KR100477002B1 - Electronic Valve - Google Patents

Abstract

The present invention provides a method for opening and closing an electronic valve, wherein the solenoid valve does not have a spring disposed inside the plunger and is kept closed by the elastic force and the magnetic force of the permanent magnet in the valve outlet port. Provides an electronic valve that increases reliability and extends the reliability and life of the valve by eliminating the risk of fire due to overheating and saving electric energy by maintaining the magnetic field induced by the coil and using the magnet of the permanent magnet when the power is applied. do.

In addition, the present invention can be manually operated in case of power failure or emergency, and when the power is applied when the power failure is released, it automatically returns to the electronic valve state without manual operation so that the electronic control is possible so that the opening and closing of the valve can be controlled remotely when the power failure is released. It provides an electronic valve that can be.

Description

 Electronic Valve

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electronic valve, and in particular, by arranging a spring in a valve outlet port without discharging the inner side of the plunger, the magnetic force induced by the coil when the power is applied increases the reliability of the valve in the valve closing state due to the increase in elastic force. The present invention relates to an electronic valve that maintains an open state by using magnetism of a permanent magnet and extends the reliability and longevity of the valve by eliminating the risk of fire due to overheating as well as saving electric energy compared to a valve by using an induction coil.

In addition, the present invention relates to an electronic switchgear having a manual opening and closing operation function in case of power failure and automatic return function by applying power when the power failure is released, more specifically, when the power is cut off or a problem occurs in the solenoid valve The electronic closing device is characterized by maintaining the automatic return function to maintain the opening and closing by automatically switching the lever to maintain the opening and closing by manual power switch when the power failure is released.

The conventional electronic valve has a basic structure as shown in FIG. 1, and as shown in FIG. 1, the coil 20 is wound around a core with a circular core, and the coil 20 generates a magnetic field according to a rated voltage applied thereto. The spring 25 is connected to the stator 21 in which the magnetic field energy is induced in response to the application of a voltage inside the coil 20 and the connecting pin 24 inserted into the central plunger recess 23. The plunger 22 which is inserted in between and is in close contact with and spaced from the stator according to the application of a voltage, and the valve outlet port 10 and the plunger 22 which are connected to the plunger housing of the shandong east of the plunger and flow in and out of the plunger 22. The diaphragm cell 12 which opens and closes the valve outflow port 10 according to this is comprised.

The driving principle of the electromagnetic valve as described above, when a current first flows through the coil 20, a magnetic field is generated in the center of the coil 20, the stator 21 in the inner center of the coil 20 becomes an electromagnet, The plunger 22 spaced apart by 25 is moved by the force of the magnetic field of the coil 20 to be in close contact with the stator 21 which becomes an electromagnet. At this time, the diaphragm cell 12 is moved by the moving force to open the valve, and when the power is not applied, the closed state of the valve is maintained by the elastic force of the spring.

At this time, under the structure as described above, in the structure that is closed only by the elastic force of the spring 25 of the current flowing through the coil when opening the valve by the pressure of the fluid flowing in the valve 25 and the valve flow port 10 The amount must be increased.

Under the structure of the spring 25 inserted into the plunger 22, there is a problem that the elastic force of the spring cannot be sufficiently closed by the pressure of the fluid flowing in the valve outlet port 10.

In other words, when the power is applied to the coil, the structure is opened by the upward movement of the plunger by the electromagnetic force against the unstable elastic force caused by the spring, but when the power is not applied, fine leakage occurs due to the incomplete maintenance state of the valve closing. There is a problem with reliability.

Therefore, the elastic force of the spring 25 is increased to prevent the minute leakage, and when the valve is opened, only the electrical energy is used to increase the electromagnetic force in order to obtain the electromagnetic force corresponding to the elasticity. In other words, the coil is overheated due to the increase in the amount of current flowing in the coil, which shortens the life of the product and also causes a lot of influence on the reliability of the valve.

