JP2536236B2 - solenoid valve - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to a solenoid valve that is provided in a hydraulic circuit of an automobile or the like to control hydraulic pressure.

[Prior Art] For example, as described in Japanese Utility Model Laid-Open No. Sho 64-15882, a spool valve is inserted into a sleeve so that the spool valve can advance and retreat, and the spool valve is operated by exciting an electromagnetic coil. Conventionally, a solenoid valve adapted to perform switching is known.

FIG. 8 shows an example of a conventional solenoid valve of this type. In this electromagnetic valve (1), a valve (3) is inserted into a sleeve of a case (2) so as to be able to move forward and backward, and a tapered first valve seat portion (3) is provided on an outer surface of the valve (3).
a) and the second valve seat portion (3b) are formed. Further, on the inner peripheral surface of the sleeve, when the valve (3) slides in the vertical direction, the valve seat portions (3a) (3b) come into contact with the first valve seat (4) and the second valve seat (4). A seat (5) is provided.

A core (6) is fixed at a predetermined position above the valve (3) in the case (2), and a suction surface (6a) is provided at the upper end of the core (6). In addition, the case (2) has a surface facing the suction surface (6a) in the central portion thereof, and by moving the central portion of the core (6) so as to move back and forth, the upper end surface of the valve (3) ( A plunger (7) is provided, which abuts the proximal end surface) and presses the valve (3). A bobbin (8) made of an insulating material is fixed around the core (6), and a coil (9) is wound around the bobbin (8).

A lid member (10) is fixed to the inner surface of the upper end of the case (2). The lower end of the valve (3) is biased toward the plunger (7) by the spring (11), and the lower end of the spring (11) is screwed into the case (2) by a bolt (12). The bolt (1
The urging force of the spring (11) is adjusted by 2).

In the solenoid valve (1) configured as above, when the coil (9) is not excited, the suction surface (6a) of the core (6) is
(XG) is formed between the valve and the plunger (7), the first valve seat portion (3a) of the valve (3) separates from the first valve seat (4), and the second valve seat portion. (3b) is in contact with the second valve seat (5).

When the coil (9) is energized in this state, the plunger (7) is attracted to the attraction surface (6a) of the core (6) by the magnetic force. Therefore, the valve (3) is pressed against the biasing force of the spring (11), the first valve seat portion (3a) contacts the first valve seat (4), and the second valve seat portion (3b) is The fluid passage is switched away from the second valve seat (5).

[Problems to be Solved by the Invention] In the solenoid valve (1) configured as described above, the pressing force of the plunger (7) against the valve (3) greatly affects the performance of the solenoid valve (1). . In order to properly manage such pressing force, it is necessary to accurately manage the gap (XG) between the plunger (7) and the suction surface (6a) of the core (6). However, in the conventional solenoid valve (1), the clearance (XG) varies due to the variation of each component, and as a result, the performance of the solenoid valve also varies.

The present invention has been made in order to solve the above problems, and the gap between the plunger and the suction surface of the core can be set easily and accurately, which results in less variation in performance. The purpose is to obtain a solenoid valve.

[Means for Solving the Problems] In a solenoid valve according to the present invention, a core and a bobbin are provided slidably with respect to a case, and the core and the bobbin are provided on an end surface of the case opposite to the valve insertion side. Further, an elastic member for urging the valve is provided, and is inserted inside the end of the case opposite to the valve insertion side, presses the plunger to push the valve down to the stop position, and the suction surface of the plunger and the core. A lid member fixed to the case is provided by a caulking method that deforms the case from the outer direction substantially orthogonal to the axial direction in a state where the gap is adjusted to an arbitrary set value in consideration of the valve movement amount. Is.

[Operation] In the present invention, the core and the bobbin slidably provided with respect to the case are urged toward the case end face by the elastic member, and the case lid member is urged against the urging force. Since the clearance between the plunger and the suction surface of the core is adjusted and assembled, the clearance between the plunger and the suction surface of the core can be set easily and accurately.

Embodiments Embodiments will be described below with reference to the drawings.

1 is a sectional view showing an embodiment of a solenoid valve according to the present invention, FIGS. 2 and 3 are sectional views showing an assembled state of the solenoid valve in the same embodiment, and FIG. 4 is a plan view of FIG. 5 is a sectional view taken along the line AA of FIG.

In this embodiment, the structure of the device including the valve, core, plunger, etc. is basically the same as that of the conventional device shown in FIG. Therefore, the description of the configuration and operation common to the apparatus of FIG. 8 is omitted, and the points peculiar to this embodiment will be mainly described below.

In this embodiment, the case (2) is divided into two members, a first case (2a) and a second case (2b), and a second case (2b) is inserted into the first case (2a) so that they are both It is formed by being joined.

The core (6) and the bobbin (8) are the first case (2a)
It is provided slidably with respect to the inner surface (2d) of the. Further, between the lower end surface of the core (6) and the second case (2b), an elastic member (13) such as a wave washer that abuts on the lower end surface of the core (6) is provided. The core (6) is constantly urged toward the upper end surface (2c) of the first case (2a) by the urging force of (13). On the other hand, a spacer portion (8a) is formed on the inner surface of the bobbin (8) so as to rest on the suction surface (6a) at the upper end of the core (6). Therefore, when the core (6) moves toward the upper end surface (2c) of the first case (2a) by the urging force of the elastic member (13), the suction surface (6a) of the core (6) moves the spacer portion (8a). By pressing, the bobbin (8) also moves to the upper end surface (2c) side at the same time.
The bobbin (8) is also integrally provided with a holder (14) so as to sandwich the spacer portion (8a) with the suction surface (6a) of the core (6).

