KR102469348B1 - Actuated Pneumatic Control Valve - Google Patents

Abstract

Disclosed in the present invention is a high-capacity pneumatic valve device. The high-capacity pneumatic valve device comprises: a diaphragm provided between an upper case and a lower case; a coil spring provided between the lower case and the diaphragm; a pneumatic actuator by which the diaphragm is vertically moved by a pneumatic pressure introduced by means of a pneumatic hole unit of the upper case; an actuator stem which is movably installed at the pneumatic actuator such that the upper end portion may be coupled to the diaphragm, and is moved by the pneumatic pressure introduced by the pneumatic actuator; a stem fixing unit which is provided to fix the actuator stem to the diaphragm; a handle opening and closing unit which is coupled to the upper case by means of the handle housing, has a handle screw shaft coming in contact with the upper end of the actuator stem, and has a handle to operate the handle screw shaft by means of a gear box coupled to the handle housing; and a yoke of which the upper end portion is fixed to the lower case by means of a bolt, and the lower end portion is coupled to the valve body, and which has a scale to check the movement of the actuator stem. Therefore, according to the present invention, the coil spring of the pneumatic actuator may be stably supported to increase stability in operation. Furthermore, the handle opening and closing unit may be used when required to perform sealing.

Description

High capacity pneumatic valve device {Actuated Pneumatic Control Valve}

The present invention relates to a high-capacity pneumatic valve device, and more particularly, to a high-capacity high-capacity pneumatic valve device capable of stably supporting a coil spring of a pneumatic actuator to improve operational stability and, when necessary, using a handle opening/closing portion to perform sealing. It relates to a pneumatic valve device.

In general, a valve is a device that controls the flow rate, flow rate, pressure, and the like of a fluid flowing through a pipe. Valves can be classified into several types depending on their purpose. Globe valves are used in various industrial fields, and are particularly widely used in power plants such as thermal power generation or cogeneration using high-temperature and high-pressure fluids.

The globe valve has an S-shaped passage connecting an inlet and an outlet of the valve body through which fluid is transported, and controls the flow of the fluid by opening and closing the S-shaped passage.

In addition, a typical globe valve includes a housing into which air pressure for operation is introduced, a diaphragm provided inside the housing and moved by air pressure, a coil spring installed inside the housing to support the diaphragm, and a diaphragm. It consists of an operating rod coupled to, and a valve head coupled to the lower end of the operating rod to limit the flow of flow.

However, the globe valve of the prior art as described above has problems in that it is difficult to seal the valve in case of failure, and the fixing structure of the actuator stem is very weak. Therefore, there is a need to improve this.

On the other hand, as prior art related to globe valves, Korean Patent Publication No. 10-2016-0023148 (published date: 1999.07.15, name: pneumatic control valve device) and Registered Patent No. 20-0277487 (registration date: 2002.05.24, name : electromagnetic type independently operated pneumatic control valve) and the like are disclosed.

The present invention has been created by the above needs, and can stably support the coil spring of the pneumatic actuator to improve operation stability, as well as a high-capacity pneumatic valve device that can be closed using the handle opening and closing part when necessary. Its purpose is to provide

In order to achieve the above object, a high-capacity pneumatic valve device according to an aspect of the present invention includes a diaphragm between an upper case and a lower case, a coil spring between the lower case and the diaphragm, and the upper case. A pneumatic actuator for moving the diaphragm up and down by hydraulic pressure flowing in through the pneumatic hole of the pneumatic actuator, and an actuator movably installed on the pneumatic actuator so that an upper end is coupled to the diaphragm and moving by pneumatic pressure flowing into the pneumatic actuator A gear having a stem, a stem fixing part for fixing the actuator stem to the diaphragm, and a handle screw shaft coupled to the upper case through a handle housing and contacting an upper end of the actuator stem, and coupled to the handle housing A handle opening and closing part having a handle for operating the handle screw shaft through a box, an upper end fixed to the lower case through a bolt, a lower end coupled to the valve body, and a scale capable of checking the movement of the actuator stem. Characterized in that it includes a yoke.

