KR102094849B1 - Push Button Type Solenoid Valve - Google Patents

Abstract

The present invention relates to a solenoid valve including a push button type opening and closing unit. The purpose of the present invention is to provide a solenoid valve of a new concept, which can be opened and closed only by a one-way movement of a push button. The solenoid valve comprises: a valve body unit (100) of a tubular structure; a valve stopper (200) installed in the valve body unit (100) in a structure capable of ascending and descending; a locking spring (300) elastically supporting the valve stopper (200) upwards; a cam body unit (400) installed in the upper part of a path (110) of the valve body unit (100); an ascending and descending cam unit (500) installed to ascend and descend along an upper through hole (410) and a lower through hole (420) formed at the center of the cam body unit (400), wherein a lower end of the ascending and descending cam unit (500) is connected to the upper part of the valve stopper (200) and elastically supported by the locking spring (300); a cam plunger (600) inserted into the upper part of the ascending and descending cam unit (500) to ascend and descend and enabling a protrusion cam (510) of the ascending and descending cam unit (500) to move out to the lower part of a lower inclined cross section (430) or the lower part of a cam groove (44) of the cam body unit (400) when pushing and dropping down the ascending and descending cam unit (500); a steel plunger (710) attached to the upper part of the cam plunger (600) and engaged with the cam plunger (600); and a solenoid (800) installed in the upper part of the cam body unit (400) to enclose the outside of the steel plunger (710). The solenoid (800) moves the steel plunger (710) downwards when power is supplied. So, the valve stopper (200) is engaged and moves downwards to open the path (110) of the valve body unit (100).

Description

Solenoid valve with push-button opening and closing means {Push Button Type Solenoid Valve}

The present invention relates to a solenoid valve provided with a push-button-type opening and closing means, the valve can be opened or closed by simply pressing the push button, and the open or closed state can be maintained even if the power supplied to the solenoid valve is cut off. It is characterized by being.

In general, the electronic solenoid valve used in the gas leakage alarm blocking device has a structure as shown in FIG. 1, and when the power is supplied to the solenoid 70, the steel plunger 10 that moves up and down is loaded by the valve 20. In combination with the stopper 30, the steel plunger 10 descends and the valve stopper 30 is opened, so that the fixing magnet 40 holds the steel plunger 10 with the force of magnetic force (magnetic force) When the power is supplied to the solenoid 70 according to the closing spring 50 and the elastic force of the stop spring 60) and the closing signal, the steel plunger 10 rises by the electromagnetic force of the solenoid 70 to increase the valve stopper Even if the 30 is blocking the passage of gas, and the power supplied to the solenoid 70 is cut off, the distance between the steel plunger 10 and the fixing magnet 40 increases, and the balancing spring 50 and the stop spring 60 ), The elastic force is stronger than the magnetic force The steel plunger 10 does not lower, but maintains an elevated state.

In this state, when power is supplied to the solenoid 70 again according to the open signal (current in the opposite direction to the current according to the closed signal), the solenoid 70 pulls the steel plunger 10 with electromagnetic force and descends. The stopper 30 is opened.

The conventional electronic solenoid valve has the following problems.

First, the production cost increases because expensive parts such as the fixing magnet 40 and the fixing steel 45, and processes and parts for fixing these parts are additionally required.

Second, if the balance of magnetic force, electromagnetic force, and elastic force is not properly combined, the opening / closing operation is not properly performed or the desired state (open or closed) cannot be maintained.

Third, in the case of a product that does not have a separate drawing attached but does not use the fixing magnet 40, power consumption is unnecessarily increased because the power is continuously applied to the solenoid 70 in order to maintain a desired state, solenoid heating phenomenon Depending on the product durability is reduced.

[Advanced technical literature]

Registered Patent No. 10-0945166

Registered Patent No. 10-1650808

The object of the present invention created to solve the above problems is as follows.

First, it is an object of the present invention to provide a new concept solenoid valve that can be opened and closed by only one-way operation of a push button.