Therefore, the conventional electronic valve has the advantage of easy control and remote control compared to the mechanical valve, but the electronic valve under the structure does not provide a sufficient elastic force of the spring to maintain a closed state, there is a problem in the reliability of the valve And even if it maintains a sufficient elastic state, a lot of electrical energy is required, and the magnitude of the current is large, there is a problem that the reliability of the electronic valve due to heat generation is deteriorated.

In addition, when the spring is replaced due to the reliability of valve closing, the entire valve needs to be disassembled, which causes inconvenience in exchange or repair of the valve accessories.

In addition, under the electronic valve structure, a device that should open the valve has a disadvantage in that the current must always flow through the coil in the valve open state. Therefore, the state of opening the valve maintains the same voltage, so a lot of current consumption is generated, resulting in heat generation of the coil, resulting in many effects such as shortening the product life and reliability of the valve.

And if power is not supplied to the valve during power failure, the valve cannot be opened. This valve has a problem that the valve can not be manually controlled by maintaining the closing force by the spring elastic force. In addition, even if the valve is manually maintained, when the power is supplied again in the forced manual open state, there is a problem in that the electronic valve control is not performed in the manually opened state even when the current is applied to the coil again.

In order to solve the above problems, the present invention does not dispose the spring inside the plunger, but disposes in the valve outlet port and increases the reliability of the valve in the valve closed state due to the maintenance of the closing by the magnetic force of the permanent magnet. The purpose of the present invention is to provide an electronic valve device that extends the reliability and lifespan of the valve by eliminating the risk of fire due to overheating and saving electric energy by maintaining the magnetism of the permanent magnet in addition to the magnetism induced by the coil. In addition, if there is a problem in the event of a power failure or a valve device has a manual opening and closing function and the automatic return function when the power is applied when the power failure is released to provide an electronic valve device that can be controlled from the outside of the electronic switching device.

Technical means of the present invention for achieving the above object, in the electromagnetic valve for generating a magnetic field according to the current applied from the outside to close, open and maintain the valve:

A valve inlet port forming an inlet and an outlet of the valve and a spring elastically supporting upwardly the shaft integrated with the diaphragm in the valve outlet port, and disposed at an upper end of the shaft supported upward by the spring. The first permanent member disposed above the first steel member so that the blocking member acts on the first steel member and the attraction force by the magnetic force applied to the blocking member and the blocking member to which the first steel member and the attraction force are applied. A fixed plunger disposed on the upper portion of the steel member which is constantly magnetized by a magnet and the first permanent magnet, and a coil disposed on the fixed plunger upper portion to generate an electromagnetic force upon application of an electric current by repulsing against the elastic force of the spring. Exposed to the inside of the coil to move downward by the electromagnetic force formed by the valve to maintain the open state And a second permanent magnet magnetizing the copper plunger and the second steel member integrally disposed on the upper portion of the movable plunger, and responsive to the elastic force formed by the spring, so as to move to the lower portion of the movable plunger. An electronic valve composed of manual means arranged.

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

FIG. 2 is a cross-sectional view of an initial state of an embodiment of the present invention, and FIG. 3 is a cross-sectional view of an open state of a valve operated by a power source, which is an embodiment of the present invention. And a spring 25 and a blocking member, a permanent magnet 50.70, a fixed plunger 65, a movable plunger 60, and a coil 20 to integrally form a diaphragm 42 and resist the shaft therebetween. This configuration is composed of a manual means (80).

A passage through which a fluid can flow on the valve seat surface 53 is provided between the valve outlet port 50 forming the inlet 15 and the outlet 15 ′ in the valve.

The opening and closing of the passage opens and closes the valve by moving up and down of the diaphragm 12. The vertical movement of the diaphragm 42 is opened and closed by the vertical movement of the shaft 30 which is integrally connected.

In Fig. 1, the valve is closed with a sieve that resists the shaft upwards by the elastic force of the spring 25 in the valve outlet port in a state where power is not applied.

The blocking member is disposed at the upper end of the shaft, and the blocking member is formed of a magnetic material 41 magnetized by the first permanent magnet and a rubber blocking film 45 which prevents the fluid flowing into the valve outlet port from being introduced into the coil.

