KR200191862Y1 - A solenoid valve for controlling gas flow - Google Patents

Abstract

The present invention relates to a solenoid valve for controlling the flow of gas, a bobbin in which a solenoid coil is wound is installed in a cylindrical housing, a holder in which a spool is accommodated in the center of the bobbin, and a packing nipple is coupled to the holder. A central gas passage in which the spring is built while the spool is elastically supported by a spring with respect to the packing nipple, while the gas passes through the center of the spool is built in the holder. The central gas passage is connected to the outer surface of the spool through the inclined passage to distribute the gas, and the flow of the gas is turned on / off as the spool opens and closes the gas passage of the holder. have. The present invention of such a configuration has a small volume because the gas control mechanism is completely contained in the solenoid coil, and the spool can open and close the gas passage accurately, so that the flow of gas can be reliably controlled.

Description

A solenoid valve for controlling gas flow

The present invention relates to a solenoid valve for controlling the flow of gas, and more particularly to a solenoid valve for gas control that can reduce the volume to a small size while being able to accurately control the flow of gas.

In general, a gas such as gas or air is excellent in its fluidity and diffusivity, so the valve for controlling the flow of the gas must be precisely and precisely manufactured to accurately control the flow of the gas.

In other words, there is no problem in communicating the flow of the gas, but in order to prevent the gas or air from leaking correctly, the spool which blocks the flow of the gas must be operated precisely, and the gas passage is surely sealed. It should be able to maintain it. In addition, when the gas to be controlled is high pressure, the spool inside the valve must be able to shut off the gas passage in a tight airtight state, and due to the high pressure of the gas, the spool inside the valve is pushed or the gas leaks from the inside of the valve. Should not be.

However, most of the valves that control the flow of gas have a spool installed inside the valve that does not block the flow of gas accurately when the gas to be controlled is a high pressure. do. However, if the gas is air, there may be no problem even if there is a slight leak, but if it is a dangerous gas or the like, even a slight leak may cause a great risk.

On the other hand, even in the case of air, if there is a leak, there is a problem that the actuator operated by the air is difficult to control to the correct position.

Therefore, in order to solve this problem, the valve that controls the flow of most gases has a disadvantage that the price is expensive due to problems such as sophisticated manufacturing.

In addition, as described above, a conventional general valve has a complicated internal structure and a volume so that a spool or a blocking element that blocks / opens a gas flow operates at right angles to the flow direction of the fluid or precise control is performed. Had the disadvantage of being large.

Therefore, the present invention solves the problems caused by the conventional general gas control solenoid valve as described above, and provides a gas control solenoid valve that can reduce the volume while accurately controlling the flow of high pressure gas. have.

Gas control solenoid valve of the present invention for achieving the above object, the housing coupled to the lid to form a hollow space; A bobbin in which a solenoid coil is wound while being installed inside the housing; While penetrating through the lid of the housing and installed in the center hole formed in the center of the bobbin, the gas passage and the gas passage hole is formed through the central portion along the longitudinal direction and the space is formed inside the spool is formed A holder having a female thread at the tip of the space; A packing nipple formed with a gas injection path along a longitudinal direction and having a male screw formed at an outer end thereof, the packing nipple being screwed to the female screw of the holder; It is installed in the space of the holder to directly control the flow of gas, the body is partitioned into a gas passage section and the blocking portion, the gas passage portion and the blocking portion is made to be connected to each other by a concave necking portion, the gas cylinder A central gas passage of a predetermined length is formed in the furnace section along the longitudinal direction, and an inclined passage for connecting the central gas passage to the surface of the necking portion is formed, while the blocking portion is provided with a cushioned elastic material by the cover. Combined spools; The tip exposed to the outside of the center gas passage in the state inserted into the center gas passage of the spool is in close contact with the tip of the holder, and is composed of a spring that elastically supports the spool against the holder.

