KR101898478B1 - High pressure solenoid valve - Google Patents

Abstract

The present invention relates to a high pressure solenoid valve, and more particularly, to a high pressure solenoid valve, in which a pad part having a spool that may be easily worn is separately manufactured from a mechanism part so that only the pad may be exchanged when the pad is worn, which may alleviate an impact with a sleeve while a high pressure does not directly influence the spool, and which may improve performance and reliability of a product by increasing a leak level. The present invention provides a high pressure solenoid valve includes a solenoid coil (11), a sleeve (12) magnetized by a magnetic field of the solenoid coil (11), a spool (13) elevated by a magnetic force by the magnetization of the sleeve (12), a coil spring (14) elastically installed between the spool (13) and the sleeve (12), and a pad (15) fixedly installed at an end of the spool (13) by a cover (16) to be elevated upward and downwards by an electrical signal and configured to open and close a passage of an orifice (23) formed in a sole sheet (22) from an inlet port (21) of a valve housing (20). A male screw part (13a) is formed at a lower end portion of the spool (13) to be screw-coupled to a female screw part (16b) of the cover (16) that accommodates the pad (15) in the interior thereof, a pressing force of a fluid discharged from the inlet port (21) is dispersed by extending an end of the sleeve (12) in a state in which an aperture (d) is maintained between the sleeve (12) and the valve housing (20) while a passage of the inlet port (21) is at least partially blocked.

Description

[0001] The present invention relates to a high pressure solenoid valve,

The present invention relates to a high-pressure solenoid valve, and more particularly, to a high-pressure solenoid valve, in which a pad portion having a large amount of abrasion of a spool is separately manufactured from a mechanical portion so that only a pad is replaced when a pad is worn, And to improve the performance and reliability of the product by raising the leakage level.

In general, the solenoid valve 10 uses the principle of an electromagnet. The solenoid valve 10 transmits a physical force in a predetermined direction and controls the flow of the fluid by opening / closing the flow port of the spool 13- And is widely used in various industrial fields such as electric, electronic, mechanical devices, and the like.

In the system in which high-pressure oil or fluid flows, all the pressure of the fluid introduced into the housing 20 is directly applied to the spool 13 by the solenoid valve 10, .

Therefore, the pad 15 is installed at the end of the spool 13 at a position where the pressure is influenced by the contact with the brush sheet 22 or the passage opened.

The coil spring 14 is elastically provided between the spool 13 and the sleeve 12 so that the spool 13 ascends and descends a predetermined distance up and down the guide path of the sleeve 12 surrounded by the solenoid coil 11. [

The cover 16 is integrally assembled in an interference fit manner in a state where the pad 15 is positioned mainly on the end portion of the spool 13 with an acetal material.

Patent Document: Korean Patent Publication No. 10-1994-008981 (published on May 16, 1994) Korean Patent Registration No. 10-1628569 (registered on June 1, 2016)

According to the conventional solenoid high-pressure valve structure, the pad 15 can not be disassembled, but is assembled integrally with the spool 13, so that even if wear occurs, the entire spool 13 can not be replaced.

Therefore, maintenance cost is high and it is uneconomical.

The brush 15 and the spool 13 are pressed against each other by the relatively small diameter coil spring 14 at the center of the upper end of the spool 13, It easily moved left and right, tilted, and blocked the inlet of the orifice hole, thereby causing leakage.

Since the high-pressure fluid directly impacts the spool 13 or the pad 15, the durability of the product is short and the reliability thereof is low as a whole.

It is an object of the present invention to provide a solenoid high-pressure valve that can replace only a pad when abrasion occurs, thereby reducing the total maintenance cost.

Another object of the present invention is to provide a solenoid high-pressure valve capable of reducing the cause of leakage and dispersing the high pressure of the fluid so as not to be directly applied to the spool, thereby prolonging the service life.

It is still another object of the present invention to provide a solenoid high-pressure valve in which a pad can prevent an orifice hole in a more stable state, thereby improving the leak level and the reliability of the product.

In order to achieve the above object,

A solenoid coil 11,

A sleeve 12 magnetized by the magnetic field of the solenoid coil 11,

A spool 13 which is moved up and down by magnetic force of the magnetization of the sleeve 12,

A coil spring 14 elastically installed between the spool 13 and the sleeve 12,

The passage of the orifice 23 which is fixed by the cover 16 at the end of the spool 13 and is lifted up and down by an electrical signal and pierced from the inlet port 21 of the valve housing 20 to the sole sheet 22 A high pressure solenoid valve comprising a pad (15) for opening and closing,

A male screw portion 13a is formed at the lower end of the spool 13 to screw the female screw portion 16b of the cover 16 accommodating the pad 15 therein,

The end of the sleeve 12 is extended in a state in which the gap between the valve housing 20 and the valve housing 20 is maintained while at least partially blocking the passage of the inlet port 21 and the pressing force of the fluid discharged from the inlet port 21 Is configured to be dispersed by the sleeve (12).

Here, the outer diameter of the end portion of the sleeve 12 forms the chamfer 12a.

The coil spring 14 is set to a coil diameter that is in contact with the inside of the outer diameter portion of the spool 13.

According to the present invention, even if wear of the pad occurs, the cover can be disassembled without replacing the entire parts, so that only the pad can be replaced, so that the maintenance cost can be greatly reduced.

In addition, since the high-pressure pressure disperses the impact through the sleeve, the overall durability can be improved, which is economical.

Further, since the coil spring presses at a larger diameter in the vicinity of the outer diameter of the spool, stable sealing improves the leak level and greatly improves the reliability of the entire product.