Second, it is another object of the present invention to provide a new concept solenoid valve capable of opening and closing the valve without changing the direction of the current supplied to the solenoid.

Third, another object of the present invention is to provide a new concept solenoid valve capable of stably maintaining the open or closed state of the valve even when the power supplied to the solenoid is cut off.

Fourth, another object of the present invention is to provide a new concept solenoid valve capable of reducing production cost by simplifying parts and manufacturing processes.

The technical configuration of the present invention created to solve the above problems is as follows.

The present invention relates to a solenoid valve provided with a push-button-type opening and closing means, the valve body portion 100 of the tubular structure with both left and right ends open; A valve stopper 200 mounted in a structure capable of moving up and down inside the valve body portion 100 to open and close the passage 110 opened in the vertical direction; A locking spring 300 elastically supporting the valve stopper 200 upward in the direction in which the passage 110 is closed; As a tubular structure, the upper portion of the passage 110 of the valve body portion 100 is mounted on the upper portion, and the lower passage hole 420 and the upper passage hole 410 having a smaller inner diameter than the lower passage hole 420 form a step in the center. It is provided in the vertical direction, the lower inclined cross-section 430 is formed along the step portion, the upper circumferential hole 410, the cam groove 440 cut in the vertical direction starting from the step portion at a predetermined interval repeatedly cut Formed cam body part 400; Mounted to move up and down along the lower through hole 420 and the upper through hole 410 formed in the center of the cam body 400, the lower end is coupled to the upper portion of the valve stopper 200 to lock the spring ( 300), the cam groove 440 of the cam body part 400 is elastically supported together, and when the protruding cam 510 protrudes at a predetermined interval along the lower outer circumferential surface and is elastically supported by the locking spring 300, Ascending and descending cam portion 500 is limited according to the ascending length or the lower inclined end face 430 and the ascending is limited; The protruding cam 510 of the elevating cam part 500 is cam groove of the cam body part 400 when the elevating cam part 500 is lowered by being inserted into the upper part of the elevating cam part 500. (440) a lower or lower inclined cross-section 430, the cam plunger 600 to escape to the lower portion; A steel plunger 710 attached to an upper portion of the cam plunger 600 to interlock together; And, the steel plunger 710 is installed on the upper portion of the cam body 400 so as to surround the outside and when the power is supplied to the steel plunger 710 to move downward while the valve stopper 200 is interlocked while moving downward The solenoid 800 to open the passage 110 of the valve body portion 100; is configured to include, the upper inclined cross-section 520 is formed on the top of the protruding cam 510 of the elevating cam portion 500 When the protruding cam 510 of the elevating and descending cam part 500 comes out of the lower part of the cam groove 440 or the lower inclined cross section 430 of the cam body part 400, it is supported upward by the locking spring 300. As the upper inclined end face 520 and the lower inclined end face 430 contact each other, guide the rotation upward movement of the elevating cam section 500, and the protruding cam 510 of the elevating cam section 500 is adjacent to the lower end. It is moved to the inclined cross-section 430 or the cam groove 440 to move up and down together with the elevating cam part 500 The rising position of the valve stopper 200 to be changed is characterized in that whether the passage 110 of the valve body portion 100 is opened or closed is determined.

Technical effects according to the configuration of the present invention are as follows.

First, it can be opened and closed by simply pressing and releasing the manual push button 720.

In other words, if the solenoid 800 is not operated, simply press and release the manual push button 720, the valve stopper 200 elastically supported by the locking spring 300, the elevating cam part 500, The cam body 400, and the protruding cam 510 of the elevating cam portion 500 through the interlocking action of the cam plunger 600, the cam groove 440 and the lower slope section 430 of the cam body portion 400 While sequentially moving, the closing and opening process of the passage 110 by the valve stopper 200 is sequentially repeated, and the open state or the closed state is maintained even without a separate operation.

Second, the valve can be opened and closed without changing the direction of the current supplied to the solenoid 800.

