KR101847869B1 - Valve driving device - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a valve driving apparatus, and a valve driving apparatus according to an embodiment of the present invention includes: a housing having a housing space therein; A driving unit installed in a housing space of the housing and coupled with a driving gear; A drive rotary member having a drive rotary gear engaged with the drive gear; A drive cover member disposed on the drive rotation member and rotating in accordance with rotation of the drive rotation member; A valve driving member disposed inside the drive cover member and having a through hole formed therein and operated up and down by rotation of the drive cover member; A valve regulating member to which a valve is coupled at a lower portion and is vertically movably coupled to the through hole of the valve driving member; And a valve engaging member coupled to a lower portion of the housing, the valve engaging member engaging with the tube provided with the valve.

Description

VALVE DRIVING DEVICE

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a valve driving apparatus, and more particularly, to a valve driving apparatus capable of precisely and stably adjusting opening amount of a valve.

Valves are installed in fluid lines to control the flow rate of various fluids. The valve is manually controlled by the user, but is automatically controlled in a system in which the supply of fluid is remotely controlled.

For example, the operation of the hot water control valve for controlling the supply amount of the hot water in the automatic control heating system is automatically controlled. To this end, the hot water control valve is combined with a valve actuating actuator which operates according to the temperature of the room where the heating is performed or the temperature of the hot water recovered after heating the room, thereby automatically controlling the opening amount of the hot water control valve.

An example of such a valve actuating actuator is disclosed in Korean Utility Model Registration No. 368370 (registered on November 10, 2004). The valve actuating actuator disclosed in the above publication includes a lower body having a predetermined space, a ring body vertically movably coupled to an upper portion of the lower body, a case body formed of a cap coupled to an upper portion of the ring body, A plurality of reduction gears connected to the motor to reduce the rotation of the motor, a rotation shaft installed to be reduced in rotation by the reduction gears, a screw disposed in a predetermined space of the lower body and rotated in place, An actuating member vertically movable in a predetermined space in a predetermined space of the lower body by rotation of the screw to control an opening and closing operation of the valve and a speed reducer provided with magnets and magnets arranged at regular intervals in any one of the reduction gears The time, the number of revolutions, and the direction of rotation between the magnets are checked by a hall sensor and converted into an electronic signal, It calculates a control value and the drive value by its call includes a microcomputer for controlling the motor.

In the conventional valve actuating actuator as described above, since the actuating member for controlling the opening and closing operation of the valve vertically moves by the action of the screw, the packing which vertically moves the valve opening and closing the valve is vertically moved. Excessive pressurization of the packing, or less pressing of the packing. If the operating body excessively pressurizes the packing, the valve may be damaged. If the operating body presses the packing less, the flow path of the valve may not be completely closed. Even if such problems do not occur at the initial stage of the actuator installation, repeated use of the actuator may make it difficult to adjust the opening amount of the valve due to wear of various parts.

Further, the conventional valve actuating actuator has a complicated mechanism for operating the actuating body. That is, in order to convert the rotational force of the motor into the linear movement force of the actuating body, a plurality of reduction gears, a rotary shaft and a screw are required, and the screw and the actuating body must be coupled to each other. Therefore, in the conventional valve actuating actuator, the number of parts is large, the coupling relation between the parts is complicated, and manufacturing tolerances and assembly tolerances of the respective components are precisely controlled, so that the manufacturing process is complicated and the manufacturing cost is high.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a valve driving device which is simple in structure and excellent in durability and which can precisely and stably control opening amount of a valve .

According to an aspect of the present invention, there is provided a valve driving apparatus including: a housing having a housing space therein; A driving unit installed in a housing space of the housing and coupled with a driving gear; A drive rotary member having a drive rotary gear engaged with the drive gear; A drive cover member disposed on the drive rotation member and rotating in accordance with rotation of the drive rotation member; A valve driving member disposed inside the drive cover member and having a through hole formed therein and operated up and down by rotation of the drive cover member; A valve regulating member to which a valve is coupled at a lower portion and is vertically movably coupled to the through hole of the valve driving member; And a valve engaging member coupled to a lower portion of the housing, the valve engaging member engaging with the tube provided with the valve.

