KR101451262B1 - Filter for solenoid valve - Google Patents

Abstract

The present invention relates to a filter for a solenoid valve, in which the thickness of the rib is made thinner than the thickness of the rim portion, so that oil can flow in and out of the hydraulic port smoothly and efficiently.

Description

[0001] FILTER FOR SOLENOID VALVE [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a filter for a solenoid valve, and more particularly, to a filter for a solenoid valve that allows efficient flow of oil flowing into and out of a hydraulic port.

In general, a solenoid valve for a vehicle is used in a transmission that converts the power generated by the engine into a required torque according to the speed of the engine. The transmission includes a manual transmission in which the shifting process is manually performed by the driver, It is divided into a transmission. The automatic transmission includes a torque converter, an operating mechanism, a planetary gear unit, a hydraulic control mechanism, and an electronic control unit. The hydraulic control mechanism is provided with a pressure regulating valve mechanism for maintaining a constant pressure in the automatic transmission, A solenoid valve is used as the regulating valve mechanism.

A solenoid valve used as a pressure control valve mechanism has a spool type valve, a ball type valve and a poppet type valve according to its internal structure.

The spool type solenoid valve of the above-described vehicle solenoid valve includes a flange 10 having a hydraulic port 11 for guiding a fluid flow, as shown in Fig. 1, which is shown in Patent Publication No. 10-0694637, A plate (PLATE) 12 disposed in an upper surface seating groove of the spool 16; a rod (not shown) disposed in close contact with a lower portion of the spool 16; A bobbin 26 that surrounds the outer surface of the plunger 20 and has a coil 28 wound around the outer surface of the plunger 20; A yoke 22 disposed between the lower surface of the flange 10 and the lower surface of the flange 10, a core 32 having an outer surface attached to the lower surface of the bobbin 26 and a central portion disposed on the bottom surface of the plunger 20, A spring 36 disposed between the hollow 32a of the core 32 and the inner surface of the rod 18 and a spring 36 fastened to the hollow 32a of the core 32 Is composed of an adjusting screw 38 and a case 34 surrounding the bottom surface of the core 32, the outer periphery of the coil 28 and the lower end of the flange 10.

In addition, the flange 10 is equipped with a filter 40 so that foreign matter of oil flowing in and out of the hydraulic port 11 can be filtered.

2, the filter 40 includes a rim portion 42 formed in a closed loop shape and forming a through hole 41, a rim portion 42 extending across the rim 41, And a mesh 44 which is fixed to the rim 43 and the rim 43. The ribs 43 and 44 are made of metal.

The thickness of the rib 43 of the conventional filter 40 is thick as the thickness of the rim portion 42 so that the oil shown by the arrow is inclined in the diagonal direction as shown in FIG. When the oil flows into and out of the hydraulic port 11, the oil strikes the upper or upper surface of the rib 43, so that the flow of the oil is not efficient.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a filter for a solenoid valve in which oil can efficiently flow into and out of a hydraulic port of a flange.

According to an aspect of the present invention, there is provided a filter for a solenoid valve mounted on a hydraulic port formed on a flange of a solenoid valve, the filter for a solenoid valve including a rim having a through- And a mesh (MESH) fixed to a bottom surface of the rim and connected to the rim, both ends of the rim are connected to the rim across the through hole, and a mesh (MESH) for covering and filtering the hydraulic port, And is thinner than the thickness of the rim.

Wherein a bottom surface of the rib disposed in the mesh direction and a bottom surface of the rim portion are located on the same plane and the upper surface of the rib is located lower than the upper surface of the rim portion so that the upper surface of the rib is closer to the mesh than to the upper surface of the rim portion. And are disposed adjacent to each other.

The upper surface of the rib disposed in the opposite direction of the mesh and the upper surface of the rim are located on the same plane and the bottom surface of the rib is located higher than the bottom surface of the rim and the bottom surface of the rib is spaced from the mesh .

And the rib is formed in a triangular shape having a narrow width in a direction opposite to the mesh.

According to the present invention, since the thickness of the ribs is made thinner than the thickness of the rim portion, the oil passing through the filter can hit the ribs, so that the flow can be smoothly and efficiently flowed into and out of the hydraulic port.