Under the structure, the blocking member 40 as a magnetic body is disposed on the shaft 30 so as to be magnetized by the first permanent magnet 50 disposed on the upper end of the first steel member 55. The blocking means magnetized by the magnetic force by the first permanent magnet 50 is attached to the first steel member 55 by the attraction force.

In addition, the shaft 30 is also made of a metallic material by the attraction force by the magnetic force to the blocking member 40, the shaft 30 is seated on the blocking member 40 to strengthen the closed state of the valve.

This is caused by the magnetism of the first permanent magnet 50 disposed between the first steel member 55 and the fixed plunger 65 as well as the resistance of the upper movement of the shaft 30 by the spring 25 in the valve outlet port. The force of the valve keeps closing.

When the power is applied to the coil to open the valve, a magnetic pole opposite to the upper magnetic pole of the fixed plunger 31 magnetized by the first permanent magnet 60 is generated below the moving plunger according to the polarity of the direct current. By the magnetic force, the moving plunger 31 and the fixed plunger 20 have a pulling force, that is, an attractive force.

The moving plunger 60 maintained in the closed state is in close contact with the fixed plunger and the blocking member 40 simultaneously moves downward by the lower movement of the moving plunger 31, and the shaft 30 disposed at the bottom of the blocking member 30. ) Also moves downward so that the valve opens when the diaphragm 12 is spaced apart from the valve seat surface.

That is, the lower movement of the movable plunger 60 is a coil generating a magnetic field when a current is applied, the magnetic field is generated and the movable plunger magnetized to the magnetic field is a fixed plunger in a constant magnetization state by the first permanent magnet 50. It adheres to 65 different polarity. The valve is opened when the diaphragm moves downward from the moving plunger 60 and is spaced apart from the valve seat surface due to the downward movement of the shaft.

In the following examples. When the upper portion of the fixed plunger 65 magnetized by the first permanent magnet 50 is the S pole, the lower portion of the movable plunger 60 magnetized by the coil applies a DC current magnetically to the N pole and the first permanent magnet ( When the upper portion of the fixed plunger 65 magnetized by 50) is the N pole, the lower portion of the movable plunger 60 magnetized by the coil applies a DC current magnetically to the S pole.

In addition, the second permanent magnet is configured on the upper end of the second iron member 75 integrally disposed on the upper portion of the moving plunger 60 to magnetize the second iron member by the magnetism of the permanent magnet 70. When the power is applied, the second steel member 75 magnetized as the moving plunger moves downward by the electromagnetic force is gradually increased in the internal bracket 90 and the attraction force of the magnetic material.

Therefore, not only the moving plunger and the fixed plunger by the electromagnetic force but also the magnetic force by the second permanent magnet, the second steel member is mutually attracted to the inner bracket 90 and close to each other by close contact with the valve. Tries to stay open.

When the valve is to be closed again, counter electromotive force is generated by the coil 20 when no direct current is applied. Due to the counter electromotive force, an opposite magnetic field is generated so that the lower magnetic pole of the movable plunger becomes the same magnetic property as the upper magnet of the fixed plunger 65 magnetized by the first permanent magnet 50. In addition, the repulsive force of the spring 25, the force of the blocking member 40 magnetized by the first permanent magnet 50 to close contact with the first steel member 55 acts as a force, the moving plunger 60 is moved upward The valve remains closed.

That is, when the current of the moving plunger 60 is blocked, the coil 20 generates the opposite magnetic field by the counter electromotive force when the current is cut off, and the moving plunger 60 magnetized to the magnetic field is the first permanent magnet 50. By pushing the moving plunger 60 in the same polarity to the fixed plunger 65 in a constant magnetization state. The diaphragm 12 is moved to the valve seat surface 11 due to the upper movement of the moving plunger 60 and the upper movement of the shaft 30 to close the valve.

Therefore, the permanent magnet is divided in half and shows the same force, which is necessary for the method of opening and closing only by the electromagnetic force generated by the conventional coil. The valve can be opened and closed with a small current. Therefore, very stable operation can be performed at very low power.