At this time, the valve driving member is provided with a roller on one side, a through hole is formed in the longitudinal direction inside the valve driving member, and a thread may be formed in the through hole.

The valve regulating member has a thread formed on an outer circumferential surface thereof and the valve regulating member is moved up and down in the through hole of the valve driving member as the screw thread formed on the valve driving member and the screw thread formed on the valve regulating member rotate. .

The valve regulating member may further include a wrench at an upper portion thereof and a wrench for rotating the valve regulating member so as to move up and down in the valve driving member.

In addition, the driving rotational member may include a ratchet gear, and the driving cover member may be coupled with the ratchet gear to rotate in one direction in accordance with rotation of the driving rotational member.

The valve driving member may include a roller provided on one side thereof. The driving cover member may include a body having an upper open space therein and a through hole through which the valve driving member passes, on a lower surface of the body. And a protrusion guide formed on an inner lower surface of the body so as to surround the through hole, and the roller can be rotated and moved along the protrusion guide.

At this time, the protruding guide may include a rising section rising from an inner bottom surface of the body along a traveling direction; A vertex section extending in the advancing direction in the ascending section and having a groove formed in the advancing direction so as to temporarily stop the movement of the roller; And a descending section that extends in the advancing direction in the vertex section and descends toward the inner lower surface of the body, and the ascending section may have a section length twice or more than the descending section.

And a control knob rotatably coupled to the upper portion of the housing and rotating in accordance with rotation of the drive cover member; And a connection member connecting the drive cover member and the adjustment handle.

The valve cover may further include an elastic member accommodated in the drive cover member and providing an elastic force to move the valve driving member downward.

The controller may further include at least one sensor for detecting an abnormality of the valve driving device through rotation of the driving cover member. When the abnormality is detected in the at least one sensor, the driving unit may be driven so that the valve driving member is lowered .

The valve driving apparatus according to the present invention is simple in structure and excellent in durability, and it is possible to precisely and stably control the opening amount of the valve.

Further, the valve driving apparatus according to the present invention can flexibly cope with the pressure of the fluid by adjusting the elastic force of the spring that applies the elastic force to the valve driving member connected to the valve.

1 is a perspective view illustrating a valve driving apparatus according to an embodiment of the present invention.
2 is an exploded perspective view showing a valve driving apparatus according to an embodiment of the present invention.
3 is a view for explaining an internal structure of a drive cover member of a valve driving apparatus according to an embodiment of the present invention.
4 is a view for explaining the operation of the valve driving apparatus according to an embodiment of the present invention.

In describing the present invention, the sizes and shapes of the components shown in the drawings may be exaggerated or simplified for clarity and convenience of explanation. In addition, terms defined in consideration of the configuration and operation of the present invention may vary depending on the intention or relationship of the user and the operator. These terms are to be construed in accordance with the meaning and concept consistent with the technical idea of the present invention based on the contents throughout the present specification.

Throughout the specification, when a part is referred to as being "connected" to another part, it includes not only "directly connected" but also "indirectly connected" . Also, when an element is referred to as "comprising ", it means that it can include other elements, not excluding other elements unless specifically stated otherwise.

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

FIG. 1 is a perspective view illustrating a valve driving apparatus according to an embodiment of the present invention, and FIG. 2 is an exploded perspective view illustrating a valve driving apparatus according to an embodiment of the present invention. 3 is a view for explaining the internal structure of the driving cover member 180 of the valve driving apparatus according to an embodiment of the present invention.