In other words, if the process of supplying power to the solenoid 800 and the process of blocking the power are repeated, the protruding cam 510 of the elevating and descending cam part 500 is operated in the same manner as the manual push button 720. The process of closing and opening the passage 110 by the valve stopper 200 may be sequentially repeated while sequentially moving the cam groove 440 and the lower inclined end surface 430 of the valve groove, and the direction of the current is switched for opening and closing operation. You don't have to do that, you can simplify the circuit

Third, even if the power supplied to the solenoid is cut off, the open or closed state of the valve can be maintained.

Fourth, production cost can be reduced by simplifying parts and manufacturing processes.

1 shows the operation structure of a conventional electronic solenoid valve.
2 is an exploded view showing a main configuration of the present invention.
3 shows the cam body portion 400, the cam plunger 600, and the elevating cam portion 500, respectively.
4 shows a perspective view of the cam body portion 400, the cam plunger 600, and the elevating cam portion 500, respectively.
Figure 5 shows the operating structure of the solenoid valve according to the present invention.

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

The present invention relates to a solenoid valve provided with a push-button type opening and closing means, the valve body portion 100, the valve stopper 200, the locking spring 300, the cam body portion 400, as shown in Figure 2 It includes a descending cam portion 500, a cam plunger 600, a steel plunger 710, and a solenoid 800.

The valve body portion 100 has a tubular structure with both left and right ends open, and a passage 110 opened in the vertical direction is provided inside the valve body portion 100.

The valve stopper 200 is mounted in a structure capable of moving up and down inside the valve body portion 100, and serves to open or close the passage 110 opened in the vertical direction.

The locking spring 300 elastically supports the valve stopper 200 upward in the direction in which the passage 110 is closed.

The cam body portion 400 is mounted on the upper portion of the passage 110 of the valve body portion 100 as a tubular structure, as shown in Figures 2 to 4, the center of the cam body portion 400, the lower through hole 420 ), And the upper through hole 410 having a smaller inner diameter than the lower through hole 420 is provided in the vertical direction while forming a step.

On the inner circumferential surface of the upper through hole 410 of the cam body 400, the cam grooves 440 are repeatedly formed in a vertical direction at predetermined intervals. That is, all of the cam grooves 440 are cut upward from the stepped portion (the lower end of the upper through hole 410) formed at the boundary between the lower through hole 420 and the upper through hole 410.

In addition, along the step portion where the cam groove 440 of the cam body portion 400 is not formed, the lower inclined section 430 is formed at a predetermined interval.

The elevation cam portion 500 is mounted to move up and down along the lower through hole 420 or upper through hole 410 formed in the center of the cam body 400 as shown in FIGS. 2 to 4. The lower end of the 500) is coupled to the upper portion of the valve stopper 200, and is elastically supported upward by the locking spring 300.

The elevating cam part 500 protrudes the protruding cam 510 at predetermined intervals along the lower outer circumferential surface, and an upper inclined cross section 520 is formed at the upper end of the protruding cam 510, which is upward by the locking spring 300. When elastically supported, the protruding cam 510 rises by an allowable length along the cam groove 440 of the cam body part 400, or the upper inclined cross-section 520 of the protruding cam 510 is of the cam body part 400. As it comes into contact with the lower inclined section 430, the rise is limited.

2 and 4, the cam plunger 600 is inserted into the upper part of the elevating cam part 500 so as to be able to elevate, and when the cam plunger 600 presses the elevating cam part 500 to descend, the elevating cam part The protruding cam 510 of the 500 is discharged to the lower portion of the cam groove 440 of the cam body portion 400 or the lower inclined section 430.

The cam plunger 600 is continuously protruded along the lower cross section, and is provided with a plurality of triangular protrusions 610 that come into contact with the upper inclined end face 520 provided on the upper end of the protruding cam 510 of the elevating cam part 500, and the cam On the lower outer circumferential surface of the plunger 600, the elevating guide protrusion 620 accommodated in the cam groove 440 of the cam body part 400 protrudes.