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In addition, the high-capacity pneumatic valve device in the present invention is coupled to the lower end of the actuator stem to connect the actuator stem and the valve stem of the valve body, further comprising a stem clamp in which a pointer indicating the scale is formed in an embossed shape characterized by

In addition, in the present invention, the yoke has a scale mounting portion protruding, and protruding from the scale mounting portion so that the pointer is positioned on the same plane as the scale and has a smaller thickness than the scale mounting portion, and is inserted into the stem clamp. It is characterized by having a guide rib to be.

In addition, in the present invention, the stem clamp is divided into left and right parts and coupled through bolts, a pointer-forming protrusion is protrudingly formed on one side so that the pointer can be positioned close to the scale, and the guide is provided between the pointer-forming protrusions. Characterized in that the rib is inserted.

As described above, the high-capacity pneumatic valve device according to one aspect of the present invention, unlike the prior art, can stably support the coil spring of the pneumatic actuator to improve operational stability, as well as use the handle opening and closing part to prevent malfunction. Alternatively, it has an effect of easily proceeding to close the valve when necessary.

1 is a perspective view for explaining a high-capacity pneumatic valve device according to an embodiment of the present invention.
Figure 2 is a front view for explaining a high-capacity pneumatic valve device according to an embodiment of the present invention.
Figure 3 is a cross-sectional view for explaining a high-capacity pneumatic valve device according to an embodiment of the present invention.
4 is an enlarged view of a main part for explaining a pneumatic actuator according to an embodiment of the present invention.
5 is a perspective view illustrating an upper spring support part and a lower spring support part according to an embodiment of the present invention.
6 is an enlarged view of a main part for explaining a stem fixing part according to an embodiment of the present invention.
7 is a perspective view for explaining a stem fixing part according to an embodiment of the present invention.
8 is an enlarged view of a main part for explaining a stem clamp according to an embodiment of the present invention.
9 is a plan view for explaining a stem clamp according to an embodiment of the present invention.
10 is an enlarged view of a main part for explaining an eyebolt according to an embodiment of the present invention.

Hereinafter, a preferred embodiment of a high-capacity pneumatic valve device according to the present invention will be described with reference to the accompanying drawings. In this process, the thickness of lines or the size of components shown in the drawings may be exaggerated for clarity and convenience of explanation.

In addition, terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to the intention or custom of a user or operator. Therefore, definitions of these terms will have to be made based on the content throughout this specification.

Figure 1 is a perspective view for explaining a high capacity pneumatic valve device according to an embodiment of the present invention, Figure 2 is a front view for explaining a high capacity pneumatic valve device according to an embodiment of the present invention, Figure 3 is a view of the present invention It is a cross-sectional view for explaining a high-capacity pneumatic valve device according to an embodiment.

4 is an enlarged view of a main part for explaining a pneumatic actuator according to an embodiment of the present invention, and FIG. 5 is a perspective view for explaining an upper spring support part and a lower spring support part according to an embodiment of the present invention. 6 is an enlarged view of a main part for explaining a stem fixing part according to an embodiment of the present invention, and FIG. 7 is a perspective view for explaining a stem fixing part according to an embodiment of the present invention.

8 is an enlarged view of a main part for explaining a stem clamp according to an embodiment of the present invention, FIG. 9 is a plan view for explaining a stem clamp according to an embodiment of the present invention, and FIG. 10 is a view of a stem clamp according to an embodiment of the present invention. It is an enlarged view of a main part for explaining the eye bolt according to an embodiment.

1 to 10, the high-capacity pneumatic valve device 100 according to an embodiment of the present invention largely includes a pneumatic actuator 110, an actuator stem 120, a stem fixing part 130, and a handle opening and closing part. 140, a yoke 150, and a stem clamp 160, the yoke 150 being coupled to the valve body 170, and the actuator stem 120 via the stem clamp 160 to the valve body ( It is connected to the valve stem 171 of 170).

The high-capacity pneumatic valve device 100 according to this embodiment improves the durability of the pneumatic actuator 110 and can be quickly and quickly closed using the handle opening/closing unit 140 in case of failure, thereby increasing safety. .