1 and 2, a valve driving apparatus 100 according to an embodiment of the present invention includes an upper housing 110, a lower housing 120, an adjustment handle 130, a valve coupling member 140, The driving member 190, the connecting member 200, the first sensor 212, the second sensor 214, the spring 150, the driving unit 160, the valve driving member 170, the driving cover member 180, A valve regulating member 220, and a wrench 230.

The upper housing 110 and the lower housing 120 are provided in an outer shape of the valve driving apparatus 100 and are accommodated in a housing space in which a plurality of structures can be accommodated in the upper housing 110 and the lower housing 120, . The adjustment handle 130 may be coupled to the upper end of the upper housing 110 and the valve coupling may be coupled to the lower end of the lower housing 120. Here, the coupling between the lower housing 120 and the valve coupling portion will be described while explaining the valve coupling member 140. [

The upper housing 110 and the lower housing 120 may be coupled by a plurality of engaging portions 124, or may be coupled by a screw. And a hole for connecting a cable for supplying power to the driving unit 160 housed therein may be formed.

The adjustment handle 130 is rotatably coupled to the upper housing 110. On the upper part of the adjustment handle 130, a handle bar 134 is integrally formed so that the adjustment handle 130 can be manually rotated. Further, a handle gear 132 may be formed at a lower portion of the adjustment handle 130 in the rotating direction of the adjustment handle 130.

A part of the connecting gear 202 of the connecting member 200 is exposed to the upper housing 110 to which the adjusting knob 130 is coupled and can be engaged with the knob gear 132 of the adjusting knob 130. Accordingly, the connecting member 200 can be rotated as the adjusting knob 130 is rotated. A handle hole 136 into which the wrench 230 can be inserted may be formed in the handle bar 134 of the adjustment handle 130.

The valve coupling member 140 is coupled to the lower portion of the lower housing 120 and may have a plurality of threads 144 formed therein for coupling with the valve. A plurality of protrusions may be formed on the outer surface of the valve-engaging member 140 to facilitate engagement with the valve using the hands of the human body.

The valve coupling member 140 may have a fastening protrusion 142 formed at an inner upper end thereof for coupling with the lower housing 120 and a fitting portion 122 may be formed at a lower portion of the lower housing 120 . The fitting portion 122 of the lower housing 120 may be provided with a plurality of stepped portions and may be fitted into the coupling jaws 142 of the valve coupling member 140. [ Accordingly, the valve engaging member 140 can be freely rotated in the horizontal direction (rotatable in the forward and reverse directions) while being fastened to the lower portion of the lower housing 120.

The spring 150 is accommodated in the inner housing space of the upper housing 110 and the lower housing 120 and the upper portion of the spring 150 is in contact with the inner upper end of the upper housing 110, The valve-driving member 170 can be fitted into the valve-driven member 170. [ The spring 150 can apply an elastic force in the downward direction so that the valve driving member 170 can move.

The driving unit 160 is accommodated in the upper housing 110 and the lower housing 120 and may be disposed at a position spaced apart from the adjusting handle 130 by a predetermined distance. The driving unit 160 is driven by an external power source and may be driven according to an external signal or signals of the first and second sensors 212 and 214 as will be described later. In this embodiment, the driving unit 160 may be a motor capable of rotating in one direction or in both directions, but is not limited thereto.

Further, a driving gear 162 may be formed on the rotating bar rotated by driving the driving unit 160. The driving gear 162 is rotated according to the driving of the driving unit 160 and is arranged to engage with the driving rotational gear 192 of the driving rotational member 190.

The valve driving member 170 has a bar shape having a predetermined length, and a valve may be installed at a lower portion. The valve driving member 170 drives the valve by reciprocating upward and downward so that the gas pipe or the like installed in the direction perpendicular to the longitudinal direction of the valve driving member 170 can be blocked by the valve.

A spring bearing 174 is formed so that the valve driving member 170 protrudes outwardly of the outer circumferential surface in the longitudinal direction stoppage so that force is applied to the spring bearing 174 by the elastic force of the spring 150, The body can be moved downward.

