KR20180078952A - Plunger return injector of magnetism - Google Patents

Abstract

The present invention relates to a plunger return injector using magnetic force, which can minimize noise generated in upward/downward motion of a plunger while maintaining upward/downward motion response performance of an injector by lowering an opening/closing part by using a permanent magnet. The plunger return injector comprises: a housing; an opening/closing part; and a control part.

Description

[0001] Plunger return injector [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a plunger return injector using a magnetic force, in which the movement of a plunger by a permanent magnet is controlled to minimize noise generated by friction between a plunger and a housing constituting the injector, And a plunger return injector using a magnetic force capable of solving the problem of a drop in the response performance of the injector corresponding to the change in tension of the spring when the control is performed.

1, the injector includes a plunger 1 that moves along a flow path through which gas flows, a solenoid (not shown) disposed on a side surface of the plunger for lifting a plunger to open a flow path through which the gas moves solenoid 2 and a return spring 3 for lowering the raised plunger and closing the flow path through which the gas moves.

The solenoid 2 forms a certain magnetic path with the plunger 1 at the time of gas discharge so that the plunger 1 is magnetically attracted to the plunger 1, So that the return spring 3 presses the plunger at the gas inflow timing and the plunger 1 can close the flow path through which the gas moves.

However, since the conventional injector uses the return spring 3 to lower the plunger 1, the response time of the plunger 1 is also changed when the return spring 3 repeats the elastic movement and the tension is varied, Not only the emission control reliability is deteriorated but also the plunger 1 which is magnetized and generated by the generated magnetic force collides with the inner surface of the injector which forms the passage through which the gas passes and noise is generated.

Therefore, there is a need for a new injector which solves the problems of the conventional injector as described above.

Korean Patent Publication No. 2016-0003702

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above problems, and it is an object of the present invention to solve the problem of a drop in the response performance of the injector caused by the change of the tension of the return spring due to repeated plunger up / down movement.

In addition, when the solenoid is magnetized and the plunger is raised, the solenoid rises sharply, minimizing the noise generated by colliding with the inner wall of the injector.

In order to achieve the above object, the injector according to the present invention includes a passage 110 through which gas flows from one side in the longitudinal direction to the other side, and a first magnetic body 130) are positioned; An opening and closing part 200 located on the flow path 110 and moving along the flow path 110 to open and close the outlet part 120 and form a magnetic path with the first magnetic body 130; A control unit 300 for controlling the movement of the opening / closing unit 200; And a control unit.

Further, the opening / closing part 200 is characterized in that the pressing part 210 is formed on the other side in the longitudinal direction.

Further, the pressing portion 210 includes a ring-shaped pressing protrusion 202 which surrounds the edge of the opening / closing portion 200.

The pressing protrusion 202 is a module in which a plurality of pressing protrusion unit bodies 202a protruding outward from the inner side in contact with the edge of the opening and closing unit 200 are assembled.

The pressing protrusion 202 is bent or bent in one direction from the other longitudinal side of the opening and closing part 200 as it goes from the inside to the outside facing the opening and closing part 200.

And a second magnetic body 400 formed on the flow path 110 opposite to the other longitudinal end of the opening and closing part 200 and applying a repulsive force to the opening and closing part 200.

The injector according to the present invention having the above-described structure controls the downward movement of the opening / closing part by using the first magnetic body, so that even when the opening / closing part repeats the up / down movement, the response time responding to the signal input from the outside can be kept constant Therefore, there is an advantage that the amount of discharged gas can always be precisely controlled.

Further, when the distance between the first magnetic body and the opening / closing part is distant from that of the pressing part receiving the pressure of the gas flowing into the opening / closing part, the insufficient attraction can be supplemented by the force of the gas.

Further, the shape of the pressing portion is specified, and the force of the moving gas is transmitted, but the movement of the gas is not hindered.

In addition, there is an advantage that a certain repulsive force is applied to the opening / closing part where the second magnetic body rises by the magnetic force of the control part, thereby minimizing noise generated when the opening / closing part collides with the inner surface of the housing.

1 is a conceptual view showing a conventional injector.
2 is a conceptual diagram showing an injector according to the present invention (at the time of forming the first magnetic body)
3 is a plan view and a cross-sectional view of the first magnetic body of the injector of the present invention.
4 is a conceptual diagram showing an injector according to the present invention (at the time of forming the first magnetic body and the pressing portion)
5 is a cross-sectional view showing a pressing portion of the injector according to the present invention.
6 is a perspective view showing a pushing portion of an injector according to the present invention.
7 is a perspective view showing a pushing portion of the injector according to the present invention.
8 is a perspective view showing a pushing portion of an injector according to the present invention.
9 is a conceptual diagram showing an injector according to the present invention (at the time of forming the second magnetic body and the third magnetic body)

Hereinafter, the injector according to the present invention as described above will be described.