That is, the magnetic force of the coil 20 as well as the magnetic induction of the fixed plunger 65 by the first permanent magnet 50 to have a double magnetic force to open and close the valve, and the second permanent magnet 70 By maintaining the open and close state by the magnetic force by the power consumption can be improved with a small amount of consumption compared to the case of using only the coil. In addition, the maintenance of the closing situation can increase the reliability of the valve by the magnetic force of the first permanent magnet 50, not depending only on the elasticity of the spring.

4A is a cross-sectional view of a valve in an open state by a manual means according to an embodiment of the present invention, in which the operating lever is moved from one side of the central shaft in the manual means to push the cam formed on the upper portion of the moving plunger downward. In addition, the valve is opened by moving the movable plunger downward.

The manual means (80) has a manual opening and closing function and an automatic return function including a cam-time type actuating lever (81) formed at the center of the upper portion of the movable plunger (60) to form a concave spiral cam (61) and supported by an external bracket. It is characterized by.

The manual opening function is formed in a structure having a helical cam from the center of the upper one side of the moving plunger and forms a structure for pushing the cam 61 by moving the operation lever 81 from one side of the central axis.

2 and 4a, when the operating lever 81 supported by the outer bracket 100 is rotated by 180 ° in the initial valve closing state of FIG. 2, as shown in FIGS. 2 and 4a, one side of the operating lever 81 is rotated by 180 °. Spiral curved surface formed in the push the cam 61 formed on the upper one side of the moving plunger to move the moving plunger to the bottom, the lower member of the moving plunger 60 at the same time the blocking member 40 is moved downwards at the same time The shaft 30 disposed at the lower end of the shaft 30 also moves downward so that the valve is opened when the diaphragm 12 is spaced apart from the valve seat surface.

This action allows the fluid trapped in the valve inlet port to flow through the valve seat surface to the valve outlet port due to the difference in the pressure of the valve outlet port.

As shown in detail A of FIG. 4A, when the operating lever 81 is rotated 180 °, the groove of the protrusion 62 of the cam 62 forms a helical curved surface with one side of the upper portion of the movable plunger 60. 63) and stops. This is equal to the force for the upper movement of the spring 25 and the pushing force due to the rotation of the operating lever 81. Accordingly, the movement of the lower portion of the moving plunger is maintained in the open state of the valve in the state of moving by the difference of the spiral curved surface.

Therefore, the manual means is a method for manual control rather than control by electric energy in case of power failure. In the absence of power supply, the operating lever 81 is rotated to switch the valve in the closed state to an open state, thereby allowing fluid to flow out of the valve. To flow through.

However, as shown in FIG. 3, in the open state due to the electromagnetic field of the coil due to power inflow, there is no gap between the two plungers due to the close contact between the moving plunger 60 and the fixed plunger 65, but as shown in FIG. 4A. The movable plunger and the fixed plunger are opened at a constant interval in the manual open state due to the movement due to the manual operation of the lever. The distance between the moving plunger 60 and the fixed plunger 65 is maintained at about 0.3 to 1.5 mm.

Further, in the automatic return function, detail B of FIG. 4A illustrates a state in which the operation lever is rotated when the power is applied. When the power is applied to the coil in the manual open state, the moving plunger 60 moves downward. The actuating lever is formed at the same interval as the cam 61 of the movable plunger, and the engagement between the actuating lever 81 and the cam 61 of the movable plunger is released to operate the elastic lever of the return spring 82. It is made of a structure for rotating the lever 81 to the center.

This means that when power is supplied to the electromagnetic valve when the power is released, the fixed plunger becomes an electromagnet to closely contact the movable plunger and the gap between the movable plunger and the fixed plunger is eliminated by manual operation due to the operation lever.

Therefore, the movable plunger and the fixed plunger are brought into close contact with the power supply so that the actuating lever has an interval of about 0.3 to 1.5 mm from the upper cam of the movable plunger, and the structure that is bound between the movable plunger and the actuating lever is released. The actuating lever is returned to the center by the return spring of the actuating lever.