In addition, a roller 172 may be installed under the spring bearing 174 of the valve driving member 170. The roller 172 is provided at one side of the spring bearing 174 and can be rotated in a state in which the rotary shaft is formed in a direction perpendicular to the longitudinal direction of the valve driving member 170. In other words, assuming that the lower end surface of the roller 172 is rotated with the horizontal surface in contact, the valve driving member 170 can move in the horizontal direction along the horizontal plane.

As described above, the valve driving member 170 has the shape of a bar, and the adjusting hole 176 may be formed in the longitudinal direction of the bar. The adjustment hole 176 is formed through the valve driving member 170 in the longitudinal direction, and a wrench 230 to be described later can be inserted through the adjustment hole 176.

A plurality of adjustment threads 178 are formed in the lower portion of the adjustment hole 176 so that the adjustment threads 178 can be engaged with the engagement threads 224 formed in the valve adjustment member 220, The member 220 can be coupled to the valve driving member 170. [

The drive cover member 180 has a top open space therein and a through hole 187 through which a lower portion of the valve drive member 170 can pass. As shown in FIG. 2, a cover gear 181 may be formed at the upper end of the outer surface of the drive cover member 180. The cover gear 181 can engage with the connecting gear 202 of the connecting member 200. The drive cover member 180 can be rotated and the valve drive member 170 can be moved up and down in accordance with the rotation of the cover member.

The engaging protrusion 183 may be engaged with the ratchet gear 194 of the driving rotatable member 190. [ The drive cover member 180 can be rotated in one direction in accordance with the rotation of the drive rotational member 190. [

In addition, a sensing projection 189 may be formed at the lower end of the cover gear 181 of the drive cover member 180. [ The detection projection 189 is located at the lower end of the cover gear 181 on the outer surface of the drive cover member 180 and has a shape protruding outward from the outer peripheral surface of the drive cover member 180. And is formed to have a predetermined length along the outer circumferential surface. The sensing protrusion 189 is provided to sense the movement of the drive cover member 180 at the first and second sensors 212 and 214. This will be described later.

The inside of the drive cover member 180 will be described with reference to Fig. Inside the drive cover member 180, a space is formed with the upper portion thereof opened, and a protrusion guide 185 is formed at the lower portion thereof. The protrusion guide 185 is formed to surround the through hole 187 formed on the inner bottom surface of the drive cover member 180 and has a shape gradually protruding in the direction of wrapping the through hole 187 from the inner bottom surface.

That is, the protrusion guide 185 may start in the same plane as the inner bottom surface, and may gradually protrude upward in the inner lower surface until the perimeter of the through hole 187 is rotated by about half or more. The gradually protruding section of the protrusion guide 185 is the rising section 185a. A slight groove may be formed in the direction of the protrusion guide 185 at a position protruding from the uppermost portion of the protrusion guide 185. The section where the grooves are formed is the vertex section 185b. The section extending from the apex section 185b is formed with a descending section 185c in which the protruding height of the protruding guide 185 is abruptly lowered.

That is, the protrusion guide 185 includes a rising section 185a, a peak section 185b, and a falling section 185c. The rising section 185a may include about 50% of the proceeding section of the protrusion guide 185 and the peak section 185b may include about 5% and the falling section 185c may have about 25% . And the remaining section may be a section parallel to the inner lower surface of the drive cover member 180.

As the protrusion guide 185 is formed, the roller 172 can be rotated along each section of the protrusion guide 185. That is, along the protrusion guide 185, the roller 172 can move up and down along the ascending section 185a, stop at the apex section 185c, and descend along the descending section 185c . The actual driving is performed such that the drive cover member 180 is rotated and the roller 172 is rotated in the state where the roller 172 is in the right position, although the roller 172 is described as moving along the protruding guide 185 for convenience of explanation. Can rotate along the protruding guide (185).