1 is a sectional view showing the structure of a conventional solenoid high-pressure valve.
2 is an enlarged cross-sectional view of the main part of Fig. 1;
3 is a sectional view showing the structure of a solenoid high-pressure valve of the present invention.
4 is an enlarged cross-sectional view showing a state in which the flow path is opened by the rise of the spool and pad according to the present invention.
5 is an exploded view of the main part of the present invention.

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

First, the high-pressure solenoid valve 10 of the present invention controls the pressure of air or oil flowing from the inlet 31 of the manifold 30 through the inlet port 21 to a high-pressure fluid passage of about 200 bar, for example It is noted that this valve is used for high pressure.

3 to 5, the solenoid valve 10 is connected to the valve housing 20 so that the high-pressure fluid introduced from the inlet port 21 is supplied to the orifice 23 of the brush sheet 22 The pad 15 is lifted and lowered like the spool 13 by the electric signal and the opening / closing control is performed.

The valve housing 20 is seated on the manifold 30 and fixed by bolts 33. The inlet port 21 has an inlet 31 through which a high pressure fluid is drawn and an orifice 23 of the seat, And an outlet 32 are respectively connected.

The solenoid coil 11 is wound around the upper side of the sleeve 12 to magnetize the sleeve 12 by the magnetic force by the supply of electric power so as to simultaneously pull the spool 13 and the pad 15 housed in the lower side, Thereby opening the orifice 23 of the valve body 22.

When the power supply is interrupted, the pad 15 is lowered like the spool 13 by the resilient coil spring 14 between the sleeve 12 and the spool 13, and the orifice 23 ).

The sleeve 12 has a groove recessed downward to guide the upper and lower parts of the sleeve 12 up and down by a predetermined distance in a state where the spool 13 is accommodated.

The pad 15 for opening or closing the orifice 23 in contact with or not in contact with the sole sheet 22 is pressurized and fixed by the cover 16 with an acetal material, Therefore, abrasion occurs easily, and it is necessary to replace it due to leakage.

In the present invention, a male screw portion 13a is formed at the lower end of the spool 13 for replacing the pad 15, and the female screw portion 16b of the cover 16, which accommodates the pad 15 therein, .

The cover 16 is formed with an upper portion and a latch 15c is formed at a lower portion to receive the pad 15 while the pad 15 is accommodated in the upper portion and a female thread 16b And is screwed to the male screw portion 13a of the spool 13. [

Therefore, when the pad 15 needs to be replaced, the cover 16 is disengaged from the spool 13 so that the cover 15 is disengaged from the spool 13, And then screwed into the spool 13 to complete the assembly.

Therefore, only the pad 15 can be easily replaced without using the spool 13 or the solenoid valve as a whole without repairing or replacing the entire solenoid valve, so maintenance is economical.

Meanwhile, the end of the sleeve 12 is extended to the valve housing 20 while maintaining the clearance d.

At this time, when the lower end portion of the sleeve 12 at least partially blocks the passage of the inlet port 21, the flow path is opened through the gap d, so that the pressing force of the fluid sent out from the inlet port 21 is transmitted to the sleeve 12, And then transmitted to the pad 15.

Since the sleeve 12 is formed of a metal material having high strength, there is no risk of deformation at high pressure.

In this case, the chamfer 12a is formed at the outer diameter of the end of the sleeve 12, that is, at the position where the high-pressure fluid is directly transferred, thereby improving the contact area of the fluid and smoothly introducing the flow path. .

The coil spring 14 is set to a coil diameter which is in contact with the inside of the outer diameter portion of the spool 13.

Accordingly, the elastic force of the coil spring 14 is exerted more widely at a position close to the outer diameter of the spool 13 than in the case where the coil spring is provided at a small diameter at the center, Is not inclined, and a stable state is maintained.

Therefore, it is possible to improve the leak level and the reliability of the product.

A plurality of O-rings are provided at the interface between the valve housing 20, the solesheet 22, and the manifold 30 to maintain airtightness.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention. It will be clear to those who have.

1 - Solenoid valve 11 - Solenoid coil
12 - Sleeve 13 - Spool
13a - Male thread part 14 - Coil spring
15 - Pad 16 - Cover
16b - Male thread part 20 - Valve housing
21 - inlet port 22 - sol sheet
23 - Orifice

Claims (3)

A solenoid coil 11,
A sleeve 12 magnetized by the magnetic field of the solenoid coil 11,
A spool 13 which is moved up and down by magnetic force of the magnetization of the sleeve 12,
A coil spring 14 elastically installed between the spool 13 and the sleeve 12,
The passage of the orifice 23 which is fixed by the cover 16 at the end of the spool 13 and is lifted up and down by an electrical signal and pierced from the inlet port 21 of the valve housing 20 to the sole sheet 22 A high pressure solenoid valve comprising a pad (15) for opening and closing,
A male screw portion 13a is formed at the lower end of the spool 13 to screw the female screw portion 16b of the cover 16 accommodating the pad 15 therein,
The end of the sleeve 12 is extended in a state in which the gap between the valve housing 20 and the valve housing 20 is maintained while at least partially blocking the passage of the inlet port 21 and the pressing force of the fluid discharged from the inlet port 21 And is distributed by the sleeve (12).
The high-pressure solenoid valve according to claim 1, wherein a chamfer (12a) is formed on the outer diameter of the end of the sleeve (12).
The high-pressure solenoid valve according to claim 1, wherein the coil spring (14) is set to a coil diameter that contacts the inside of the outer diameter portion of the spool (13).

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