KR102135642B1 - Solenoid latching Valve - Google Patents

Abstract

The present invention relates to a solenoid latching valve including: a valve body (100); a solenoid assembly (200) including a solenoid module operated by electromagnetic force to open and close an inner flow path of the valve body; and an opening and closing display unit (300) for detecting whether a valve is opened or closed. The valve body (100) comprises: an inflow path (110) and an outflow path (120); a flow path which is formed inside the valve body and to which the inflow path (110) and the outflow path (120) are connected; and a valve seat (130) for opening and closing the flow path. The solenoid assembly (200) includes: a coil body (280) for generating electromagnetic force by supplied power; and a valve disk unit (240) for opening and closing the flow path of the valve seat (130) of the valve body (100) by being vertically moved from the center of the coil body (280) by the electromagnetic force of the coil body (280). The opening and closing display unit (300) is located in an upper portion of the center of the solenoid assembly (200), and has an opening and closing display body (310) for generating an electric signal while being moved vertically by the electromagnetic force of the coil body (280) to visually display whether the valve is opened or closed.

Description

Solenoid latching valve

The present invention relates to a solenoid latching valve, and in particular, by applying a solenoid method, which is a non-contact method, it is possible to minimize the malfunction or failure rate of the device and secure the operational reliability through automatic shut-off of the valve in the event of a power failure. Nevertheless, the present invention relates to an electronic valve device capable of maintaining reliability and durability even if it is used for a long period of time due to increased sealing and durability.

The general solenoid latching valve is a basic solenoid latching valve of known general purpose, and the plunger is attached to the permanent magnet of the opening and closing display located inside the opening/closing display cover by electromagnetic force generated by DC power input to the solenoid coil. Afterwards, even if the power is turned off, the permanent magnet and plunger remain attached, and when the power is input to the solenoid coil in the opposite direction, the polarity of the electromagnetic force generated in the bobbin coil becomes the opposite to the first polarity and is permanent. The plunger attached to the magnet is detached, and the detached plunger is structured to be separated from the permanent magnet by the elasticity of the plunger spring that was elastically supported.

With this configuration, the plunger moves up and down by the electromagnetic force of the solenoid coil, and the valve is opened and closed by the movement of the valve seat coupled to the lower end of the plunger. When the sealing packing installed on the plunger is damaged, fluid leaks to the outside. There is concern.

In addition, due to such a structure, a physically elevating operating rod must be provided separately so that a user can apply manual manipulation, and a separate switch part must be provided to confirm whether the fluid supply is actually blocked.

Patent Document 1: Republic of Korea Registered Patent Publication No. 10-1934723 Patent Document 2: Republic of Korea Registered Patent Publication No. 10-1381216 Patent Document 3: Japanese Patent Application Publication No. JP10-292878A Patent Document 4: Republic of Korea Patent Publication No. 10-2011-0050927

The present invention completely blocks the leakage of gas or fluid while pursuing structural simplification in order to solve the above-mentioned sealing problem, thereby completely blocking the leakage of the fluid when the power supply is cut off, and testing whether the operation is normal. The purpose of the present invention is to provide a solenoid latching valve device that can be used as a sensor means that serves as a handle to detect and open and close the valve.

The present invention is to solve the above problems, the inlet passage 110 and the outlet passage 120 is formed in the flow path connected to the inside, the valve body 100 with a valve seat 130 for opening and closing the flow path ), and a solenoid latching valve comprising a solenoid assembly 200 including a solenoid module operated by electromagnetic force to open and close the internal flow path of the valve body.

Preferably, the valve body 100 is formed with an inflow path 110, an outflow path 120, a flow path connected to the inflow path 110 and the outflow path 120, and a valve for opening and closing the flow path A sheet portion 130 is provided.

In addition, the line passing through the center of the inflow path 110 and the outflow path 120 of the valve body 100 is called a horizontal line, and a line passing through the center of the valve seat 130 and perpendicular to the horizontal line is a vertical line. It is called, and when the upper part is called the upper part and the lower part is based on the horizontal line,

The solenoid assembly 200 opens and closes an internal flow path of the valve body using a coil body 280 in which a magnetic flux is formed by a power input (DC) supplied, and a magnetic flux formed in the coil body 280. A valve disc portion 240 is provided,

The valve disk portion 240 is located in the center of the coil body 280 by the magnetic flux formed in the coil body 280 and the magnetic force of the permanent magnet 312 inserted in the upper portion of the inner diameter portion of the coil body 280. It is provided with an armature 220 vertically moving up and down, and a valve disc 210 coupled to the lower end of the armature to seal and close the valve seat 130 to open and close the flow path, and whether the valve disc portion 240 is opened or closed. An opening/closing display unit 300 formed to be displayed externally is provided.