As described above, the roller 172 is rotated along the protrusion guide 185 by the rotation of the drive cover member 180, so that the valve driving member 170 coupled with the roller 172 can move up and down. When a motor capable of bi-directional rotation is used, the valve can be opened and closed by reciprocating between the rising section 185a and the apex section 185b of the protrusion guide 185.

The drive rotation member 190 is coupled to the lower portion of the drive cover member 180 and the drive rotation gear 192 is formed outside the drive rotation member 190. The driving rotation gear 192 is engaged with the driving gear 162 of the driving unit 160 and can rotate according to the rotation of the driving gear 162.

The driving rotational member 190 has a space in which the engaging protrusions 183 of the drive cover member 180 can be inserted therein and rotatably engages with the engaging protrusions 183 on the inner side of the driving rotational member 190, (194) may be formed. Accordingly, as the driving and rotating member 190 rotates, the ratchet gear 194 formed on the inner side rotates to rotate the driving cover member 180.

The connecting member 200 is located on the outside of the spring 150 on one side of the valve driving member 170. As described above, the connecting member 200 has a bar shape having a length in one direction and can rotate about the central axis in the longitudinal direction. The coupling member 200 may be coupled to the upper housing 110 and the lower housing 120 such that the upper and lower portions of the coupling member 200 are rotatable by the coupling of the upper housing 110 and the lower housing 120, respectively.

A connecting gear 202 may be formed on an upper outer side of the connecting member 200. An upper portion of the connecting gear 202 is engaged with the handle gear 132 of the adjusting handle 130, The cover gear 181 is engaged with the cover gear 181. The connecting member 200 serves to connect the adjusting handle 130 and the driving cover member 180 which allow the adjusting handle 130 and the driving cover member 180 to rotate at the same time.

The first and second sensors 212 and 214 are disposed at the upper portion of the driving unit 160 and are provided to sense the rotation of the driving cover member 180. That is, the first and second sensors 212 and 214 sense the movement of the sensing protrusion 189 formed on the outer side of the driving cover member 180, and sense the rotation of the driving cover member 180, respectively. That is, the sensing protrusion 189 is formed on the outer surface of the drive cover member 180 to have a predetermined length in the direction of the outer circumferential surface, and the drive cover member 180 is formed so that the sensing protrusion 189 contacts the first and second sensors 212, and 214, respectively. Accordingly, the first and second sensors 212 and 214 sense when the sensing protrusion 189 moves.

When the first and second sensors 212 and 214 detect the movement timing of the sensing projection 189 and the valve driving apparatus 100 operates normally, the first and second sensors 212 and 214 The movement times of the sensing projections 189 are detected at regular intervals. However, when the valve driving apparatus 100 is not operated normally, the moving times of the sensing projections 189 detected by the first and second sensors 212 and 214 are irregularly detected. When it is determined that the valve driving apparatus 100 is not normally driven through the first and second sensors 212 and 214, the driving unit 160 is lowered so that the valve driving member 170 is immediately lowered Can operate.

The valve regulating member 220 is coupled to the lower portion of the regulating hole 176 formed in the valve driving member 170, and the valve is coupled to the lower portion. Accordingly, as the valve driving member 170 moves upward and downward, the valve regulating member 220 and the valve coupled to the lower portion of the valve regulating member 220 can simultaneously move up and down.

2, the valve regulating member 220 has a predetermined length in one direction and has a cylindrical shape. A coupling thread 224 is formed on the outer circumferential surface of the valve adjusting member 220 so that the valve adjusting member 220 is inserted into the adjusting thread 178 of the valve driving member 170 And is coupled to the valve driving member 170.

The valve regulating member 220 has a wrench groove 222 at an upper portion thereof and a valve engagement hole 226 at a lower portion thereof. At this time, the wrench groove 222 and the valve coupling hole 226 are not formed inside the valve adjusting member 220, but are formed on the upper and lower portions of the valve adjusting member 220, respectively.

