 9 is disconnected from the fixed contact 10, the initial position shown in FIG.

  By configuring as described above, even if the magnet switch 2 is downsized and the load of the C return spring 14 is reduced, the load of the plunger return spring 15 can be applied and assisted. The reliability when the movable contact 9 is cut off from 10 can be secured.

  The contact shaft 12 and the collar 13 are made of a non-magnetic material, particularly a resin.

  Further, even if the contact shaft 12 and the collar 13 are integrally formed and a separate member is assembled and held on the tip collar portion 12b of the contact shaft 12, the same effect as the above-described configuration can be obtained.

The above configuration can also be expressed as follows.
1) Engagement portion (the axial end 6a of the radially inner peripheral surface 6c of the plunger 6 and the axial end 13a of the radially outer peripheral surface 13c of the collar 13) during the closing operation of the movable contact 9, and the movable contact The two engaging portions of the engaging portion 9 at the time of opening operation (the tip collar portion 12 b of the contact shaft 12 and the axial end portion 6 b of the inner peripheral surface 6 c of the plunger 6) are located between the plunger 6 and the contact shaft 12. Is provided.
2) The engaging portion at the closing operation of the movable contact 9 is formed by pushing engagement, and the engaging portion at the opening operation of the movable contact 9 is formed by hooking engagement.
3) The distance between the two engaging portions is shorter than the stroke of the plunger.
4) The pressing engagement portion during the closing operation of the movable contact 9 is an end surface of an outward projecting portion formed on the outer periphery of the contact shaft 12 (for example, an axial end portion 13a portion of the radial outer peripheral surface 13c of the collar 13) and a plunger. 6 and an end surface of the inner protruding small diameter portion (for example, an axial end portion 6a of the radially inner peripheral surface 6c of the plunger 6).
5) The hook engaging portion at the time of the opening operation of the movable contact is an end surface of the outward projecting portion provided at the opposite end portion of the shaft, and an end surface of the inner projecting small diameter portion provided on the plunger at a position facing this. Consists of.
6) The pressing engagement portion is located between the shaft support portion (boss 5) of the fixed iron core and the hook engagement portion.

  As described above, according to the present invention, the driving force of the contact shaft in the contact closing operation is applied from substantially the center of the contact shaft or from the vicinity of the movable contact, thereby preventing the deformation or inclination due to the compression of the contact shaft. A stable transfer operation of the contact shaft can be obtained.

  Furthermore, by installing a collar on the outer periphery of the contact shaft and using it as an engagement surface with the plunger, the position where the contact shaft is propelled further moves closer to the movable contact and leaves the radial support point of the contact shaft. The compressive deformation of the contact shaft at the supporting point sliding portion is eliminated, and a more stable movement operation of the contact shaft can be realized.

  In addition, this invention is not limited to an above-described Example, Various modifications are included in the range which does not deviate from the main point of this invention. For example, the above-described embodiments have been described in detail for easy understanding of the present invention, and are not necessarily limited to those having all the configurations described. In addition, it is possible to add, delete, and replace other configurations for a part of the configuration of the embodiment.

DESCRIPTION OF SYMBOLS 1 Starter body 2 Magnet switch 3 Excitation coil 4 Coil case 5 Boss 6 Plunger 6a Radial inner peripheral surface 6b Inner peripheral surface 7 Shift lever 7a Lower end 8 Pinion 9 Movable contact 10 Fixed contact 11 Plunger shaft 12 Contact shaft 12a Front end surface 12b End Collar part 13 Collar 14 C Return spring 15 Plunger return spring 16 C Oscillating spring 17 Insulating plate

Claims (14)

Energize the solenoid and suck the plunger against the fixed iron core against the spring force.
A magnet switch that opens and closes contacts by operating the contact shaft with the plunger,
The contact shaft is slidably supported by a first sliding support portion formed on the plunger and a second sliding support portion formed on the fixed iron core,
A first engaging portion for causing the plunger to engage the contact shaft and propel the contact shaft in the contact closing direction is between the first sliding support portion and the second sliding support portion. Magnet switch provided. The magnet switch according to claim 1,
When energization to the solenoid is turned off and the plunger returns to the initial position by the force of the spring,
A magnet switch configured such that a second engagement portion provided at an end portion of a contact shaft is engaged with a plunger inner diameter portion when a predetermined amount of stroke is performed. In claim 1,
The magnet switch in which the first engaging portion is formed by a collar fitted to the contact shaft. When the coil is energized and the plunger strokes a predetermined amount against the force of the spring, the plunger engages the shaft and moves the shaft to the contact closed position,
A magnet switch in which a first engagement portion between the plunger and the shaft is formed in the vicinity of the fixed iron core at an intermediate position in the axial direction of the shaft. The magnet switch according to claim 4, wherein
When the coil is de-energized and the plunger returns to the initial position by the spring,
A magnet switch having a second engagement portion that engages the plunger and the shaft in an engagement state in a direction opposite to the first engagement portion when the plunger is stroked by a predetermined amount. A solenoid,
A magnet switch having a plunger driven by the solenoid,
A first shaft and a second shaft slidably provided with the plunger;
The plunger and the second shaft are magnet switches each having an engaging portion that is engaged during a stroke of the plunger. The magnet switch according to claim 6, wherein
A magnet switch in which the second shaft drives a movable contact. The magnet switch according to claim 6, wherein
The plunger is
A first engagement portion that engages with the first shaft;
A magnet switch comprising: a second engaging portion that engages with the second shaft. The magnet switch according to claim 8, wherein
The plunger is a magnet switch including a torsion spring that presses the first shaft. The magnet switch according to claim 8, wherein
The plunger has openings on both axial end faces,
The first shaft protrudes from the opening on one axial side;
A magnet switch in which the second shaft protrudes from the opening on the other side in the axial direction. The magnet switch according to claim 8, wherein
The magnet switch according to claim 2, wherein the second engaging portion has two engaging portions corresponding to a direction of a stroke of the plunger. Energize the solenoid and suck the plunger against the fixed iron core against the spring force.
A magnet switch that opens and closes contacts by operating the contact shaft with the plunger,
The axial length when the contact shaft and the plunger are combined is variable,
A plunger return spring capable of moving the contact shaft in the contact opening direction via the plunger;
The magnet switch which has an engaging part with the said contact shaft in the radial direction internal peripheral surface of the said plunger. The magnet switch according to claim 12, wherein
A magnet switch in which the engaging portion is positioned on the inner diameter side of the plunger return spring within the axial dimension of the plunger return spring.   A starter comprising the magnet switch according to claim 1.

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