JP2672975B2 - Electromagnetic actuator - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to an electromagnetic actuating device in which a plunger is actuated by a suction force by a magnetic force.

<Prior Art> As shown in FIG. 2, such a conventional electromagnetic actuating device has a first solenoid housing 1 made of a magnetic material, a non-magnetic material link 2 and an inner side of a second solenoid housing 3 made of a magnetic material. A continuous slide hole 4 is formed in the slide hole 4, a plunger 5 made of a magnetic material is slidably inserted into the slide hole 4, and a current is applied to the solenoid 6, so that the cover 7, the second solenoid housing 3, and the plunger 5 and the magnetic field lines passing through the first solenoid housing 1 to form the plunger 5 in the first position.
8 formed on one end of the solenoid housing 1 of
Alternatively, it is sucked to the side of the stopper member 9 made of a magnetic material provided inside the first solenoid housing 1. A shaft 10 made of a non-magnetic material that is inserted through the center of the stopper member 9 is connected to the plunger 5.
A flange portion 11 that abuts on the stopper member 9 is formed on the inner surface of the stopper member 9. The operating range of the plunger 5 is limited so that the flange portion 11 does not use a region where linear characteristics are not obtained.

<Problems to be Solved by the Invention> In the above-described electromagnetic actuator, since the sliding hole 4 and the plunger 5 are in sliding contact, there is a problem that friction resistance is large and hysteresis is large. Further, merely guiding and supporting the plunger by using a bearing requires the stopper member 9 and the flange portion 11, which causes a problem of increasing the number of parts.

<Means for Solving the Problems> The present invention has been made to solve the above-mentioned problems, and a solenoid is arranged on the outer periphery of a solenoid housing made of a magnetic material and a fitting hole is formed inside the solenoid housing. Then, a cylindrical outer ring made of a magnetic material is inserted into the fitting hole, and a cylindrical retainer made of a non-magnetic material is provided inside the outer ring so that one end projects a predetermined amount from the outer ring. The balls are held apart from each other in the longitudinal direction of the retainer, a support rod made of a non-magnetic material is guided and supported by these balls, and a plunger made of a magnetic material that can abut the retainer protruding by a predetermined amount from the outer ring on this support Are connected.

<Operation> When a current is applied to the solenoid, a magnetic force is generated to attract the plunger toward the outer ring, and this magnetic force moves the plunger together with the support rod toward the outer ring. The rolling resistance of the ball during the movement of the support rod can reduce the frictional resistance of the plunger, and the contact of the plunger with the retainer can limit the operating range of the plunger.

Embodiment An embodiment of the present invention will be described below with reference to FIG. 20
Is a solenoid housing made of a magnetic material, and this solenoid housing 20 is composed of a cylindrical portion 21 and a flange portion 22, and a yoke 21a is formed at one end of the cylindrical portion 21. A fitting hole 23 is formed so as to penetrate the inside of the solenoid housing 20, and a step portion 24 is formed in the middle of the fitting hole 23. A cylindrical outer ring 25 made of a magnetic material is fitted and inserted to a position where it comes into contact with the stepped portion 24, and a cylindrical retainer 26 made of a non-magnetic material is fitted and inserted in the outer ring 25. This retainer 26
One end of the retainer 26 projects from the outer ring 25 by a predetermined amount, and an outwardly bent flange portion 26a is formed at the other end of the retainer 26, and the flange portion 26a is in contact with one end of the outer ring 25. Ball retainer windows 27 are formed in the retainer 26 at positions spaced apart from each other in the longitudinal direction of the retainer 26.
Contains 28. The ball holding window 27 is formed larger than the diameter of the ball 28 so that the ball 28 does not come into contact with it. A support rod 29 made of a non-magnetic material is guided and supported by the ball 28, and a knurled eye 30 is formed at one end of the support rod 29. A plunger 31 made of a magnetic material is press-fitted into the knurled eye 30.

A solenoid 35 is arranged on the outer periphery of the solenoid housing 20, and the solenoid 35 is covered with a cover 36 made of a magnetic material. An end cover 37 made of a magnetic material is in contact with one end of the solenoid 35, and one end of the cover 36 is caulked to the end cover 37. A concave hole 38 is formed in the end cover 37 coaxially with the fitting hole 23 of the solenoid housing 20, and the plunger 31 is inserted into the concave hole 38.
Is loosely fitted.