That is, the wrench groove 222 is formed to have a predetermined depth on the upper surface of the valve regulating member 220, and has a shape corresponding to the shape of the wrench 230 so that the wrench 230 is inserted. In the present embodiment, the wrench 230 will be described later. However, the wrench 230 is formed in a hexagonal shape corresponding to the shape of the hexagonal wrench. When the wrench 230 is rotated in the state where the wrench 230 is inserted into the wrench groove 222, the valve adjusting member 220 can be moved up and down with respect to the valve driving member 170 in accordance with the rotation of the wrench 230 .

The valve engagement member 226 is formed to have a certain depth on the lower surface of the valve regulating member 220, and the valve can be engaged. The valve may be formed in a shape to block the flow path of the pipe, and may have a shape of a bar at the top. Accordingly, the shape of the bar of the valve can be fitted into the valve engagement hole 226 to be engaged.

The wrench 230 can be inserted into the wrench groove 222 of the valve regulating member 220 through the knob hole 136 and the adjustment hole 176 as shown in Figs. For this purpose, the wrench 230 has a predetermined length and may be formed in a polygonal cross-section to rotate the valve regulating member 220 in the valve driving member 170. In this embodiment, a wrench 230 having a hexagonal cross-sectional shape is used.

Further, the wrench 230 may be formed in a shape in which a certain portion is bent so as to be manually rotated, and may have a '?' Shape.

The wrench 230 is inserted into the wrench groove 222 through the knob hole 136 and the adjustment hole 176 so that the position of the valve adjusting member 220 can be adjusted by rotating the wrench 230.

4 is a view for explaining the operation of the valve driving apparatus 100 according to an embodiment of the present invention.

Operation of the valve driving apparatus 100 according to an embodiment of the present invention will be described with reference to FIG.

The driving unit 160 operates to rotate the driving gear 162 to open the valve by an externally applied power source. As the driving gear 162 rotates, the driving rotational gear 192 engaged with the driving gear 162 rotates, and the driving rotational member 190 rotates accordingly. As the driving rotational member 190 rotates, the driving cover member 180 coupled to the upper portion of the driving rotational member 190 is rotated.

When the drive cover member 180 is rotated in this manner, the roller 172 coupled to the valve drive member 170 located inside the drive cover member 180 moves along the protrusion guide 185, Can be moved upward. At the same time, the coupling gear 202 engaged with the cover gear 181 rotates as the drive cover member 180 rotates, and the knob gear 132 rotates as the coupling gear 202 rotates. Accordingly, the adjustment handle 130 may be rotated in the direction in which the valve is opened to indicate to the user that the valve is open.

The valve driving member 170 is moved in the ascending direction while the roller 172 moves along the rising section 185a of the protrusion guide 185. [ Here, the speed at which the roller 172 moves along the rising section 185a may be the same as the driving speed of the driving section 160. That is, the speed at which the roller 172 is moved along the rising section 185a and the valve is opened according to the driving speed of the driving section 160 can be controlled according to the speed of the driving section 160.

At the moment when the roller 172 is positioned at the vertex section 185b, the valve driving member 170 is in the fully raised state and the valve is fully opened. In this state, when the driving section 160 is continuously driven and the roller 172 is positioned in the falling section 185c, the roller 172 moves along the falling section 185c.

At this time, the slope of the descending section 185c is urgent compared with the ascending section 185a. Further, as the elastic force is applied downward by the spring 150, the roller 172 quickly descends, The member 170 can be quickly lowered, and at the same time the valve can be quickly shut off.

The driving cover member 180 is also rotated according to the descending speed of the valve driving member 170 so that the connecting member 200 and the adjusting handle 130 can be rotated at the same speed. At this time, even if the driving cover member 180 is rotated rapidly, the driving rotational member 190 coupled to the lower portion of the driving cover member 180 may not rotate irrespective of the rotational speed of the driving cover member 180. When the drive cover member 180 and the drive rotational member 190 are engaged by the ratchet gear 194 and the drive cover member 180 is rotated faster than the drive rotational member 190, The driving rotational member 190 may not be affected.