The steel plunger 710 is attached to the upper portion of the cam plunger 600 as shown in Figure 2 and moves together.

The solenoid 800 is installed on the cam body 400 to surround the outside of the steel plunger 710 and when the power is supplied, the steel plunger 710 is pulled downward by an electromagnetic force greater than the elastic force of the locking spring 300 When the steel plunger 710 moves downward, the valve stopper 200 moves downward by interlocking, so that the passage 110 of the valve body portion 100 is opened, and at the same time, the protruding cam of the elevating cam portion 500 510) the cam body portion 400 of the cam groove 440, the lower or lower inclined cross-section 430 comes out, and is supported upward by the locking spring 300, the upper inclined section 520 and the lower inclined section (430) ) Is in contact to guide the rotational upward movement of the elevating and cam part 500. When the power supplied to the solenoid 800 is cut off, the electromagnetic force pulling the steel plunger 710 is extinguished and the locking spring 300 is raised. The projecting cam of the elevating cam part 500 due to the elastic force ( 510 is sequentially moved to the neighboring cam groove 440 or the lower inclined cross-section 430.

Due to this, as the elevation position of the valve stopper 200 for ascending and descending together with the elevating and descending cam 500 changes, it is determined whether the passage 110 of the valve body 100 is opened or closed (the protruding cam 510 is the cam groove 440) When ascending along, the passageway 110 is closed, and when the ascending is restricted due to contact with the lower inclined cross section 430, the passageway is opened). As the power supply and shutoff process of the solenoid 800 is repeated, the elevating cam part ( As the protruding cam 510 of 500) rises along the cam groove 440 of the cam body part 400 or is caught by the lower inclined end face 430, the process of restricting the climb is sequentially repeated, and the passage by the valve stopper 200 is performed. The closing and opening processes of 110 are sequentially repeated.

That is, if the process of supplying power to the solenoid 800 and the process of blocking the power are repeated, the protruding cam 510 of the elevating cam part 500 cam groove 440 of the cam body part 400 and the lower slope section 430 Moving sequentially, the closing and opening process of the passage 110 by the valve stopper 200 is sequentially repeated, so there is no need to change the direction of the current for opening and closing operation, and the solenoid to maintain the open or closed state There is no need to continuously supply power to the 800.

The manual push button 720 is coupled to the upper part of the steel plunger 710 and exposed to the upper part through the empty space in the center of the solenoid 800, so that the user manually moves the passage 110 in the state in which the solenoid 800 is not operating. Opening and closing can be adjusted.

That is, simply repeating the process of pressing and releasing the manual push button 720, as described above, the valve stopper 200 elastically supported by the lock spring 300, the elevating cam part 500, the cam body part 400 and As the interlocking action of the cam plunger 600 and the like, the protruding cam 510 of the elevating cam part 500 moves the cam groove 440 and the lower inclined cross section 430 of the cam body part 400 in order to move the valve stopper 200 ), The closing and opening process of the passage 110 is sequentially repeated, and an open state or a closed state is maintained even if no separate operation is performed.

The upper portion of the steel plunger 710 is provided with a wedge-shaped protrusion 711 that protrudes upward, and a coupling hole corresponding to the wedge-shaped protrusion 711 type is further provided at the bottom of the manual push button 720, and the manual push button is provided. Only by the process of inserting the wedge-shaped protrusion 711 into the coupling port of 720, the steel plunger 710 and the manual push button 720 can be attached, so that the assembly operation can be performed more conveniently.

The sealing member 730 is made of a soft elastic material in the form of a cap and is mounted between the cam plunger 600 and the steel plunger 710 while enclosing the upper part of the cam plunger 600, and the cam body part 400 And serves to seal the boundary of the solenoid (800).

O-rings or pads, etc., which serve as sealing parts, may be mounted at the boundary where assembly is performed to maintain watertightness and airtightness even if separately illustrated or omitted.

The position spring 740 serves to elastically support the steel plunger 710 downward, and the position spring 740 uses a relatively small elastic force than the lock spring 300 so that the electromagnetic force of the solenoid 800 does not act. In the state, the lifting and lowering cam part 500 is always elastically supported in the rising direction.