Therefore, when the power is applied, the moving plunger is formed in close contact with the fixed plunger, and the working lever is released from the cam of the moving plunger and the operating lever is returned by the return spring. .

That is, the valve maintains the open state as shown in FIG. 3 due to the power applied in the manual open state, and when the power is not applied or cuts off the power, the valve is kept closed by the spring as shown in FIG. .

Therefore, even if the manual opening state is maintained, the valve can be automatically opened and closed by applying power even without a separate manual operation.

4B is a cross-sectional view of the valve in an open state by manual means using an operating lever 81 ＇which is an embodiment of the present invention. In the manual means, the operation lever is moved from one side of the central shaft to push the cam formed on the upper portion of the moving plunger to the bottom, and the valve is opened by moving the movable plunger downward. In addition, the same parts as in Fig. 4a, which is a drawing of the open state of the valve by the manual means using the operation lever as an embodiment of the present invention described above, the description thereof will be omitted.

The upper part of the movable plunger 60 is composed of a cam forming protrusions on both sides of the upper part, and has a manual opening and closing function and an automatic return function composed of a rod-time type operating lever 81 막대 supported by an outer bracket 100. It features.

The manual opening function is formed by the upper one side of the movable plunger (60) as a cam having a protruding groove from the center and rotating the rod-shaped operating lever (81 중심) in the center (62 ＇) of the cam (61＇). Pushes the structure.

In this structure, as shown in detail A in FIG. 4B, the operating lever 81 ′ supported by the outer bracket is rotated from the central axis so that the lower end of the operating lever 81 ′ is located at the upper end of the movable plunger 60. The projection 62 ＇of the cam 61＇ can be seated at an angle of 15 ° to 35 °.

Therefore, the moving plunger is moved downward while pushing the protruding cam (61 ＇) formed on both sides of the upper portion of the moving plunger, and the blocking member (40) moves downward at the same time by the lower movement of the moving plunger (60). The shift 30 disposed at the bottom of the lower portion also moves downward so that the valve is opened when the diaphragm 12 is spaced apart from the valve seat surface 11.

However, the open state maintained by the operating lever 81 ＇is kept open at a predetermined interval. The spacing is a space between the moving plunger 60 and the fixed plunger 65 and maintains about 0.3 to 1.5 mm.

In addition, when the power is supplied by the interval as shown in Figure 3a has an automatic return function. Even in the manual open state according to the present embodiment, the movable plunger 60 and the fixed plunger 65 have a predetermined interval so that the movable plunger 60 due to the magnetic force of the coil 20 due to the application of power supplies the gap. The lower portion of the ride is brought into close contact with the fixed plunger (65).

That is, the automatic return function is a view showing a state in which the operating lever is rotated when the power is applied to detail B in Figure 4b. The gap is moved by the electromagnetic force of the coil by the power supply, the moving plunger is in close contact with the fixed plunger so that the operating lever has an interval of about 0.3 mm to 1.5 mm with the upper cam of the movable plunger.

That is, the actuating lever is spaced apart from the movable plunger, so that the elastic spring of the return spring 82 의 of the actuating lever 81 에서 is engaged between the movable plunger 60 and the actuating lever 81 ＇. The actuating lever is detached from the protrusion 62 'of the cam 61', and the actuating lever is returned to the groove 63 'of the cam 61'.

While specific embodiments of the present invention have been described and illustrated above, it will be apparent that the present invention may be embodied in various modifications by those skilled in the art. Such modified embodiments should not be individually understood from the technical spirit or the prospect of the present invention, but should fall within the claims appended to the present invention.

As described above, the electromagnetic valve according to the present invention does not dispose the spring inside the plunger, but disposes it in the valve outlet port, and increases the reliability of the valve in the valve closed state due to the maintenance of the closing by the magnetic force of the permanent magnet. When the power is applied, the magnetic force induced by the coil and the magnet of the permanent magnet are kept open, thereby saving electric energy and eliminating the risk of fire due to overheating, thereby extending the reliability and life of the valve.

