KR950008385Y1 - Air-pressure valve with magnetic forces - Google Patents

Abstract

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Description

Valve opening and closing device of pneumatic valve applying magnetic force of electromagnet

1 is an operation block diagram of an embodiment of the pneumatic valve of the present invention.

2 is a front view of one embodiment of the present invention.

3 is a front view of the operating state of the embodiment, in which a is a state in which the lower portion of the nonmagnetic metal shaft is rotated to the right, and b is a state in which the lower portion of the nonmagnetic metal shaft is rotated to the left.

* Explanation of symbols for main parts of the drawings

10: permanent magnet 20: urethane rubber

30: electromagnet 40: coil

50: non-magnetic metal shaft 60: fixed shaft

70: pneumatic valve N: N pole

S: S pole I: Current direction

The present invention relates to a valve opening and closing device of a pneumatic valve by applying the magnetic force of the electromagnet, and more specifically, the coil is wound around the magnetic material to flow an electric current to make an electromagnet, the repulsive force of the electromagnet (N pole and N pole, S pole and S pole) And manpower (N pole and S pole, S pole and N pole) to enable the pneumatic valve to be opened and closed.

In general, in a pneumatic valve, a pneumatic valve shaft is connected to a rotating shaft, and the rotating shaft is usually connected to a motor.

That is, the drive rotational force of the motor is transferred to the crankshaft to be converted into linear motion, and then the linear rotational motion of the crankshaft is applied to the compressor and the like by using a pneumatic valve. Since the load on the motor was increased due to the compressor, there was a high power consumption, and there was a fear of the motor being lost when the motor burned out due to the wear and heat of the motor due to the motor rotation.

In addition, since the motor's rotational movement cannot be directly connected to the pneumatic valve, there is a disadvantage in that an additional drive force transmission component such as a crankshaft must be installed between the motor and the pneumatic valve. In addition, the overall volume and weight were heavy, which was inconvenient during transportation and economically burdensome.

The present invention has been devised in view of the above-mentioned conventional problems, and moves left and right through an axis using repulsive force (magnetic force: pushing force between the same poles) and attractive force (pulling force between other poles). By connecting the force to the pneumatic valve, the air can be inhaled or compressed, and applied to the compressor, etc., the volume of the electromagnet is small, the weight is light, there is no heat generated during use, and urethane rubber is attached to the permanent magnet. The impact of the permanent magnets and electromagnets on the four inclined planes and the two are the repulsive force and the two are the attractive force. In addition, it is possible to freely adjust the change of the electrode in the electrode change circuit and to control the speed of the pneumatic valve.

In addition, since the force driven by the magnetic force in the electromagnet is directly transmitted to the pneumatic valve, the driving force transmission parts such as the crankshaft are not needed, so the force is quickly transmitted from the electromagnet installation part to the pneumatic valve. Phosphorus use is possible.

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

1 is an operation block diagram showing the state of use of the present invention, the control circuit for controlling the electrode change circuit is connected to the power supply, the electromagnet is connected to the electrode change circuit for changing the negative electrode and the positive electrode, the magnetic force of the electromagnet to the pneumatic valve Directly applied, the pneumatic force drives the compressor.

2 is a front view showing an embodiment of the present invention, the outside light inside (wide outside, the inside is wide, the top and bottom of the non-magnetic metal shaft 50 is supported by a fixed shaft 60 supported by a case (not shown) Narrow inclined surface 11 is provided with a permanent magnet 10 formed to face each other, the outer narrow light (narrow outside, wide inside) so as to correspond to each inclined surface 11 of the permanent magnet (10) Photo stimulation slope 31 is formed.

Meanwhile, in the present invention, the strength of the magnetic force is determined according to the number of windings of the coil 40 wound around the current and the strength of the current, and the law of circumferential integration of the normal amperage ( Hds = NI, H; Strength of magnetic field, N: number of coils wound, I: strength of ammeter.

Referring to the specific operation of the present invention configured as described above based on Figure 3 in particular as follows.

That is, as shown in FIG. 3A, electrodes are formed by the current direction I flowing from the lower portion of the coil 40 to the upper portion of the coil 40, and are provided on both sides of the nonmagnetic metal shaft 50. The electromagnet 30 has the same N pole S pole is formed on the magnetic pole slope 31 of the upper and lower ends, and the permanent magnet 10 located on the upper and lower portions of the nonmagnetic material shaft 50 has the S pole and the N pole on the left and right sides, respectively. Since the property is attached to the electromagnet 30 of the left side of the north pole of the permanent magnet 10 of the upper, the permanent magnet 10 of the bottom is attached to the electromagnet 30 of the right side of the S pole.