In addition, a magnetic flux is formed in the coil body 280 by the supplied power input (direct current), and a magnetic force is formed in the armature by the magnetic flux, and the magnetic force of the upper permanent magnet 312 is pulled to each other. The permanent magnet 312 of the upper portion is lowered, the armature rises, and the valve disc 210 coupled to the lower end of the armature rises from the valve seat 130 to open the flow path, and power is supplied while the flow path is opened. Even when there is no supply, the armature remains within the magnetic force range of the upper permanent magnet 312 and maintains an elevated state, so that the flow path of the valve body is maintained in an open state.

In addition, when the power input to the coil body 280 (reverse direct current), the armature of the armature 220 is formed in the opposite direction as when it is raised, and as the permanent magnet 312 is raised, the range of the magnetic force of the permanent magnet 312 is increased. Out of the armature is lowered by the spring and its own weight, the valve disc 210 coupled to the armature 220 moves downward, and the valve disc 210 moved downward presses the valve seat 130 to flow. Is closed.

In addition, a valve spring 230 is inserted in the upper portion of the armature 220, the armature 220 moves downward, and the valve disc 210 presses the valve seat 130 to close the coil body in a state where the flow path is closed ( 280) is formed to maintain the closed state of the flow path by the elastic force of the valve spring 230 even if the magnetic force of the armature 220 is lost due to the power being cut off.

In addition, when the permanent magnet 312 is moved upward by an external force in the open state of the valve, the gap between the permanent magnet and the armature is widened, and the gap between the permanent magnet and the valve spring is greater than the magnetic force of the permanent magnet. Since the elastic force of 230 is increased, the armature moves downward due to the elastic force of the valve spring 230 to close the flow path.

In addition, when the permanent magnet 312 is moved downward by an external force in the closed state of the valve, the gap between the permanent magnet and the armature is narrowed, and by the narrowed gap, the armature is within the magnetic force range of the permanent magnet. Since the magnetic force of the permanent magnet is greater than the elastic force of the valve spring 230, the armature moves upward and is formed to open the flow path.

In addition, it is formed in a cylindrical shape that can be inserted into the coil body 280, the upper surface of the cylinder is provided with a moving hole (移動口; 314) of a diameter smaller than the inner diameter of the coil body, the lower portion of the cylinder It has a permanent magnet cover body 320 formed of a flange portion protruding along the outer diameter portion of the lower surface of the cylinder so that the coil body 280 can be seated,

It consists of an upper cylindrical portion 251 whose upper portion is sealed so that it can be inserted into the cylindrical portion of the permanent magnet cover body 320, and a lower cylindrical portion 252 that can be in close contact with the valve opening inner diameter portion 131 of the valve body. It has a sealing member 250 made of a shape that is connected to the lower surface of the upper cylindrical portion 251 and the upper surface of the lower cylindrical 252 by a flange 253, the upper cylinder of the sealing member 250 The portion 251 is inserted into the cylindrical portion of the permanent magnet cover body 320, and the inside of the upper cylindrical portion 251 includes a valve spring 230 and an armature 220 to which the valve disc 210 is attached. Inserted, the armature 220, the valve disc 210, which is a moving part in the integrally formed sealing member 250, is prevented from leaking due to movement due to movement within the integrally formed sealing member, thereby preventing airtightness. It is formed to ensure.

In addition, the lower cylinder 252 is inserted into the valve opening portion inner diameter portion 131 formed in the valve body to be in close contact, and the flange portion of the permanent magnet cover body 320 is seated on the upper surface of the flange 253, but the permanent A permanent magnet 312, a permanent magnet holding spring 270 for maintaining the position of the permanent magnet, and an upper cylindrical portion 251 of the sealing member 250 are sequentially inserted into the magnet cover body 320, and the permanent A coil body 280 is coupled to the cylindrical portion of the magnet cover body 320, and the sealing member 250 is provided with a valve opening inner diameter portion 131 and a permanent magnet cover body by combining the coil body 280 and the valve body ( 320) is wrapped with a flange portion and a cylindrical portion, so that it is formed to have the sealing and pressure resistance of the valve flow path.