The solenoid valve of the present invention having such a structure, while the spool is elastically moved according to the magnetization and the excitation state of the solenoid coil wound on the bobbin, the inlet of the gas passage hole formed in the holder is formed in the resilient material installed at the tip thereof. Control of the gas flow is controlled.

As described above, the gas control solenoid valve according to the present invention is capable of precisely controlling the flow of gas because the spool is elastically moved along the gas supply passage to block or open the flow of gas.

When the spool controlling gas flow moves in the gas passage of the holder and the gas flow is blocked, the spool blocks the gas passage hole through which the gas is discharged due to the spring elasticity. In the case of high pressure, the degree of blocking of the spool and the gas passage hole becomes higher, so that the problem of gas leakage does not occur.

In addition, since the spool is provided along the gas movement path, the solenoid valve is provided outside the holder in which the spool is installed, so that the volume can be reduced in size.

1 is a cross-sectional view of a gas control solenoid valve according to the present invention blocking the flow of gas;

2 is a cross-sectional view of a gas control solenoid valve according to the present invention in communication with the flow of gas;

Figure 3 is an enlarged cross-sectional view of the packing nipple used in the solenoid valve according to the present invention,

Figure 4 is an enlarged cross-sectional view of the holder used in the solenoid valve according to the present invention,

5 is a cross-sectional view of a spool according to the present invention, a state in which a spring is inserted therein;

FIG. 6 is a right side view of the spool shown in FIG. 5. FIG.

* Explanation of symbols on the main parts of the drawings

1-Housing 2-Solenoid Coil

3-bobbin 4-lid

5,6-Through Hole 7-Holder

8-Packing nipple 9-Female thread

10-male 11-gas passage

12-Gas passage hole 13-Interior space

14-gas inlet 15-O-ring

16,17-male thread 18-filter net

19-Spool 20-Gas passage section

21-Breakout part 22-Necking part

23-center gas passage 24-sloped passage

25-Elastic 26-Cover

27-Spring 28-Embossing

29-contact projection

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

1 and 2 are cross-sectional views of a solenoid valve for gas control according to the present invention, in which FIG. 1 shows a state in which gas flow is blocked, and FIG. 2 shows a state in which gas flow is open. Figure 6 is a cross-sectional view showing the components of the solenoid valve according to the present invention, as shown in these figures, the gas control solenoid valve of the present invention is a bobbin (3) wound solenoid coil (2) in a cylindrical housing (1) ) And a gas control mechanism for opening and closing the flow of gas in the center of the bobbin (3).

On the other hand, the housing 1 is provided with a lid 4, and through holes 5 and 6 are formed in the centers of the housing 1 and the lid 4, respectively.

The holder 7 is inserted through the through hole 5 formed in the lid 4, and the packing nipple 8 is inserted through the through hole 6 of the housing 1. The holder (7) and the packing nipple (8) inserted through the through hole (5) and through hole (6) of the housing (1) are each of a female screw (9) and a male screw (10) formed on the surface thereof, respectively. It is screwed together as shown in Figures 1 and 2 through.

As shown in FIG. 3, the holder 7 is provided with a gas passage 11, a gas passage hole 12, and an inner space 13 in the longitudinal direction thereof, and the inner space 13. The female screw 9 is formed at the tip of.

As shown in FIG. 4, the packing nipple 8 is provided with the male screw 10 at the tip thereof while the gas passage 11 is formed in the center portion thereof in the longitudinal direction thereof. O-ring 15 is installed at the back of the holder, and when the packing nipple 8 is screwed with the holder 7, the tip of the holder 7 is in close contact with the O-ring 15 to maintain an airtight state. have.

Of course, the rear end of the holder (7) and the packing nipple (8) is provided in the male screw portion (16, 17) for screw connection with other gas supply pipe and gas induction pipe (not shown), respectively, the holder (7) The filter network 18 is installed in the gas passage 11 to prevent foreign substances, which may be contained in the supply gas, from flowing into the gas control mechanism.