In the above, the upper permanent magnet 10 is attached to the left electromagnet 30, which is the S pole and the N pole, by the attraction force, and the right side thereof is the N pole, so that the repulsive force of the right electromagnet 30 is the same N pole. The lower permanent magnet 10 has a repulsive force generated between the electromagnet 30 on the left side and the attraction force between the electromagnet 30 on the right side.

Therefore, the non-magnetic metal shaft 50 is rotated to the left side around the fixed shaft 60 and the lower side connected to the pneumatic valve 70 is rotated to the right, thereby compressing the pneumatic valve 70 may occur Will be.

On the other hand, as shown in FIG. 3, when the electrode changes from the electrode change circuit, the current flowing from the upper portion of the coil 40 flows to the lower portion of the coil 40, and the upper and lower polarities of the respective electromagnets 30 become S and N poles. Since the opposite to FIG. A, the upper permanent magnet 10 is attached to the right electromagnet 30, and the lower permanent magnet 10 is attached to the left electromagnet 30 so that the nonmagnetic metal shaft 50 is fixed shaft 60. Rotating to the right with respect to the center, and the lower portion connected to the pneumatic valve 70 is rotated to the left, so that the suction of the pneumatic valve 70 can occur.

Since the upper permanent magnet 10 has an N pole on the right side thereof, the upper electromagnet 30 is attracted to the left electromagnet 30, which is the S pole, and the left side is the S pole so that the upper end of the permanent magnet 10 has the same S pole as the upper right magnet 30. The repulsive force is generated, the lower permanent magnet 10 is the repulsive force is generated between the lower end of the N-pole and the left electromagnet 30, the attraction force is acting between the left side of the N-pole.

As described above, the present invention provides a non-magnetic metal shaft 50 through the repulsive force of the electromagnet 30 (N pole and N pole, S pole and S pole) and attraction force (N station and S pole, S pole and N pole). It is possible to rotate left and right about the fixed shaft 60, thereby driving the pneumatic valve 70 connected to the lower portion of the non-magnetic metal shaft 50 to compress the air through the pneumatic valve 70 You can alternate between inhalation and inhalation.

Therefore, according to the present invention, it is possible to switch between the air suction and air compression of the pneumatic valve 70 by sufficiently changing the electrode in the electrode change circuit and the control circuit of the electrode by the strong magnetic force of the electromagnet 30. By effectively operating the pneumatic valve 70, it is possible to use for various mechanisms using the pneumatic valve 70, such as a compressor.

In addition, according to the present invention, the volume of the part constituting the electromagnet 30 is small, the weight is light, and there is no heat generated during use, and the urethane rubber 20 can be attached to the permanent magnet 10 to mitigate the impact, and change the electrode. It is possible to freely adjust the change of the electrode in the circuit and to control the speed of the pneumatic valve 70, as well as transfer the force driven by the magnetic force in the electromagnet 30 directly to the pneumatic valve 70, such as a crankshaft Since the driving force transmission component is not required, the force transmission from the electromagnet installation part to the pneumatic valve 7 is quick, and the permanent magnet 10 and the electromagnet 30 can be used for semi-permanent use. .

Claims (1)

In the coil 40 having a pair of electromagnets 30 wound thereon, a nonmagnetic metal shaft 50 axially supported by a fixed shaft 60 between the two electromagnets 30, the center of which is supported by a case. The permanent magnet 10 having the inclined surface 11 of the external light inner narrow is installed on the upper and lower portions of the nonmagnetic metal shaft 50, and the respective permanent magnets on the inner upper end and the lower end of each electromagnet 30. 10, respectively, and the magnetic pole slope surface 31 of the external narrow light corresponding to the inclined surface 11, and at the same time, the lower permanent magnet 10 of the non-magnetic metal shaft 50 is connected to the pneumatic valve 70 through the connecting means The valve of the pneumatic valve applying the magnetic force of the electromagnet, characterized in that to open and close the pneumatic valve 70 through the non-magnetic metal shaft 50 rotated to the left and right in accordance with the upper and lower magnetic pole change of the previous work 30 Switchgear.