In addition, the opening/closing display unit 300 is provided with an opening/closing display body 310 that visually displays whether or not the valve is open or closed, and the opening/closing display unit 310 is projected to the outside depending on whether or not the valve is open or closed so that it can be displayed It includes a cylindrical moving portion 311 coupled to the permanent magnet 312, and an external display body 313 coupled to the moving portion 311.

The magnetic flux is formed in the coil body 280 by the supplied power input (direct current), and as the armature 220 is raised by the magnetic flux and the magnetic force is formed in the armature in the process of the armature 220 rising By pulling the magnetic force of the upper permanent magnet 312 to each other, the permanent magnet compresses the permanent magnet holding spring 270 and moves inside the lower coil body, so the outer display body 313 coupled to the permanent magnet also moves downward. To indicate the opening of the valve.

In addition, upon the instantaneous power input (reverse direct current) to the coil body 280, the magnetic force in the opposite direction to the armature 220 is formed when the armature 220 is raised, thereby generating the magnetic and repulsive force of the permanent magnet 312, so that the permanent magnet is applied to the coil body. It is formed to be moved upward by the repulsive force and the elastic force of the permanent magnet holding spring 270 to indicate that the valve is closed.

When the external display body 313 of the opening/closing display 300 is formed to manually lift and remove the permanent magnet 312, when the external display body 313 is manually moved downward, the external display body The permanent magnet 312 connected to (313) presses the permanent magnet holding spring 270 and moves to the lower portion, thereby narrowing the gap with the lower armature 220, thereby reducing the armature 220 by the magnetic force of the permanent magnet 312. ) To the top to open the flow path.

In addition, when the external display body 313 is moved upward while the flow path is open, the gap between the permanent magnet 312 and the armature 220 becomes large, and the valve spring 230 is larger than the magnetic force of the permanent magnet 312. The elastic force is increased so that the armature 220 is lowered by the elasticity of the valve spring 230 so that the valve seat 210 attached to the armature 220 is in close contact with the valve seat portion 130 of the valve body to block the flow path. It is formed to be used as a manual opening and closing part.

In addition, a plurality of protrusions are formed on the outer circumferential surface of the upper cylindrical portion 251 of the sealing member 250, and the plurality of protrusions are coupled to the inner diameter of the permanent magnet cover body 320 into which the sealing member 250 is inserted. A plurality of grooves are formed so as to be coupled, and a groove through which the packing 260 can be inserted is formed under the sealing member 250 to which the valve body is coupled.

In addition, according to the opening and closing of the flow path, the permanent magnet 312 may be used as a sensor means for detecting a valve opening/closing state by using the solenoid coil body 280 and the configuration that moves to the inside and outside of the coil body, and the sensor means Silver solenoid coil body 280 is replaced by a coil of the LC oscillator, a sensing unit for sensing a change in the oscillation frequency according to the opening and closing state of a valve, and a transmitting unit for transmitting a signal detected by the sensing unit, and a frequency transmitted from the transmitting unit It consists of a receiving unit for indicating the opening/closing state of the valve by receiving and receiving the lighting method of the indicator 400.

As described above, according to the present invention, the valve body is made of a solenoid assembly including a solenoid module operated by electromagnetic force to open and close the internal flow path of the valve body, and an opening/closing detection unit for detecting whether the valve is opened or closed,

One shape surrounding the inner diameter of the valve body, which is the coupling part of the valve body and the solenoid assembly, including the outer circumferential surface of the armature with the valve seat moving up and down by the electromagnetic force of the coil body of the solenoid coil and the elastic body coupled to the upper armature. It is provided with a sealing member formed of an effect to prevent leakage other than the flow path formed inside the valve.

In addition, it is located on the upper part of the sealing member assembled in the center of the solenoid assembly, it has a handle for testing whether it is operating normally, and it moves up and down by the electromagnetic force of the coil body to visually display whether the valve is open or closed, and also an electrical signal. There is an effect that can cause.