Wherein an upper surface of the rib is located lower than an upper surface of the rim and an upper surface of the rib is disposed adjacent to the mesh than an upper surface of the rim so that when the oil flows into and out of the hydraulic port in an oblique direction, It is possible to flow more smoothly and efficiently without colliding with the upper or upper surface of the rib, and the rib can support the mesh.

The bottom surface of the rib is positioned higher than the bottom surface of the rim and a space is formed between the bottom surface of the rib and the mesh so that the oil is moved between the spaces when the oil flows in and out so that oil flows smoothly and efficiently into the large area of the hydraulic port And out.

The rib is formed in a triangular shape whose width becomes narrower from the bottom surface of the rib to the upper surface. Therefore, when the oil flows in and out, the oil can move on the upper surface of the rib and flow smoothly into and out of the hydraulic port.

1 is a sectional view showing a conventional solenoid valve.
2 is a perspective view showing a filter for a conventional solenoid valve.
3 is a cross-sectional view of a solenoid valve according to an embodiment of the present invention.
4 is an exploded perspective view of a solenoid valve and a filter according to an embodiment of the present invention.
5 is a cross-sectional view illustrating a filter according to an embodiment of the present invention in comparison with a conventional filter.
6 is a view illustrating a filter according to another embodiment of the present invention.
7 is a view illustrating a filter according to another embodiment of the present invention.

In the present invention, the thickness of the rim connecting the rim to the rim and the rim connecting the rim to the filter is made thinner than the thickness of the rim, thereby reducing the flow resistance of the oil caused by the oil colliding with the upper or upper surface of the rib, Thereby allowing the oil flowing into and out of the hydraulic port to flow in and out more smoothly.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

3 is a cross-sectional view of a solenoid valve according to an embodiment of the present invention.

Referring to FIG. 3, the solenoid valve 100 according to an embodiment of the present invention includes a magnetic portion 110 for generating an electromagnetic force and a flange 120 for flowing and discharging oil.

The magnetic portion 110 is configured to generate an electromagnetic force to stably control the oil pressure of the oil. The flange 120 has a hydraulic port 121, which communicates with the inner passage on the outer circumferential surface thereof, And a filter seating part 122 on which a filter 130 for filtering foreign substances flowing in and flowing out through the hydraulic port 121 is seated is formed.

This is the same as that of a known conventional solenoid valve, and a detailed description thereof will be omitted, and the filter 130 different from the known technique will be described in detail with reference to the accompanying drawings.

4 is an exploded perspective view of a solenoid valve and a filter according to an embodiment of the present invention.

4, the filter 130 is seated on the filter seating part 122 formed on the outer circumferential surface of the flange 120, so that the foreign matter mixed with the oil flows into the flange 120 through the hydraulic port 121 And includes a mesh (MESH) 131, a rim 132, and a rib (RIB) 133.

The mesh 131 is fixed to the bottom surface 132b of the rim portion 132 and contacts the bottom surface 133a of the rib 133 to cover the hydraulic port 121 and filter foreign matter mixed with the oil.

Here, the mesh 131 is not only in contact with the bottom 133a of the rib 133 but also can be fixed. Accordingly, the mesh 131 can be more firmly fixed by the oil pressure of the oil without separating from the rim 133 and the rim 133. [

The rim portion 132 has four edges spaced apart from each other at regular intervals and is connected to each other to form a closed loop, and is reinforced by the rib 133.

At least one rib 133 is formed and the through-hole 132a formed by forming the rim 132 in the shape of a closed loop is passed across the longitudinal direction of the flange 120, (132).

The ribs 133 may be positioned on the filter seat 122 due to excessive pressure of the oil flowing in and out through the hydraulic port 121 when the rim 133 is seated in the filter seat 122, 130 are reinforced so that the overall shape of the rim 132 is not deformed.

The rib 133 is formed to be thinner than the rim 132 so that the bottom surface 133a of the rib 133 and the bottom surface 132b of the rim 132 are located on the same plane The upper surface 133b of the rib 133 is positioned lower than the upper surface 132c of the rim 132 so that the upper surface 133b of the rib 133 is positioned on the upper surface 132c of the rim 132, Is disposed adjacent to the mesh (131).