Reference numeral 40 denotes a spool housing made of a non-magnetic material, which is connected to the solenoid housing 20 by caulking one end of the cover 26 in a state of being in contact with the solenoid housing 20. By this connection, the outer ring 26 is sandwiched between the step portion 24 and the spool housing 40, and the outer ring 26 is held at a predetermined position. A sliding hole 41 is formed in the spool housing 40 coaxially with the fitting hole 23, and a spool 42 is slidably fitted in the sliding hole 41. In the spool housing 40, first and second tank passages 43 and 44, which communicate with a tank (not shown) and a sliding hole 41, which are located outside the cover 21 in order from the solenoid housing 20, and an actuator (not shown) and a sliding hole are provided. A line passage 45 communicating with 41, a supply passage 46 communicating with the pump (not shown) and the sliding hole 41, and a third tank passage 47 communicating with the tank (not shown) and the sliding hole 41 are formed. Has been done. spool
A first land portion 50, a second land portion 51, and a third land portion 52 are formed in the space 42 at intervals, and the first land portion 50 forms a line passage 45 and a second tank passage 44. The communication between the line passage 45 and the supply passage 46 is controlled by the second land portion 51. Cap 53 for sliding hole 41
Is screwed into the cap 53 and the third land portion.
A spring 54 is interposed between 52 to urge the spool 42 in the direction of abutting the support rod 29.

Next, the operation will be described based on the configuration described above.
When a current is applied to the solenoid 35, the cover 36, the end cover 37, the plunger 31, the solenoid housing 20, and the outer ring
A magnetic force line passing through 25 is generated, and a force that causes the plunger 31 to be attracted to the yoke 21a and the outer ring 25 is generated. This suction force causes the plunger 31 and the spool 42 to move to the spring 54.
Defeat and go to the right. By this rightward movement, the ball 28 rolls on the support rod 29 and the outer ring 25, so that the support rod 29 and the plunger 31 do not give sliding resistance due to slip. Also spool
The rightward movement of 42 increases the opening degree of the passage that connects the line passage 45 to the supply passage 46, and decreases the opening degree of the passage that connects the line passage 45 to the second tank passage 44. As a result, the pressure of the oil supplied to the line passage 45 rises to the pressure of the oil in the supply passage 46. The rightward movement of the plunger 31 is restricted by coming into contact with the retainer 26, and restricts the operation of the plunger 31 near the outer ring 25 where linear characteristics cannot be obtained.

In this way, the outer ring 26 has a role of sucking the plunger 31, and the retainer 26 has a role of a stopper for limiting the operation range of the plunger 31, so that the number of parts can be reduced.

In the above embodiment, the pressure reducing valve is mainly the plunger 31, the support rod 29, the outer ring 25, the retainer 26, the ball 28, the solenoid housing 20 and the solenoid 35. The electromagnetic actuator may be applied to the valve.

<Effects of the Invention> As described above, according to the present invention, the solenoid is arranged on the outer circumference of the solenoid housing made of a magnetic material, and the fitting hole is formed inside the solenoid housing, and the cylindrical outer ring is formed in the fitting hole. Then, insert a cylindrical retainer inside the outer ring, and hold a plurality of balls in the retainer in the longitudinal direction of the retainer so that the support bar made of a non-magnetic material is guided and supported by these balls. Since the plunger is connected to the support rod, the plunger can be operated smoothly and the hysteresis can be reduced. Further, since the outer ring is made of a magnetic material, the outer ring can be made to have a function of attracting the plunger, and moreover, the retainer is protruded from the outer ring by a predetermined amount, and the retainer is brought into contact with the retainer. Can serve as a stopper, and the effect of reducing the number of parts can be obtained.

[Brief description of the drawings]

FIG. 1 is a sectional view showing an example in which the electromagnetic actuator of the present invention is applied to a pressure reducing valve, and FIG. 2 is a sectional view of a conventional electromagnetic actuator. 20 ... Solenoid housing, 23 ... Fitting hole, 25 ... Outer ring, 26
… Retainer, 28… Ball, 29… Support rod, 31… Plunger, 35… Solenoid, 36… Cover, 37… End cover.

Front Page Continuation (72) Inventor Yutaka Toyaga 1 Toyota Town, Toyota City, Aichi Prefecture, Toyota Motor Co., Ltd. (72) Inventor Kunihiro Iwatsuki 1 Toyota Town, Toyota City, Aichi Toyota Motor Company, Ltd. Auditor Torii Minoru (56) Bibliography Sho 62-23418 (JP, U) Rikai 59-10576 (JP, U) Rikai 61-14271 (JP, U)

Claims (1)

(57) [Claims] 1. A solenoid is disposed on the outer periphery of a solenoid housing made of a magnetic material, and a fitting hole is formed inside the solenoid housing. A cylindrical outer ring made of a magnetic material is inserted into the fitting hole, and the outer ring is formed. A cylindrical retainer made of non-magnetic material is provided inside the so that one end projects a predetermined amount from the outer ring, and the retainer holds a plurality of balls separated from each other in the longitudinal direction of the retainer. An electromagnetic actuating device comprising: a supporting rod, which is guided and supported, and a plunger made of a magnetic material, which is protruded from the outer ring by a predetermined amount and is capable of contacting the retainer.