1 is a cross-sectional view showing the structure of an electronic valve according to the prior art.
Figure 2 is a cross-sectional view showing the open state of the solenoid latching valve according to an embodiment of the present invention.
Figure 3 is a cross-sectional view showing a solenoid latching valve according to an embodiment of the present invention.
4 is a circuit diagram of an open state of a solenoid latching valve according to a preferred embodiment of the present invention.
Figure 5 is a circuit diagram of the closed state of the solenoid latching valve according to an embodiment of the present invention.

The terminology used in the present invention is a general terminology that is currently widely used, but in some cases, the term is arbitrarily selected by the applicant. In this case, the term is used in the specific details for carrying out the invention rather than a simple term. Considering that, the meaning should be grasped.

Hereinafter, the technical configuration of the present invention will be described in detail with reference to preferred embodiments illustrated in the accompanying drawings. Here, it is revealed that the expressions related to directions such as up, down, left, right, left, bottom, etc. are all described based on the presented drawings.

The present invention can be implemented in many different forms and is not limited to the embodiments described herein. The same reference numerals are used for similar parts throughout the specification.

As a cross-sectional view showing a state in which the conventional known general-purpose solenoid latching valve shown in FIG. 1 is opened, the plunger moves up and down by electromagnetic force of the solenoid coil, and the valve is opened and closed by the movement of the valve seat coupled to the lower end of the plunger. As to improve the structure in which the fluid may leak out when the sealing packing installed on the plunger is damaged, it improves the structure in which fluid flows from the inside of the valve to the plunger part of the solenoid valve, and moves the plunger of the solenoid valve It is intended to provide a valve consisting of a sensing unit for sensing the valve open/closed state by sensing and a transmitting unit for transmitting a signal detected by the sensing unit,

The direction for explaining an embodiment of the present invention is a line passing through the center of the inflow path 110 and the center of the outflow path 120 of the valve body 100 is referred to as a horizontal line, and passing through the center of the valve seat 130 The line perpendicular to the horizontal line is called a vertical line, and the upper part is called the upper part and the lower part is the lower part based on the horizontal line.

2 and 3, the solenoid latching valve according to an embodiment of the present invention includes a solenoid assembly including a valve body 100 and a solenoid module operated by electromagnetic force to open and close an internal flow path of the valve body ( 200) and the opening/closing display unit 300 for detecting whether the valve is opened or closed,

The valve body 100 is formed in the flow path connected to the inflow path 110 and the outflow path 120, a valve seat 130 for opening and closing the flow path, the inside of the valve body 100 It is provided with a solenoid assembly 200 including a solenoid module operated by electromagnetic force to open and close the flow path.

In addition, the solenoid assembly 200 uses the coil body 280 in which the magnetic flux is formed by the supplied power input (direct current), and the magnetic flux formed in the coil body 280 to flow the internal flow path of the valve body. A valve disc portion 240 for opening and closing is provided, and the valve disc portion 240 includes a magnetic flux formed in the coil body 280 and a permanent magnet 312 inserted in the upper portion of the inner diameter portion of the coil body 280. An armature 220 vertically moving vertically from the center of the coil body 280 by magnetic force, and a valve disc 210 coupled to the lower end of the armature to seal the valve seat 130 to open and close the flow path, , The opening and closing display unit 300 is formed to display whether the valve disk unit 240 is opened or closed externally.

Looking at the operating configuration of the solenoid assembly 200, the magnetic flux is formed in the coil body 280 by the supplied power input (direct current), the magnetic flux is formed in the armature by the magnetic flux, and the upper permanent magnet 312 ) By pulling the magnetic force of each other, the upper permanent magnet 312 disposed on the upper side descends, the armature rises, and the valve disc 210 coupled to the lower end of the armature rises from the valve seat 130 to open the flow path. Since the armature stays in the magnetic range of the upper permanent magnet 312 even in the state where the flow path is open and there is no power supply, the flow path of the valve body is maintained in the open state.

In addition, when the power input to the coil body 280 (reverse direct current), the armature 220 is formed in the opposite direction as when it is raised, and as the permanent magnet 312 is raised, the magnetic force of the permanent magnet 312 is increased. Out of the range of the armature is lowered by the spring and its own weight, the valve disc 210 coupled to the armature 220 moves downward, and the valve disc 210 moved downward presses the valve seat 130. And the flow path is closed.

In addition, a contact portion between the valve disc 210 and the valve seat 130 forms a protrusion 131 on the valve seat 130 to improve sealing properties.