A lid member (10) made of a non-magnetic material is provided on the inner upper end of the first case (2a). A plate (15) that supports the spring (11) is provided at the inner lower end of the second case (2b). In the figure, (16) shows a guide that is press-fitted into the core (6) and slides the plunger (7).

The solenoid valve (1) of this embodiment is assembled in the following procedure.

First, the first case (2a) is fixed to the jig (17) having holes, and the respective constituent parts of the first case (2a) are sequentially inserted. When all the components are assembled, the core (6), the bobbin (8), the plunger (7) are urged by the urging force of the elastic member (13) provided between the core (6) and the second case (2b). ), The holder (14) and the lid member (10) are slightly floating to the upper end surface (2c) side with respect to the first case (2a).

From this state, the pin (18) is inserted through the hole provided in the lid member (10) and the plunger (7) is pressed to move the valve (3).
The first valve seat part (3a) of is the first valve seat (4)
Push down the pin (18) until it touches. Then,
As shown in FIG. 2, the gap (XG) between the plunger (7) and the suction surface (6a) of the core (6) becomes zero.

Next, when a load (F) weaker than the biasing force of the elastic member (13) is applied to the lid member (10) from above, the core (6), the bobbin (8), the holder (14) and the lid member (10). Adhere to form a rigid body, and the distance (rigid body distance) between the upper end of the lid member (10) and the lower end of the core (6) becomes a constant value (l).

From this state, the value of the clearance (XG) between the plunger (7) and the suction surface (6a) of the core (6) is set in consideration of the movement amount (s) of the valve (3), and only the set distance is set. Lid member (1
When 0) is pushed down, the rigid body distance (l) is constant, so as shown in FIG. 3, the elastic member (13) contracts by the set distance and the gap (XG) is set to a predetermined value.

Next, as shown in FIGS. 4 and 5, the first case (2a) is fixed. , "First case (2
At four locations on the side of a), the first case (2a) is deformed by a punch (not shown) in the groove (10a) formed in the outer peripheral portion of the lid member (10), so-called side coking. The lid member (10) is fixed to the first case (2a) by a method. Side caulking is a caulking method in which the case is deformed by the punch from the outside direction substantially orthogonal to the axial direction as described above.

Assembled as described above, the gap (XG) between the plunger (7) and the suction surface (6a) of the core (6)
Can be set accurately.

Although the spacer portion (8a) is formed on a part of the bobbin (8) in the above embodiment, the spacer portion (8a) is made of a non-magnetic material as shown in FIG. It can be a member.

Further, in the above embodiment, the lid member (10) and the first case (2a) are directly fixed to each other, but as shown in FIG. 7, the holder (14) is fixed to the first case (2a). The lid member (10) may be fixed to the holder (14) and only the portion facing the plunger (7) inside the holder (14) may be a lid member (10) made of a non-magnetic material.

As described above, according to the present invention, the core and the bobbin are slidably provided with respect to the case, and the core and the bobbin are biased toward the case end surface side by the elastic member,
With the lid member fixed to the case, the gap between the plunger and the suction surface of the core is adjusted against the biasing force of the elastic member. Since the gap between the plunger and the suction surface of the core in the non-excited state is adjusted to an arbitrary set value by the caulking method that deforms the case from the outer direction that is substantially orthogonal to the axial direction, the suction of the plunger and the core is adjusted. It is possible to easily and accurately set the clearance between the surface and the surface, and it is possible to obtain a solenoid valve with less variation in performance.

[Brief description of drawings]

1 is a sectional view showing an embodiment of a solenoid valve according to the present invention, FIGS. 2 and 3 are sectional views showing an assembled state of the solenoid valve in the same embodiment, and FIG. 4 is a plan view of FIG. 5, FIG. 5 is a sectional view taken along the line AA of FIG. 4, FIG. 6 is a sectional view showing another embodiment of the present invention, and FIG. 7 is a sectional view showing an essential portion of yet another embodiment of the present invention. FIG. 8 is a sectional view showing a conventional solenoid valve. In the figure, (1) is a solenoid valve, (2) is a case, (2c) is an upper end surface, (3) is a valve, (4) is a first valve seat, (5) is a second valve seat, and (6). Is a core, (6a) is a suction surface, (7) is a plunger, (8) is a bobbin, (9) is a coil, (10) is a lid member, (13) is an elastic member, and (XG) is a gap. In the drawings, the same reference numerals indicate the same or corresponding parts.

Claims (1)

(57) [Claims] 1. A case, a valve that reciprocates between valve seats provided in the case, a plunger that abuts against an end face of a base end side of the valve and presses the valve, and a suction surface facing the plunger. In a solenoid valve having a core having an end opposite to the contact portion with the valve for attracting the plunger, and a bobbin wound around the coil and having a coil wound around the core. A bobbin is provided slidably with respect to the case, and an elastic member for urging the core and the bobbin toward an end surface of the case opposite to the valve insertion side is provided, and the valve of the case is provided. Inserted on the side opposite to the insertion side and on the inside of the end, the plunger is pressed to push down the valve to the stop position, and the gap between the plunger and the suction surface of the core is arbitrary considering the amount of valve movement. While adjusted to the set value,
An electromagnetic valve comprising a lid member fixed to the case by a crimping method of deforming the case from an outer direction substantially orthogonal to the axial direction.