2, the injector according to the present invention includes a flow path 110 through which gas flows from one side in the longitudinal direction to the other side, and a first magnetic body 130 is provided in the other side outlet 120 of the flow path 110. [ And a second magnetic body 130 which is located on the flow path 110 and moves along the flow path 110 to open and close the outlet part 120. The first magnetic body 130, And a control unit 300 for controlling the movement of the opening / closing unit 200.

In detail, the housing 100 forms a flow path 110 through which a gas passes to transmit the input gas to the object constantly. The control unit 300 controls the opening / Or moves downward to open or close the flow path 110 on the housing 100.

The flow path 110 is located on the uppermost side of the housing 100 and includes a first flow path 111 through which the gas flows and a second flow path 111 through which the opening and closing part 200 communicates with the lower side of the first flow path 111, A third flow path 112 communicating with a lower side of the second flow path 112 and having a gas passing through the housing 100 and the opening and closing part 200, 113 and the fourth flow path 114 communicating with the third flow path 113 through the other outlet 120. [

That is, the gas introduced through the first flow path 111 flows into the third flow path 113 through the gas flow hole 211 formed on the opening / closing part 200 located on the second flow path 112 And the gas introduced into the third flow path 113 is discharged through the fourth flow path 114 when the opening and closing part 200 closing the other outlet part 120 is moved upward by the control part 300 will be.

The control unit 300 is formed to surround the opening and closing unit 200. When the electricity is inputted from outside, the control unit 300 is magnetized to form the opening and closing unit 200 and the magnetic path so that the opening and closing unit 200 is raised.

At this time, when the magnetization state of the controller 300 is released, the opening and closing part 200 is naturally lowered by gravity and the other end in the longitudinal direction is brought into close contact with the outlet part 120 to form the third flow path 113 and the fourth flow path 114, When the opening and closing part 200 is simply lowered by gravity, the opening and closing part 200 and the outlet part 120 are not firmly brought into close contact with each other, The first magnetic body 130 forming the magnetic path may be positioned at the second outlet 120 and the magnetic force pulling the opening and closing part 200 may be reduced by the controller 300. [ The first magnetic body 130 pulls the opening and closing part 200 so that the opening and closing part 200 can seal the other outlet part 120.

The first magnetic body 130 may be an electromagnet that forms a magnetic field using electric energy input from the outside because it is sufficient to form a magnetic path having an attractive force to pull the opening and closing part 200. However, It is recommended that the first magnetic body 130 be a permanent magnet which does not require any additional energy of the first magnetic body 130. The first magnetic body 130 may have various shapes but is formed on the other side outlet portion 120 formed on the housing 100, It is recommended that the first magnetic body 130 is formed in a circular plate shape having a second gas movement hole 131 corresponding to the first gas movement hole 121 and is tightly coupled to the upper surface of the other outlet 120, The magnetic coupling grooves 101 may be formed on the housing 100 to fix the magnetic coupling grooves 101 to a predetermined position.

4, the pusher 210 may be formed on the other side of the opening / closing part 200, which is located on the third flow path 113, in the longitudinal direction.

The magnitude of the magnetic force is proportional to the product of the intensity of the two magnetic poles and is inversely proportional to the square of the distance between the magnetic poles so that when the control unit 300 is magnetized and the opening and closing unit 200 moves upward, The distance of the first magnetic body 130 is increased and the force by which the first magnetic body 130 pulls the opening and closing part 200 abruptly weakens.

The pressurizing portion 210 is formed on the other side of the opening and closing part 210 so that the gas flowing into the third flow path 113 through the edge flow hole 211-2 formed on the other side edge of the opening and closing part 210 flows into the opening and closing part 200 ) From one side to the other.

The main flow hole 211-1 and the opening and closing part 200 are formed to extend from one side in the longitudinal direction of the opening and closing part 200 to the other side, And the edge flow hole 211-2 is located on the upper side relative to the pressure portion 210 and discharges the gas so that the emitted gas flows downward So that the opening / closing part 200 can be lowered by pressing the pressing part 210.

At this time, the pressing part 210 may protrude from the inside to the outside of the center of the opening / closing part 200 at the edge of the opening / closing part 200 and may receive various kinds of pressure because it is enough to receive the pressure of the gas.

5, the pressing portion 210 may include a pressing body 201 that surrounds the other end of the opening and closing portion 200, a pressing body 201 that protrudes outward from the edge of the pressing body 201, The protrusion 202 may include a protrusion 202 protruding from the inside of the protrusion 202 toward the outside in order to receive a large amount of the force of the gas discharged from the edge flow hole 211-2 with a minimized area. It is recommended that the shape be bent to one side from the other side in the longitudinal direction.