In addition, the disc assembly 221 of the lower end of the armature 220 in contact with the protrusion 131 of the valve seat 130 is a concave groove portion that can be in close contact with the protrusion 131 of the valve seat 130 (222) is formed, the concave groove portion 222 is formed with a plurality of through holes 223 so as to be able to communicate with the outside, when the valve is closed, the valve when the valve seat 130 and the valve disc 210 is in contact with the valve It is formed so that the fluid of the concave groove portion 222 formed in the disc can be discharged to the outside.

That is, when the rubber disk 224 of the disk assembly portion 221 is compressed by the protrusion 131 of the valve seat and deformed toward the concave groove portion 222 formed on the upper portion, the fluid of the concave groove portion 222 has a plurality of through holes ( It is discharged to the outside through 223), the protrusion 131 of the valve seat is in close contact with the deformed rubber disc 224 to increase the sealing effect.

In addition, a valve spring 230 is inserted in the upper portion of the armature 220, the armature 220 moves downward, and the valve disc 210 presses the valve seat 130 to close the coil body in a state where the flow path is closed ( 280) is formed to maintain the closed state of the flow path by the elastic force of the valve spring 230 even if the magnetic force of the armature 220 is lost due to the power being cut off.

In addition, when the permanent magnet 312 is moved upward by an external force in the open state of the valve, the gap between the permanent magnet and the armature is widened, and the gap between the permanent magnet and the valve spring is greater than the magnetic force of the permanent magnet. Since the elastic force of 230 is increased, the armature moves downward due to the elastic force of the valve spring 230 to close the flow path.

In addition, when the permanent magnet 312 is moved downward by an external force in the closed state of the valve, the gap between the permanent magnet and the armature is narrowed, and by the narrowed gap, the armature is within the magnetic force range of the permanent magnet. Since the magnetic force of the permanent magnet is greater than the elastic force of the valve spring 230, the armature moves upward and is formed to open the flow path.

In addition, it is formed in a cylindrical shape that can be inserted into the coil body 280, the upper surface of the cylinder is provided with a moving hole (移動口; 314) of a diameter smaller than the inner diameter of the coil body, the lower portion of the cylinder A permanent magnet cover body 320 formed of a flange portion protruding along an outer diameter portion of a lower surface of the cylinder is provided so that the coil body 280 can be seated.

In addition, the upper portion of the upper cylinder is sealed so that it can be inserted into the cylinder portion of the permanent magnet cover body 320 and the lower cylinder 252 that can be in close contact with the valve opening inner diameter portion 131 of the valve body. It is provided with a sealing member 250 made of a shape connected to a flange 253 connecting the lower surface of the upper cylindrical portion 251 and the upper surface of the lower cylindrical portion 252, the upper portion of the sealing member 250 The cylindrical part 251 is inserted into the cylindrical part of the permanent magnet cover body 320, and the inside of the upper cylindrical part 251 has an armature 220 with a valve spring 230 and a valve disc 210 attached thereto. It is inserted and integrally formed in the sealing member 250, the moving parts of the armature 220 and the valve disc 210 spring are moved in the sealing member integrally formed to prevent leakage caused by movement, thereby guaranteeing airtightness. It is formed to.

In addition, the lower cylinder 252 is inserted into the valve opening portion inner diameter portion 131 formed in the valve body to be in close contact, and the flange portion of the permanent magnet cover body 320 is seated on the upper surface of the flange 253, but the permanent A permanent magnet 312, a permanent magnet holding spring 270 for maintaining the position of the permanent magnet, and an upper cylindrical portion 251 of the sealing member 250 are sequentially inserted into the magnet cover body 320, and the permanent A coil body 280 is coupled to the cylindrical portion of the magnet cover body 320, and the sealing member 250 is provided with a valve opening inner diameter portion 131 and a permanent magnet cover body by combining the coil body 280 and the valve body ( 320) is wrapped with a flange portion and a cylindrical portion, so that it is formed to have the sealing and pressure resistance of the valve flow path.

That is, the sealing member 250 is formed while being formed of a flange 253 connecting the upper surface of the lower column 252 and the lower surface of the upper column 251, the lower column 252, and the upper column 251, 250 ) Since the valve is opened and closed by the valve disc 210 coupled to the armature 220 moving by the magnetic flux of the coil body, the inside of the flow path of the valve, the coil body, and the permanent magnet are blocked by the sealing member. Since it has a structure, it has the effect of preventing leakage and ensuring confidentiality.