A PCB with an operation-related circuit of the solenoid 800 is provided on the solenoid 800, and a reed switch 750 for sensing a magnetic field (magnetic force) may be mounted on the PCB.

The reed switch 750 detects the magnetic field generated by the magnetic plunger 710 or the magnetic 760 attached to the manual push button 720, and the magnetic 760 is the steel plunger 710 or the manual push button 720 ) To approach the reed switch 750, the reed switch 750 senses the magnetic field of the magnetic 760, through which the valve stopper 200 opens and closes the passage 110 of the valve body portion 100. Signal is generated.

Figure 5 shows the operating structure of the solenoid valve according to the present invention, (a) is the protruding cam (500) of the elevating cam portion 500 by the upward elastic force of the locking spring 300 in the state that the solenoid 800 is not operating 510) is a valve stopper 200 is closed along the neighboring cam groove 440, the passage 110 is closed, (b) is supplied with power to the solenoid 800 or press the manual push button 720 As the valve stopper 200 moves downward, the passage 110 of the valve body portion 100 is opened and at the same time, the protruding cam 510 of the elevating cam portion 500 moves downward to the cam groove 440 of the cam body portion 400. In the state of exiting, (c) the power supplied to the solenoid 800 is cut off or the manual push button 720 pressed is released, so that the upper inclined section 520 of the protruding cam 510 of the elevating cam part 500 is cam. The valve stopper 200 is maintained in an open state as the ascent is limited by the lower slope section 430 of the body part 400. Is the state.

As described above, specific embodiments of the present invention have been described with reference to the accompanying drawings, but the protection scope of the present invention is not necessarily limited to these embodiments, and various design changes and announcements are made within the scope of not changing the technical gist of the present invention. In the case of addition or deletion of technology, simple numerical limitation, etc., it is apparent that it falls within the protection scope of the present invention.

[Prior Art]
10: steel plunger 20: rod 30: valve stopper
40: fixing magnet 45: fixing steel 50: balancing spring
60: stop spring 70: solenoid
[Main invention]
100: valve body
110: passage
200: valve stopper
300: Locking spring
400: cam body
410: upper pass 420: lower pass
430: Lower slope section 440: Cam home
500: elevating cam part
510: Extrusion cam 520: Upper slope section
600: Camp plunger
610: triangle projection 620: ascending and descending guide projection
710: steel plunger 711: wedge-shaped projection
720: Manual push button 730: Sealing member
740: Position spring 750: Reed switch
760: Magnetic
800: Solenoid

Claims (7)

