KR200191127Y1 - Solenoid valve for gas leak interceptor - Google Patents

Abstract

The present invention relates to a gas leakage circuit breaker, and an object of the present invention is to improve the structure of a solenoid valve applied to a gas leakage circuit breaker so that the gas interruption is accurate and fast, and the solenoid valve on / off operation is provided even at low power consumption. It is to provide a solenoid valve of the gas leakage circuit breaker that can maximize the reliability of the device.

The object of the present invention is a gas leakage circuit breaker using the solenoid valve 10,

The solenoid valve 10 has a plunger 11 in which both shafts 12 and 12 are assembled, a coil 20 wound around the plunger, and both shafts 12 and 12 penetrate at regular intervals. Compression springs are interposed between the permanent magnets (30, 30) and the both ends of the plunger (11) and the permanent magnets (30, 30) sandwiched between the permanent magnets (30, 30) in a state sandwiched between the two (12, 12) 40, 40) is achieved by the solenoid valve of the gas leakage circuit breaker.

The present invention realizes cost savings by simplifying the configuration of the gas leakage circuit breaker, increases reliability of the product by eliminating malfunctions, speeds up operation, and minimizes power consumption.

Description

Solenoid valve for gas leakage breaker {SOLENOID VALVE FOR GAS LEAK INTERCEPTOR}

The present invention relates to a gas leakage circuit breaker, and more particularly, to improve the structure of a solenoid valve applied to a gas leakage circuit breaker, so that the gas interruption is accurate and fast, and the solenoid valve on / off operation is provided even with low power consumption. The present invention relates to a solenoid valve of a gas leakage circuit breaker capable of maximizing reliability of a device.

In general, a gas leakage circuit breaker installs a circuit breaker in a gas cylinder or a gas pipe, and installs a detector that operates the circuit breaker at an appropriate place. When a gas leak occurs, the sensor detects and activates the circuit breaker at the same time as an alarm occurs. It is supposed to close the gas inlet.

As mentioned above, the gas leakage circuit breaker is installed on the line of the gas pipe, and the valve is shut off in connection with the operation of a sensor installed separately. Most of these gas leakage circuit breakers constitute solenoid valves. Applied in mechanism.

However, the structure of the solenoid valve is divided into when the power supply is turned on and when the power is turned off, and the above-mentioned application to the gas shutoff of the gas leakage circuit breaker requires that the power supply be continuously turned on to open the valve when the gas is used. As a result, the power consumption is large, and when the power is turned off, the solenoid valve is locked, that is, the valve is closed, which causes inconvenience in use.

In order to make up for the disadvantages of the solenoid valve, a gas leakage circuit breaker having a mechanical mechanism has been disclosed. However, a circuit breaker having such a mechanical mechanism has a complicated structure, which increases the cost of the product. Hypertrophy and weight had a weight more than necessary, there was a disadvantage that it is not easy to handle.

The present invention is devised to effectively solve the problems of the prior art as described above,

It is an object of the present invention to provide a solenoid valve of a gas leakage circuit breaker which minimizes malfunction in operation even with low power consumption.

An object of the present invention is to provide a solenoid valve of a gas leakage circuit breaker with a quick and accurate gas interruption.

It is an object of the present invention to provide a solenoid valve of a gas leakage circuit breaker that maintains an open state of a valve even when the power is turned off during use, thereby maximizing convenience of use.

The object of the present invention is a gas leakage circuit breaker using a solenoid valve,

The solenoid valve includes a plunger assembled with saffles on both sides, a coil wound on the plunger, two permanent magnets penetrated by the two shafts, and spaced at a predetermined interval, and between the plunger and the permanent magnet. Composed of a compression spring that is installed in the state inserted in the shaft,

The plunger is electromagnetized of the plunger by the current conduction by adjustment of the current direction of the coil in the initial state where the position equilibrium with each of the permanent magnets is formed by the compression springs of both sides. The position equilibrium of the plunger is broken by the repulsive force and the attraction force of the polarity and moves in the attraction direction so as to be in contact with the permanent magnet on one side, so that the plunger is fixed by the magnetic force of the permanent magnet even when the power is turned off. Achieved by the solenoid valve of the gas leakage circuit breaker.

1 is a cross-sectional view of a gas leakage circuit breaker to which the present invention is applied,

Figure 2 is an excerpt of the 'F' part of Figure 1 showing the configuration of the solenoid valve of the present invention,

3 and 4 are views of the operation of the solenoid valve by adjusting the current direction of the coil.

<Description of Symbols for Major Parts of Drawings>

10 solenoid valve 11 plunger

12: shaft 20: coil

30: permanent magnet 40: compression spring

Hereinafter, on the basis of the accompanying drawings will be described in detail the configuration of the present invention.