In addition, the opening/closing display unit 300 is provided with an opening/closing display body 310 that visually displays whether or not the valve is open or closed, and the opening/closing display unit 310 is projected to the outside depending on whether or not the valve is open or closed so that it can be displayed It includes a cylindrical moving portion 311 coupled to the permanent magnet 312, and an external display body 313 coupled to the moving portion 311, the coil body by the power input (direct current) supplied ( A magnetic flux is formed in 280, and as the armature 220 is raised by the magnetic flux and magnetic force is formed in the armature in the process of the armature 220 ascending, the magnetic force of the upper permanent magnet 312 is pulled to each other. Since the permanent magnet compresses the permanent magnet holding spring 270 and moves inside the lower coil body, the external indicator 313 coupled to the permanent magnet also moves downward to indicate the opening of the valve.

In addition, when the instantaneous power input (reverse direct current) to the coil body 280, the armature of the armature 220 is formed in the opposite direction to that of the riser, so that the magnetic and repulsive forces of the permanent magnet 312 are generated, and the permanent magnet is a coil body. It is formed to be moved to the upper side by the repulsive force and the elastic force of the permanent magnet holding spring 270 to indicate that the valve is closed.

That is, the outer display body 313 coupled to the permanent magnet is positioned within the magnetic force range of the permanent magnet 312 located at the top when the valve is opened, so that the gap between the permanent magnet and the armature is narrowed. The outer display body 313 is moved to the lower portion in the same way as the permanent magnet to display the opening of the valve, and when the valve is closed, the permanent magnet and the armature are spaced apart from the magnetic force range of the permanent magnet 312 located at the upper portion. This widened outer display body 313 is formed to be moved upwardly as in the case of a permanent magnet so that the closing of the valve can be visually displayed.

In addition, when the external display body 313 of the opening/closing display unit 300 is formed to be able to elevate the permanent magnet 312 manually, when the external display body 313 is manually moved downward, the external display body 313 is moved to the outside. The permanent magnet 312 connected to the display body 313 presses the permanent magnet holding spring 270 and moves to the lower portion, thereby narrowing the gap with the lower armature 220 to thereby reduce the armature by the magnetic force of the permanent magnet 312. The flow path is opened by moving the 220 upwards.

Further, when the external display body 313 is moved upward while the flow path is open, the gap between the permanent magnet 312 and the armature 220 becomes large, so that the valve spring 230 has more elastic force than the magnetic force of the permanent magnet 312. The armature 220 is lowered due to the elasticity of the valve spring 230 and the valve seat 210 attached to the armature 220 is in close contact with the valve seat portion 130 of the valve body to block the flow path. It is formed to be used as a manual opening/closing unit.

In addition, a plurality of protrusions are formed on the outer circumferential surface of the upper cylindrical portion 251 of the sealing member 250, and the plurality of protrusions are coupled to the inner diameter of the permanent magnet cover body 320 into which the sealing member 250 is inserted. The plurality of grooves are formed so that the protrusions of the upper cylindrical portion 251 of the sealing member 250 are coupled to the grooves of the inner diameter portion of the permanent magnet cover body 320, so that the sealing member 250 can be tightly and firmly coupled. It is formed to have an effect.

In addition, a groove through which the packing 260 can be inserted is formed in the lower portion of the sealing member 250 in which the sealing member 250 is coupled to the valve body, so that the packing is formed in a groove formed in the lower part of the sealing member 250. Since the O-ring is inserted and combined, the sealing property can be improved.

4 and 5, a view for explaining a sensor means using a solenoid coil body 260 according to an embodiment of the present invention.

As shown in the figure, a permanent magnet 312 is inserted in the lower portion of the opening/closing display unit 300, and the solenoid coil body 280 can be used as a sensor means to detect the valve opening/closing state.

The sensor means becomes a state in which the permanent magnet 312 inserted into the lower diameter of the opening/closing display unit 300 is inserted into the air core portion of the solenoid coil body 280 when the valve is opened, thereby self-inductance of the coil. Becomes larger, and the valve closes, so that the magnet inductance of the coil becomes small when the magnet rises above the air core of the coil body 280.

Therefore, when the solenoid coil body 280 is used as the coil of the LC oscillator using such a configuration and technique, the oscillation frequency changes depending on the opening and closing state of the valve.