6, the pressing portion 210 may have a ring shape that circumferentially surrounds the edge surface of the pressing body 201. However, as shown in FIG. 7, A plurality of pressing protrusion unit members 202a projecting outwardly from the inner side in contact with the edge of the pressing protrusion 201 may form a single pressing protrusion 211 module that surrounds the pressing body 201 in a radial shape, A plurality of pressing protrusion unit bodies 202a are radially joined to the edge of the pressing body 201 so as not to disturb the movement of the gas as much as possible so that the other end portion in the width direction of each pressing protrusion unit body 202a extends in the width direction It may be a structure that is positioned higher than one end of the pressing protrusion unit unit 202a so that the gas collided with the pressing protrusion unit unit 202a can move to the other side in the longitudinal direction of the opening and closing unit 200 on one side of the pressing protrusion unit unit 202a .

9, the injector of the present invention further includes a second magnetic body 400 for applying a repulsive force to the opening / closing part 200 in a flow path 110 located on the other side of the opening / closing part 200 in the longitudinal direction .

When the control unit 300 is magnetized, the opening / closing unit forms a magnetic path with the control unit 300 so that the control unit 300 rises to the upper side where the control unit 300 is positioned, and the edge thereof faces the inner circumferential surface of the control unit 300. At this time, when the control unit 300 rises to the upper side, the inner surface of the control unit 300 and the adjacent surfaces of the opening and closing unit 200 are further increased and the attractive force generated between the opening and closing unit 200 and the control unit 300 becomes strong. And the other end of the ascending opening and closing part 200 collides with the other end 102 of the housing 100 forming the first flow path 111 at a high speed to generate noise .

A second magnetic body 400 for applying a repulsive force to the opening and closing part 200 is formed at the other end 102 of the first flow path 111 opposite to the other end of the opening and closing part 200, Thereby preventing the other end 102 of the housing 100 forming the one flow path 111 from colliding with the other end 102 of the housing 100 forming the flow path 111. [

At this time, a third magnetic body 103 having the same polarity as the second magnetic body 400 is attached to the other end 102 of the housing 100 forming the first flow path 111 to apply a repulsive force to the opening / Of course, can be located.

That is, the other surface of the second magnetic body 400 where the second magnetic body 400 and the third magnetic body 103 face each other and one surface of the third magnetic body 103 have the same polarity, And prevents the first end portion 102 of the housing 100, which forms the first flow path 111, from hitting the other end portion 102 of the housing 100.

The second magnetic body 400 and the third magnetic body 103 may be various magnetic bodies because they are sufficient to form a repulsive force with each other, but it is recommended that permanent magnets which do not require additional energy and can always have a constant magnetic force do.

The technical idea should not be interpreted as being limited to the above-described embodiment of the present invention. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. Accordingly, such modifications and changes are within the scope of protection of the present invention as long as it is obvious to those skilled in the art.

1: plunger 2: solenoid
3: return spring
100: Housing
110: Euro 111: First Euro
112: second flow channel 113: third flow channel
120: outlet part 130: first magnetic body
200: opening and closing part 210: pressing part
201: pressing body 202: pressing projection
300:
400: second magnetic body

Claims (6)

A housing 100 in which a flow path 110 through which gas flows from one side in the longitudinal direction to the other side is formed and a first magnetic body 130 is positioned at the other outlet 120 of the flow path 110;
An opening and closing part 200 located on the flow path 110 and moving along the flow path 110 to open and close the outlet part 120 and form a magnetic path with the first magnetic body 130;
A control unit 300 for controlling the movement of the opening / closing unit 200; And an injector.
The method according to claim 1,
Wherein the opening / closing part (200) has a pressing part (210) formed on the other side in the longitudinal direction.
3. The method of claim 2,
Wherein the pressing portion (210) includes a pressing protrusion (202) surrounding an edge of the opening / closing portion (200).
The method of claim 3,
Wherein the pressing protrusion (202) is a module in which a plurality of pressing protrusion unit pieces (202a) protruding outward from the inner side in contact with the edge of the opening / closing part (200) are gathered.
The method according to claim 3 or 4,
Wherein the pressing protrusion (202) is bent or bent in one direction from the other side in the longitudinal direction of the opening / closing part (200) toward the outside from the inside facing the opening / closing part (200).
5. The method according to any one of claims 1 to 4,
And a second magnetic body (400) formed on the flow path (110) opposite to the other longitudinal end of the opening / closing part (200) and applying a repulsive force to the opening / closing part (200).

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