As a solenoid valve provided with a push-button opening and closing means,
A valve body part 100 having a tubular structure with both left and right ends open;
A valve stopper 200 mounted in a structure capable of moving up and down inside the valve body portion 100 to open and close the passage 110 opened in the vertical direction;
A locking spring 300 elastically supporting the valve stopper 200 upward in the direction in which the passage 110 is closed;
As a tubular structure, the upper portion of the passage 110 of the valve body 100 is mounted on the upper portion, and the lower passage hole 420 and the upper passage hole 410 having a smaller inner diameter than the lower passage hole 420 form a step in the center. It is provided in the vertical direction, the lower inclined cross-section 430 is formed along the step portion, the upper circumferential hole 410, the cam groove 440 cut in the vertical direction starting from the step portion at a predetermined interval repeatedly cut Formed cam body part 400;
Mounted to move up and down along the lower through hole 420 and the upper through hole 410 formed in the center of the cam body 400, the lower end is coupled to the upper portion of the valve stopper 200 to lock the spring ( 300) is elastically supported together, and when the protruding cam 510 protrudes at a predetermined interval along the lower outer circumferential surface and is elastically supported by the locking spring 300, the cam groove 440 of the cam body 400 is opened. Ascending and descending cam portion 500 is limited according to the ascending length or the lower inclined end face 430 and the ascending is limited;
The protruding cam 510 of the elevating cam portion 500 is lowered and inserted into the upper portion of the elevating cam portion 500 so as to descend, and thus the protruding cam 510 of the elevating cam portion 500 is cam groove of the cam body portion 400 (440) a lower or lower inclined cross-section 430, the cam plunger 600 to escape to the lower portion;
A steel plunger 710 attached to an upper portion of the cam plunger 600 to interlock together; And,
The steel plunger 710 is installed on the upper portion of the cam body 400 so as to surround the outside of the steel plunger 710, the valve stopper 200 moves downward by interlocking the valve stopper 200 by moving the steel plunger 710 downward. Solenoid 800 to open the passage 110 of the body portion 100;
It comprises,
The upper inclined cross-section 520 is formed on the top of the protruding cam 510 of the elevating cam portion 500,
When the protruding cam 510 of the elevating cam part 500 comes out of the lower part of the cam groove 440 or the lower inclined cross section 430 of the cam body part 400, it is supported upward by the locking spring 300. The upper inclined section 520 and the lower inclined section 430 are in contact with each other to guide the upward movement of the elevating cam section 500 so that the protruding cam 510 of the elevating cam section 500 is adjacent to the lower inclined section. It is determined whether the passage 110 of the valve body part 100 is opened or closed while the elevation position of the valve stopper 200 is moved to the 430 or the cam groove 440 and moves up and down together with the elevating cam part 500. Solenoid valve provided with a push-button opening and closing means, characterized in that. In claim 1,
A manual push button 720 coupled to an upper portion of the steel plunger 710 and exposed upward through an empty space in the center of the solenoid 800;
This includes more,
The steel plunger 710 is moved downward by simply pressing the manual push button 720 in a state in which the solenoid 800 is not operated, and the cam plunger 600, the elevating cam part 500, and the Solenoid valve equipped with a push-button opening and closing means, characterized in that the opening and closing of the passage 110 of the valve body portion 100 can be manually operated by the interlocking action of the valve stopper 200. In claim 2,
It is made of a soft elastic material in the form of a cap and is mounted between the cam plunger 600 and the steel plunger 710 while surrounding the upper portion of the cam plunger 600, and the cam body part 400 and the solenoid 800 ) Sealing member 730 sealing the boundary portion;
Solenoid valve with a push-button opening and closing means characterized in that it is further included. In any one of claims 1 to 3,
A position spring 740 elastically supporting the steel plunger 710 downward;
This includes more,
The position spring 740 is a solenoid valve equipped with a push button type opening and closing means, characterized in that the elastic force is relatively smaller than the locking spring (300). In claim 2 or 3,
A reed switch 750 mounted on the solenoid 800; And,
A magnetic 760 attached to the steel plunger 710 or the manual push button 720 to generate a magnetic field sensed by the reed switch 750;
Further included, the reed switch 750 detects whether the magnetic 760 is elevated or lowered, and whether the valve stopper 200 opens or closes the passage 110 of the valve body portion 100. Solenoid valve with a push-button opening and closing means, characterized in that for generating a signal. In claim 2 or 3,
A wedge-shaped protrusion 711 protruding upwardly above the steel plunger 710;
Is further provided,
The lower portion of the manual push button 720 is provided with a coupling hole corresponding to the shape of the wedge-shaped protrusion 711, so that only the process of inserting the wedge-shaped protrusion 711 into the coupling hole of the manual push button 720 is performed. Solenoid valve with a push-button opening and closing means, characterized in that the binding of the steel plunger (710) and the manual push button (720). In any one of claims 1 to 3,
The cam plunger 600,
A plurality of triangular protrusions 610 continuously protruding along the lower cross-section and abutting the upper inclined cross-section 520 provided on the upper end of the protruding cam 510 of the elevating cam portion 500; And,
An elevation guide protrusion 620 protruding from the lower outer circumferential surface and accommodated in the cam groove 440 of the cam body 400;
Solenoid valve with a push-button opening and closing means characterized in that it is further included.

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