The sensor means has a solenoid coil body 280 is replaced with a coil of the LC oscillator, a sensing unit for detecting a change in the oscillation frequency according to the opening and closing state of the valve, and a transmitter for transmitting a signal sensed by the sensing unit,

It consists of a receiving unit that receives the frequency transmitted from the transmitting unit and indicates the opening/closing state of the valve by a lighting method of the indicator.

The above description is illustrative of the present invention, and the embodiments disclosed in the specification are not intended to limit the technical idea of the present invention, but are intended to explain the present invention. Various modifications and variations will be possible without departing from the technical idea of. Therefore, the protection scope of the present invention is to be interpreted by the matters described in the claims, and technical matters within the scope equivalent thereto should be interpreted to be included in the scope of the present invention.

100: valve body 110: inlet
120: outlet passage 130: valve seat
200: solenoid assembly 210: valve disc
220: amateur 230: valve spring
240: opening and closing portion 250: sealing member
270: opening and closing display spring 300: opening and closing display
310: open/close display body 320: open/close display cover

Claims (7)

A flow path connected to the inflow passage 110 and the outflow passage 120 is formed therein, and a valve body 100 having a valve seat 130 for opening and closing the flow passage,
Solenoid assembly 200 including a solenoid module that is operated by electromagnetic force to open and close the internal flow path of the valve body,
A line passing through the center of the inflow path 110 and the center of the outflow path 120 of the valve body 100 is called a horizontal line, and a line passing through the center of the valve seat 130 and perpendicular to the horizontal line is called a vertical line. When the upper part is called the upper part and the lower part is the lower part, based on the horizontal line,
The solenoid assembly 200 includes a coil body 280 in which a magnetic flux is formed by a supplied power input (direct current),
It is provided with a valve disk portion 240 for opening and closing the internal flow path of the valve body using the magnetic flux formed in the coil body 280,
The valve disc portion 240
An armature (220) vertically moving vertically from the center of the coil body (280) by the magnetic force formed in the coil body (280) and the magnetic force of the permanent magnet (312) inserted into the upper portion of the coil body (280) )Wow,
It is coupled to the lower end of the armature is provided with a valve disc 210 for closing and closing the valve seat 130 to open and close the flow path,
It includes an opening and closing display unit 300 formed to indicate whether the valve disk unit 240 is opened or closed externally, and
Magnetic flux is formed in the coil body 280 by the supplied power input (direct current), and magnetic force is formed in the armature by the magnetic flux, and the magnetic force of the upper permanent magnet 312 is pulled to each other. The upper permanent magnet 312 descends, the armature rises, and the valve disc 210 coupled to the lower end of the armature rises from the valve seat 130 to open the flow path, and the power supply is supplied while the flow path is opened. Even in the absence of the armature, the armature stays in the magnetic force range of the upper permanent magnet 312 and thus maintains an elevated state.
When the power input (reverse direct current) to the coil body 280, the armature 220 is formed in the opposite direction to the armature 220 when the permanent magnet 312 is raised, thereby increasing the range of the magnetic force of the permanent magnet 312. Out of the armature is lowered by the spring and its own weight, the valve disc 210 coupled to the armature 220 moves downward, and the valve disc 210 moved downward presses the valve seat 130 to flow. Is closed
It is formed in a cylindrical shape that can be inserted into the coil body 280, the upper surface of the cylinder is provided with a moving hole (移動口; 314) of a diameter smaller than the inner diameter of the coil body,
A permanent magnet cover body 320 formed of a flange portion protruding along an outer diameter portion of a lower surface of the cylinder so that the coil body 280 is seated at a lower portion of the cylinder,
It consists of an upper cylindrical portion 251 whose upper portion is sealed so that it can be inserted into the cylindrical portion of the permanent magnet cover body 320 and a lower cylindrical portion 252 that can be in close contact with the inner diameter portion 131 of the valve opening and closing portion of the valve body. A sealing member 250 formed of a shape connected by a flange 253 connecting the lower surface of the upper columnar portion 251 and the upper surface of the lower columnar 252,
The upper cylindrical portion 251 of the sealing member 250 is inserted into the cylindrical portion of the permanent magnet cover body 320, the inside of the upper cylindrical portion 251 valve spring 230, valve disc 210 The armature 220 to which the attachment is inserted may be caused by movement due to the movement of the armature 220, the valve disk 210, and the spring of the moving part within the integrally formed sealing member 250, which is moved in the sealing member integrally formed. It is formed to prevent leaks and ensure confidentiality.