In addition, the present invention can be manually operated in the event of power failure or emergency, and when the power is applied when the power failure is released, the electronic valve can be automatically controlled by automatically returning to the electronic valve state without manual operation and remotely controlling the opening and closing of the valve even when the power failure is released. It can be effective.

1 is a cross-sectional view showing the structure of an electromagnetic valve according to the prior art,

2 is a cross-sectional view in an initial state of an electronic valve according to an embodiment of the present invention,

3 is a cross-sectional view of the electronic valve according to an embodiment of the present invention when the valve is open when operated with a power source,

Figure 4a is a cross-sectional view of the valve open state by a manual means of the electronic valve according to an embodiment of the present invention,

4B is a cross-sectional view of the valve open state by manual means of the electronic valve according to one embodiment of the present invention.

* Sign of the main part of the drawing

20: coil 25: spring

40: blocking member 45: rubber barrier film

50: first permanent magnet 55: first steel member

60: moving plunger 65: fixed plunger

70: second permanent magnet 75: second iron member

80: manual means 81,81 ＇: operating lever

82,82 ＇: Return spring 90: Inner bracket

100: outer bracket

Claims (7)

In an electronic valve which generates a magnetic field in accordance with an externally applied current to close, open and maintain the valve: A valve inlet port 10 forming an inlet 15 and an outlet 15 구 of the valve; A spring 25 elastically supporting the shaft 30 integrated with the diaphragm 12 upwardly in the valve outlet port; A blocking member (40) on which the first steel member (55) and the attraction force are actuated in a state in which it is disposed at the upper end of the shaft (30) supported upward by the spring (25); The first permanent magnet 50 disposed above the first steel member 55 such that the blocking member 40 is attracted to the first steel member 55 by the magnetic force applied to the blocking member 40. and; A fixed plunger (65) disposed on an upper end of the first steel member (55) which is constantly magnetized by the first permanent magnet (50); A coil 20 disposed on an upper end of the fixed plunger 65 to generate an electromagnetic force when a current is applied to the elastic force of the spring 25; A moving plunger 60 disposed inside the coil 20 to move downward by an electromagnetic force formed by the coil 20 to maintain an open state of the valve; And A second permanent magnet (70) for magnetizing the second steel member integrally disposed on the upper portion of the movable plunger; An electromagnetic valve comprising a manual means (80) disposed on the upper portion of the moving plunger so as to be responsive to an elastic force formed by the spring (25), so as to move downwardly under the movable plunger (60). The method according to claim 1, The spring 25 is applied to the coil by applying an elastic pressure to the valve seat surface by applying elasticity to the shaft upwards and the diaphragm integrated with the shaft in the inner side of the valve outlet port opening or opening by the manual means Electronic valve, characterized in that for keeping the valve closed unless otherwise. The method according to claim 1, The blocking member (40) is an electromagnetic valve comprising a magnetic block (41) magnetized by the first permanent magnet and a rubber blocking film (45) to prevent the fluid flowing into the valve outlet port from entering the coil. The method according to claim 1, The manual means 80 moves at the time of applying power to the coil 20 and the manual opening function to move the moving plunger through the actuating lever 81 to the bottom in response to the elastic force of the spring at the top of the moving plunger 60. Electronic valve, characterized in that the automatic return function to the state before the manual opening at the same time as the lower movement of the plunger. The method according to claim 4, The manual opening function is formed in a structure having a cam (61, 61 ＇) from the center of the upper one side of the moving plunger so as to move the moving plunger in response to the elastic force of the spring and the center of the operating lever (81,81＇) An electromagnetic valve comprising a structure for moving from one side of the shaft to pushing the projections 62, 62 ＇downward. The method according to claim 4, The automatic return function is moved downwardly of the movable plunger 60 when the power is applied to the coil 20 in the manual open state, and the movable plunger is spaced apart from the operation lever and is returned by the return springs 82 and 82 ＇. Electronic valve, characterized in that made of a structure for moving the operating lever (81,81 ＇) to the state before the manual opening. The method according to claim 6, Electronic valve, characterized in that the interval between the movable plunger and the operating lever is about 0.3mm ~ 1.5mm.