As described above, by driving the driving unit 160, the valve driving member 170 can be moved up and down to open or close the valve connected to the valve driving member 170. At this time, the valve driving member 170 and the valve Are manufactured in accordance with predetermined standards. That is, after the valve and the valve driving member 170 are engaged, the valve coupling member 140 is coupled to the pipe provided with the valve, and then the valve driving member 170 is driven to check whether the valve can normally block the fluid In some cases, blocking occasionally fails.

This is caused by a cause such as that the valve is separated from the position to be blocked by the coupling between the valve and the valve driving member 170, or the fluid pressure in the pipe rises. Therefore, the user inserts the wrench 230 through the handle hole 136 of the valve driving device 100 to rotate the valve adjusting member 220 to adjust the blocking position of the valve or the pressing force of the spring 150 .

4, when the wrench 230 is coupled to the valve adjusting member 220 through the knob hole 136 and the adjusting hole 176, the valve adjusting member 220 Is rotated along the adjusting thread 178 of the valve driving member 170. [ So that the valve regulating member 220 can be moved up and down while being rotated along the adjusting screw thread 178.

As the valve regulating member 220 is moved up and down, the position of the valve coupled to the lower portion of the valve regulating member 220 can be adjusted or the pressing force of the spring 150 can be adjusted.

In addition, in the present embodiment, when manually operating the valve driving apparatus 100, the user can hold the handle bar 134 and rotate the adjustment handle 130 to open and close the valve. At this time, the adjustment handle 130 may be configured so that the shape of the gear can be rotated only in one direction, and can be rotated in both directions, in a structure capable of only rotating in one direction. In this embodiment, when the adjustment knob 130 rotates clockwise as shown in FIG. 4, the opening and closing operation of the valve can be performed.

When the adjusting knob 130 rotates clockwise, the knob gear 132 formed on the adjusting knob 130 rotates, the connecting gear 202 engaged with the knob gear 132 rotates, The drive cover member 180 is rotated by the rotation of the cover gear 181 engaged with the gear 202. At this time, the drive cover member 180 may be rotated clockwise.

As the drive cover member 180 rotates in the clockwise direction, the roller 172 rotates at the upper portion of the protrusion guide 185 so that the valve driving member 170 can be moved up and down by the shape of the protrusion guide 185 have.

That is, when the arrow shape formed on the handle bar 134 of the adjustment knob 130 is positioned at the "Close" position, the roller 172 is positioned between the falling section 185c of the projection guide 185 and the rising section 185a And the valve driving member 170 is located in a state in which the valve driving member 170 is moved downward. The valve is thereby closed.

When the adjustment handle 130 rotates and the arrow shape formed on the handle bar 134 is positioned at the "Open" position, the roller 172 is located at the position of the apex section 185b of the protrusion guide 185, The valve driving member 170 is moved to the uppermost position, and the valve is opened.

When the adjustment handle 130 rotates and the arrow shape formed on the handle bar 134 is formed with a number between "Close" and "Open", the roller 172 rotates in the upward direction of the protrusion guide 185 185a. The valve is thus partly open. At this time, in a state where the roller 172 is located in the rising section 185a of the protrusion guide 185, the roller 172 may not be rotated any more in the protrusion guide 185 because the elastic force of the spring 150 The frictional force between the rollers 172 and the gears is greater than that of the rollers 172. [

When the adjustment handle 130 is rotated and the shape of the arrow formed on the handle bar 134 is positioned at a position where there is no indication between "Open" and "Close", the adjustment handle 130 rotates rapidly and the handle bar 134 ) Is moved to "Close" to close the valve. This is because the roller 172 is located on the descent section 185c off the vertex section 185b of the protrusion guide 185 and the descent section 185c is formed with a relatively steep slope relative to the ascending section 185a , And the spring 150 causes the valve driving member 170 to be elastically biased downward. When the roller 172 is positioned in the lowering section 185c, the valve driving member 170 is quickly moved downward so that the driving cover member 180 is rotated and the adjusting knob 130 is closed As shown in FIG.