In addition, in the inner space 8 formed in the holder 7, a spool 19 for directly controlling the flow of gas is installed to be movable along the axial direction, which is shown in FIG. As shown, the body is divided into the gas passage portion 20 and the blocking portion 21, the gas passage portion 20 and the blocking portion 21 is connected to each other by the concave necking portion 22 The gas passage portion 20 has an inclined passage 24 through which the central gas passage 23 having a predetermined length and the central gas passage 23 are connected to the surface of the necking portion 22 along the longitudinal direction. ) Is formed, and the blocking portion 21 has a structure in which a cushioned elastic material 25 is covered by the cover 26 to prevent movement.

Here, it is preferable to form two or more inclined passages 24 at a predetermined interval along the circumferential direction, rather than to form only one, for smooth flow of gas.

In addition, a spring 27 longer than the length of the central gas passage 23 is inserted into the central gas passage 23 of the spool 19, so that the outside is inserted into the central gas passage 23. The other end exposed to the front end is in close contact with the front end face of the packing nipple 8, and is configured to elastically support the spool 19 with respect to the packing nipple 8.

Meanwhile, as shown in FIGS. 5 and 6, a plurality of embossings 28 are formed on one end surface of the spool 19 so that the spool 19 has a strong force on the front end surface of the packing nipple 8. Contact to reduce the impact, while reducing the noise caused by the impact.

As shown in detail in FIG. 3, a contact protrusion 29 is formed at the inner end of the gas through hole 12 formed in the holder 7 along the periphery of the gas through hole 12. By making the elastic member 25 of the spool 19 come into contact with the contact projection 29, the contact projection 29 and the elastic member 25 can be contacted in an airtight state.

In the solenoid valve of the present invention having the structure as described above, as shown in Figure 2, after the gas is introduced through the gas injection passage 14 of the nipple (8), and then controlled by the gas control mechanism, the holder It is discharged through the gas passage 11 of (7).

On the other hand, the operation of the gas control mechanism is controlled by the magnetization and demagnetization operation of the solenoid coil (2) wound on the bobbin (3), when the solenoid coil (2) is not magnetized in Figure 1 As shown, the spool 19 is pushed to the rear (left side in the drawing) by the elasticity of the spring 27, so that the elastic material 25 provided in the spool 27 In contact with the contact protrusion 29 provided therein, the gas supplied to the tip of the gas passage 12 of the holder 7 is no longer blocked to move toward the inner space (13).

If the solenoid coil 2 is magnetized when gas is supplied in such a gas shutoff state, the magnetic force generated in the solenoid coil 2 pulls the spool 19, and thus the spool 19 springs. It overcomes the elasticity of (27) and moves to the front side (the right side in the figure) as shown in FIG.

As a result, the gas is introduced into the inner space 13 of the holder 7 through the gas injection passage 14 of the nipple 8, and the gas introduced into the inner space 13 is formed in the spool 19. It is discharged through the gas passage hole 23 formed in the holder 7 through the inclined passage 24 from the central gas passage 23 which is present.

Meanwhile, in the bar as described above, most of the gas introduced into the inner space 13 of the holder 7 is moved through the inclined passage 24 and the central gas passage 23, but a part of the gas flows in the spool 19. It is also transmitted to the gas passage 11 of the holder 7 through a space formed between the outer surface and the inner wall surface of the inner space (13).

Thus, in the valve according to the present invention, the elastic material 25 of rubber material provided at the tip of the spool 19 is supported by the spring 27 while the spool 19 is elastically supported by the holder 7. Since the gas flow contacts the contact protrusion 29 formed at the tip of the gas passage hole 12 to completely block the flow of gas, it is possible to completely and reliably block the flow of gas when gas is not to be supplied. It is.

In addition, when the gas is to be supplied, when the spool 19 is opened according to the ON operation of the solenoid, the gas passage hole 12 is opened to supply gas so that gas is delivered.