That is, the present invention, as shown in Figure 1 and Figure 2, in the gas leakage circuit breaker using the solenoid valve 10,

The solenoid valve 10 has a plunger 11 in which both shafts 12 and 12 are assembled, a coil 20 wound around the plunger, and both shafts 12 and 12 penetrate at regular intervals. Compression springs are interposed between the permanent magnets (30, 30) and the both ends of the plunger (11) and the permanent magnets (30, 30) sandwiched between the permanent magnets (30, 30) in a state sandwiched between the two (12, 12) 40, 40).

In the drawings, reference numeral 1 is a valve body, 2 is a union for connecting the gas pipe 100, 3 is a valve seat assembled to the one side shaft 12, 4 is a coil frame, 5 is a case, 6 Is a manual return handle assembled to the other shaft 12, 100 is a gas pipe.

In the present invention, the plunger 11 is in positional equilibrium with each of the permanent magnets 30 and 30 by both compression springs 40 and 40 in the initial production state (see FIG. 2).

In this state, when power is supplied to the coil 20, the plunger 11 becomes an electromagnet by the coil 20, and the polarity due to electromagnetization of the plunger 11 is determined by Fleming's right hand rule. The magnetic field is determined in the direction in which the magnetic field is formed, and the polarity of the electromagnet is determined by the current direction of the coil 20.

That is, as shown in FIG. 3, when the current direction is adjusted so that the polarity of the A side of the plunger 11 is N and the B side is the S pole, the A side of the plunger 11 is the permanent magnet on the left side. The N pole of the 30 and the repulsive force is generated and the force acting to move the plunger 11 to the right side, and at the same time the B side of the plunger 11, the N pole and the attraction force of the permanent magnet 30 on the right side acts as an arrow To the right of the direction.

Therefore, the valve seat 3 assembled to the shaft 12 of one side assembled to the plunger 11 is moved to block the gas inlet and outlet of the valve body 1.

Since the movement interval of the plunger 11 is about 3 to 4 mm, the time for the valve seat 3 assembled to the shaft 12 of the plunger 11 to block gas is very short.

In this state, once the movement of the plunger 11 is completed, the plunger 11 is fixed in contact with the permanent magnet 30 located in the movement direction, even if the current flowing through the coil 20 is removed. 11 is fixed by the magnetic force of the permanent magnet 30 is maintained the closed state of the valve.

In this state, when the current direction of the coil is reversed, the A side polarity of the plunger 11 becomes the S pole and the B side polarity of the N pole, while the A side of the plunger 11 has a permanent magnet 30 on the left side. ) And the attraction force of the N pole is generated to move the plunger 11 to the left side, and at the same time, the B side of the plunger 11 is mutually repulsive force (Normal force of the permanent magnet 30 on the right side) ) Acts to move the plunger 11 to the left in the direction of the arrow so that it is fixed in contact with the permanent magnet 30 on the left side in the moving direction, and as described above, the magnetic force of the permanent magnet 30 is removed even after the current is removed. It is fixed to the moving state, and it will be in the state which opens a valve contrary to FIG.

At this time, the present invention is to close or close the valve when necessary without the application of the power by the operation of the manual return handle 6 assembled to the other shaft 12 of the plunger 11 in the open state of the valve as shown in FIG. It can be opened to ensure ease of use.

The present invention, the plunger by the repulsive force of the compression spring (40, 40) by the action of the repulsive force and the attraction force by the polarity of the permanent magnets (30, 30) installed on both sides by the electromagnetization of the plunger (11) 11) the position balance is broken and the plunger 11 is moved in the repulsive direction to be fixed in contact with the permanent magnet 30 on one side, and at the same time the plunger 11 is kept fixed by the magnetic force even when the power is off. It can block the leakage of gas automatically by the connection configuration with a separate detector, so the reliability of the product is high.

As described in detail above, the present invention minimizes the volume and weight, reduces the cost by simplifying the configuration of the gas leakage circuit breaker, and improves the reliability of the product by eliminating malfunctions. Is implemented.

Claims (2)

In the gas leakage circuit breaker using the solenoid valve 10, The solenoid valve 10 has a plunger 11 in which both shafts 12 and 12 are assembled, a coil 20 wound around the plunger, and both shafts 12 and 12 penetrate at regular intervals. Compression springs are interposed between the permanent magnets (30, 30) and the both ends of the plunger (11) and the permanent magnets (30, 30) sandwiched between the permanent magnets (30, 30) in a state sandwiched between the two (12, 12) Solenoid valve of the gas leakage circuit breaker, characterized in that consisting of 40, 40. 2. The plunger (11) according to claim 1, wherein the plunger (11) of the coil (20) is in an initial state in which the position equilibrium with each of the permanent magnets (30, 30) is established by both compression springs (40, 40). Electromagnetization of the plunger 11 by current conduction by adjustment of the current direction, and the position equilibrium of the plunger 11 is broken due to repulsion and attraction due to the polarity of the permanent magnets 30 and 30 installed at both sides. The gas leakage circuit breaker characterized in that the contact is fixed to the permanent magnet 30 on one side, and the plunger 11 is moved and fixed by the magnetic force of the permanent magnet 30 even when the power is turned off. Solenoid valve.