The embodiments of the present invention described above and shown in the drawings should not be construed as limiting the technical idea of the present invention. The scope of protection of the present invention is limited only by the matters described in the claims, and those skilled in the art can improve and modify the technical idea of the present invention in various forms. Accordingly, these modifications and variations are intended to fall within the scope of the present invention as long as it is obvious to those skilled in the art.

100: valve drive device
110: upper housing 120: lower housing
122: fit portion 124:
130: Adjustable handle 132: Handle gear
134: Handle bar 136: Handle hole
140: valve coupling member 142:
144: thread 150: spring
160: driving part 162: driving gear
170: valve driving member 172: roller
174: spring bearing 176: adjusting hole
178: Adjusting thread 180: Drive cover member
181: Cover gear 183:
185: projecting guide 187: through hole
189: Detection projection 190: Driving rotational member
192: drive rotary gear 194: ratchet gear
200: connecting member 202: connecting gear
212, 214: first and second sensors
220: valve regulating member 222: wrench groove
224: Coupling thread 226: Valve coupling hole
230: Wrench

Claims (10)

A housing having a housing space therein;
A driving unit installed in a housing space of the housing and coupled with a driving gear;
A drive rotary member having a drive rotary gear engaged with the drive gear;
A drive cover member disposed on the drive rotation member and rotating in accordance with rotation of the drive rotation member;
A valve driving member disposed inside the drive cover member and having a through hole formed therein and operated up and down by rotation of the drive cover member;
A valve regulating member to which a valve is coupled at a lower portion and is vertically movably coupled to the through hole of the valve driving member; And
And a valve engaging member coupled to a lower portion of the housing and engaging with a tube in which the valve is installed,
Wherein a thread is formed in the through hole of the valve driving member,
Wherein a thread is formed on an outer peripheral surface of the valve regulating member,
Wherein the valve adjusting member is vertically moved in the through hole of the valve driving member as the screw thread formed on the valve driving member and the screw thread formed on the valve adjusting member are engaged and rotated.
delete delete The method according to claim 1,
The valve regulating member is formed with a wrench groove at an upper portion thereof,
And a wrench that rotates the valve regulating member to move up and down in the valve driving member.
The method according to claim 1,
Wherein the drive rotation member is provided with a ratchet gear,
And the drive cover member is engaged with the ratchet gear and rotated in one direction in accordance with rotation of the drive rotational member.
The method according to claim 1,
Wherein the valve driving member includes a roller provided on one side,
The drive cover member
A body having an upper open space therein and having a through hole through which the valve driving member passes, on an inner lower surface thereof; And
And a protrusion guide formed on an inner lower surface of the body so as to surround the through hole,
And the roller rotates and moves along the protruding guide.
7. The apparatus of claim 6,
An ascending section rising from an inner bottom surface of the body along a traveling direction;
A vertex section extending in the advancing direction in the ascending section and having a groove formed in the advancing direction so as to temporarily stop the movement of the roller; And
And a descending section extending in the traveling direction from the apex section and descending toward the inner lower surface of the body,
Wherein the rising section has a section length twice or more than the falling section.
The method according to claim 1,
A control knob rotatably coupled to the upper portion of the housing and rotating according to rotation of the drive cover member; And
And a connecting member connecting the drive cover member and the adjustment handle.
The method according to claim 1,
And an elastic member accommodated in the drive cover member and providing an elastic force to move the valve driving member downward.
The method according to claim 1,
Further comprising at least one sensor for detecting an abnormality of the valve driving apparatus through rotation of the drive cover member,
Wherein when the abnormality is detected in the at least one sensor, the driving unit is driven to descend the valve driving member.

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