On the other hand, the spool 19 is suddenly moved by a strong force when the spool 19 is moved by the magnetization of the solenoid coil 2 as described above, due to the characteristics of the DC power supply and the elasticity of the spring 27 is While momentarily reciprocating a short distance, the tip facing the packing nipple 8 comes into contact with the tip surface of the packing nipple 8 several times with a fairly large impact force for a short time continuously.

When the spool 19 is in contact with the packing nipple 8, the impact force is also a problem, but noise caused by the impact is generated. First, the noise not only makes the noise feel bad when heard from the outside, There may be a problem that the parts may be damaged due to the impact force, in order to solve this problem, in the present invention, as shown in Figure 5 and Figure 6 a plurality of embossing (28) on the front end surface of the spool (19) ), The embossed surface is brought into contact with each other to reduce the generation of noise and the impact force.

That is, the surface contact is not made when the spool 19 and the packing nipple 8 come into contact with each other, and point contact is made through the embossing 28 with the smallest possible contact area.

Combination of the solenoid valve of the present invention made of such a structure, the spring (27) in the center gas passage of the spool 19 in the state in which the bobbin (3) wound around the solenoid coil (2) in the housing (1) After inserting into (23), the whole spool 19 is put into the inner space 13 of the holder 7.

Then, the holder 7 is inserted through the through hole 5 of the lid 4, and then the holder 7 and the lid 4 are brought into close contact with the opening of the housing 1 in the housing state. The packing nipple 8 is pushed into the through hole 6 of (1), and the male screw 10 of the packing nipple 8 and the female screw 9 of the holder 7 are screwed together to complete the coupling. Will be.

When the solenoid valve of the present invention set as described above is connected to the required gas pipe, it is possible to connect and use the threaded portion 16 formed on the holder 7 and the threaded portion 17 formed on the packing nipple 8.

As described above, in the gas control solenoid valve according to the present invention, the gas control mechanism for controlling the flow of gas is set in the bobbin 3 in which the solenoid coil 2 is wound, so that the volume thereof is made compact. Because of this, a small valve can effectively block the flow of gas.

The elastic material 25 is provided at the tip of the spool 19 while the spool 19 that directly controls the gas passage moves the gas flow while moving a short distance. The contact protrusion 29 is provided at the tip of the gas passage 12 which controls the flow of the gas while being in contact with 25, so that the gas can be accurately controlled in the airtight state.

In addition, it is easy to manufacture due to the small number of components, fewer breakdowns, and A / S is also convenient.

Claims (2)

A housing (1) coupled to the lid to form a hollow inner space; A bobbin (3) installed in the inner space of the housing (1), the solenoid coil (2) being wound; The gas passage 11, the gas passage hole 12, and the inner space 13 are formed along the longitudinal direction while penetrating and inserted into the center hole formed at the center of the bobbin through the lid 4 coupled to the housing. A holder 7 formed with a female screw at the tip of the inner space 13; A packing nipple (8) screwed to the holder (7) in a state where the gas passage (11) is formed through the center along the longitudinal direction and is inserted into the bobbin (3) through the housing (1); The body is divided into a gas passage portion and a blocking portion, and the gas passage portion 20 and the blocking portion 21 are connected to each other by a concave necking portion 22, and are longitudinally connected to the gas passage portion 20. A central gas passage 23 having a predetermined length is formed along the center gas passage 23, and the central gas passage 23 is connected through the inclined passage 24 to the surface of the necking portion 22, while the blocking portion 21 ) Is a spool (19) made of a cushioned elastic material 25 is coupled by the cover 26; The tip exposed to the outside of the central gas passage 23 in the state inserted into the central gas passage 23 of the spool 19 is in close contact with the tip of the packing nipple 8 to seal the spool 19. Solenoid valve for gas control consisting of a spring (27) that is elastically supported against the nipple (8) The contact protrusion 29 is formed at the tip of the inlet side of the gas passage hole 12 provided in the holder 7, and the elastic member of the spool 19 is formed on the contact protrusion 29. 25) The solenoid valve for gas control, characterized in that the gas flow can be shut off in a gastight state while contacting it.