The lower cylinder 252 is inserted into the valve opening portion inner diameter portion 131 formed in the valve body to be in close contact,
The flange portion of the permanent magnet cover body 320 is seated on the upper surface of the flange 253,
In the permanent magnet cover body 320, a permanent magnet 312 and a permanent magnet holding spring 270 for maintaining the position of the permanent magnet are sequentially inserted into the upper cylindrical portion 251 of the sealing member 250,
A coil body 280 is coupled to the cylindrical portion of the permanent magnet cover body 320 so that the sealing member 250 is provided with a valve opening inner diameter portion 131 and a permanent magnet cover by combining the coil body 280 and the valve body. Solenoid latching valve characterized in that it is formed so as to be provided with sealing and pressure resistance of the valve flow path because it is wrapped with a flange portion and a cylindrical portion of the sieve 320. delete The method of claim 1
A valve spring 230 is inserted in the upper portion of the armature 220, and the armature 220 moves downward, so that the valve disc 210 presses the valve seat 130 to close the coil body 280 while the flow path is closed. Even if the power is cut off and the magnetic force of the armature 220 is lost, it is formed to maintain the closed state of the flow path by the elastic force of the valve spring 230,
When the permanent magnet 312 is moved upward by an external force in the open state of the valve, the gap between the permanent magnet and the armature increases, and the valve spring 230 is larger than the magnetic force of the permanent magnet by the gap. ) The elastic force is increased, the armature is moved downward by the elastic force of the valve spring 230, and the flow path is closed,
When the permanent magnet 312 is moved downward by an external force in the closed state of the valve, the gap between the permanent magnet and the armature is narrowed, and by the narrowed gap, the armature is within the magnetic force range of the permanent magnet. Solenoid latching valve, characterized in that the magnetic force of the permanent magnet is greater than the elastic force of the valve spring (230) so that the armature moves upward and the flow path is opened. delete The method of claim 1
The opening and closing display unit 300 is
The opening and closing display body 310 is provided to visually indicate whether the valve is opened or closed.
The opening and closing display body 310 is a cylindrical moving portion 311 coupled to the permanent magnet 312 so as to be projected to the outside depending on whether the valve is opened or closed,
It includes an external display 313 coupled to the moving portion 311,
The magnetic flux is formed in the coil body 280 by the supplied power input (direct current), and as the armature 220 is raised by the magnetic flux and the magnetic force is formed in the armature in the process of the armature 220 rising By pulling the magnetic force of the upper permanent magnet 312 to each other, the permanent magnet compresses the permanent magnet holding spring 270 and moves inside the lower coil body, so the outer display body 313 coupled to the permanent magnet also moves downward. To indicate the opening of the valve,
When the instantaneous power input (reverse direct current) to the coil body 280, the armature of the armature 220 is formed in the opposite direction as when it is raised, thereby generating the magnetic force and repulsion force of the permanent magnet 312, and the permanent magnet is generated by the coil body. A solenoid latching valve characterized in that it is formed to be moved upwards with a repulsive force and elastic force of the permanent magnet holding spring 270 to indicate that the valve is closed. The method of claim 5
The external display body 313 of the opening/closing display unit 300 is formed to manually elevate the permanent magnet 312.
When the external display body 313 is manually moved downward, the permanent magnet 312 connected to the external display body 313 presses the permanent magnet holding spring 270 and moves downward, thereby moving the lower armature 220. By narrowing the gap and moving the armature 220 upward by the magnetic force of the permanent magnet 312, the flow path is opened,
When the external display body 313 is moved upward while the flow path is open, the gap between the permanent magnet 312 and the armature 220 becomes large, so that the elastic force of the valve spring 230 is greater than that of the permanent magnet 312. Passively, the armature 220 is lowered by the elasticity of the valve spring 230 so that the valve seat 210 attached to the armature 220 is in close contact with the valve seat portion 130 of the valve body to block the flow path. Solenoid latching valve characterized in that it is formed to be used as an opening and closing portion. The method of claim 6
The solenoid latching valve, characterized in that the permanent magnet 312 is used as a sensor means for detecting a valve opening/closing state by using the coil body 280 and the structure moving to the inside and outside of the coil body according to the opening and closing of the flow path.

Images