5 (a), the thickness of the rib 43 is equal to the thickness of the rim portion 42, so that the flow of oil flowing into and out of the hydraulic port 11 is reduced 5 (b), the filter 130 of the present invention is formed such that the thickness of the rib 133 is thinner than the thickness of the rim 132, so that the oil flows smoothly and efficiently can do.

More specifically, in the case of oil flowing in a diagonal direction due to a thick thickness of the rib 43, the conventional filter 40 collides with the upper or upper surface of the rib 43, so that the flow of oil is not smooth.

However, the filter 130 of the present invention has a thin thickness of the rib 133 when the oil flows in and out in the same direction and angle as the conventional filter 40, and passes the upper direction of the rib 133, The oil can flow more smoothly and efficiently than the conventional filter 40.

Here, when the oil flows into and out of the hydraulic port 121, the rib 133 can flow more smoothly and efficiently by removing the rib 133, The thickness of the rib 133 is made thinner than the thickness of the rim portion 132 and the end portions of the rib 133 are formed to be thicker than the rim 133. [ The oil can be smoothly and efficiently flowed into and out of the hydraulic port 121 while maintaining the strength of the rim 132 when the rim 132 is connected to the rim 132.

6, the upper surface 133b of the rib 133 and the upper surface 132c of the rim 132 are located on the same plane, and the bottom surface 133a of the rib 133 is located on the same plane Or may be located higher than the bottom surface 132b of the rim 132. [

The bottom surface 133a of the rib 133 is spaced apart from the mesh 131 and a predetermined space 134 is formed between the bottom surface 133a of the rib 133 and the mesh 131 .

Accordingly, when the oil flows into and out of the hydraulic port 121, the oil flows into and out of the portion of the mesh 131 which overlaps with the rib 133, thereby increasing the filtering area The relatively large area of the mesh 131 can pass smoothly and efficiently.
6, since the upper surface of the mesh 131 is spaced apart from the rib 133 while maintaining the strength of the rim portion 132 by the rib 133, 133 can contact the upper surface of the mesh 131, the filtering area of the mesh 131 can be increased.

7, the rib 133 is formed to have a rectangular cross section. However, as shown in FIG. 7, the width of the rib 133 decreases from the bottom 133a to the top 133b, It may be formed in a triangular shape.

Therefore, when the oil flows into and out of the hydraulic port 121, the oil flows on the upper surface 133b of the rib 133 having a small contact area with the oil, thereby allowing the oil to flow and flow more smoothly and efficiently .

As described above, in the solenoid valve filter 100 of the present invention, since the thickness of the rib 133 is made thinner than the thickness of the rim portion 132, the oil can flow into the hydraulic port 121 more smoothly and efficiently And out.

In addition, by forming the ribs 133 in a triangular shape having a narrower width toward the upper surface, the oil flowing in and out of the ribs 133 in the vertical direction can be efficiently introduced and discharged.

The filter for a solenoid valve of the present invention is a filter (100) used for a solenoid valve for an automatic transmission.

It will be understood by those skilled in the art that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof.

It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive.

The scope of the present invention is defined by the appended claims rather than the detailed description, and all changes or modifications derived from the scope of the claims and their equivalents should be construed as being included within the scope of the present invention.

100: solenoid valve 110: magnetic part
120: Flange 121: Hydraulic port
122: filter seat part 130: filter
131: mesh 132:
132a: Through hole 132b: Bottom
132c: upper surface 133: rib
133a: bottom surface 133b: upper surface

Claims (4)

A solenoid valve filter mounted on a hydraulic port formed on a flange of a solenoid valve,
A rim having a closed loop shape and forming a through hole therein;
A rib (RIB) crossing the through hole and having both end portions connected to the rim portion; And
And a mesh (MESH) fixed to a bottom surface of the rim portion to cover and filter the hydraulic port,
The thickness of the rib is thinner than the thickness of the rim,
The bottom surface of the rib is located higher than the bottom surface of the rim and the bottom surface of the rib is spaced apart from the mesh, Wherein the solenoid valve is a solenoid valve. delete delete The method according to claim 1,
The ribs
Wherein the filter has a triangular shape in which the width thereof is narrower in the direction opposite to the mesh.

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