The valve body 170 forms a passage through which fluid flows, and the valve stem 171 is connected to the actuator stem 120 to selectively open and close the passage. The yoke 150 is coupled to the outside of the valve body 170, and the valve stem 171 moves up and down by the actuator stem 120 operated by the pneumatic actuator 110.

In the pneumatic actuator 110 according to the present embodiment, the lower end is coupled to the upper end of the yoke 150, the handle opening and closing part 140 is coupled to the upper end, and the actuator stem 120 is mounted to be movable up and down therein do.

The pneumatic actuator 110 includes an upper case 111 and a lower case 113 coupled to each other to provide a space for inflow and discharge of air pressure, and a diaphragm provided between the upper case 111 and the lower case 113 (115) and a coil spring (117) providing restoring force of the diaphragm (115).

In addition, the pneumatic actuator 110 further includes a diaphragm plate 119 for protecting the diaphragm 115, an upper spring support part 112 and a lower spring support part 114 for preventing the left and right movement of the coil spring 117. include

In such a pneumatic actuator 110, the diaphragm 119 and the diaphragm plate 119 are moved downward by air pressure introduced from the upper side of the diaphragm 115, while compressing the coil spring 117, and the actuator stem 120 is moved to the lower side. to gradually seal the valve body 170. When the air pressure is removed, the coil spring 117 is restored and the diaphragm 119, the diaphragm plate 119, and the actuator stem 120 are moved upward.

The upper case 111 and the lower case 113 are coupled to each other through bolts and nuts, and the rim of the diaphragm 119 is inserted and fixed into the coupling portion. At this time, a pneumatic hole 111a for supplying pneumatic pressure is formed in the upper case 111 .

In addition, an eye bolt 111b having a transport and separation function is fastened to the upper case 111 . In addition, a reinforcing protrusion 111c is protruded from the flange of the upper case 111 to which the eyebolt 111b is fastened, thereby maintaining the fastening force of the eyebolt 111b. The eyebolt 111b is fastened to the upper case 111 so that its lower end contacts the upper surface of the flange of the lower case 113, and is further fastened to the upper case 111 during maintenance to provide a space for inserting tools and the like. The upper case 111 and the lower case 113 are separated so as to be secured.

In the diaphragm 115, the upper end of the actuator stem 120 passes through the central portion, and the rim portion is inserted into the upper case 111 and the lower case 113 to be fixed, and is prevented from being damaged by the diaphragm plate 119.

The diaphragm plate 119 has a "∩" shape and has a stem fixing hole 119a formed in the center thereof, contacts the inner surface of the diaphragm 115 to prevent damage to the diaphragm 115, and has a coil spring 117 inside. installed The diaphragm plate 119 is coupled to the actuator stem 120 through the stem fixing part 130, and the upper spring support part 112 is bonded to the inner surface. In particular, the diaphragm plate 119 has a damage-resistant round surface 119b formed on the lower edge portion.

The spring upper support part 112 is coupled to the inner surface of the diaphragm plate 119, has an upper through-hole part 112a formed in the center thereof, and an upper part supporting the upper end of the coil spring 117 to the outside of the upper through-hole part 112a. The support rib 112b is cut and formed. The spring upper support 112 may be press-formed by thin plates.

The lower spring support 114 is formed in the same or corresponding shape as the upper spring support 112 and coupled to the inner surface of the lower case 113, a lower through hole 114a is formed in the center, and the lower through hole 114a is formed. A lower support rib 114b on which the coil spring 117 is supported is bent to the outside of the hole 114a.

The coil spring 117 is coupled between the upper spring upper guide part 112 and the lower spring support part 114 so that the upper support rib 112b is inserted into the upper end and the lower support rib 114b is inserted into the lower end of the diaphragm ( 115) provides restoring force for restoration.

In the actuator stem 120 according to the present embodiment, the upper end is coupled to the diaphragm 115 and the diaphragm plate 119 by the stem fixing part 130, and the lower end is exposed to the lower part of the lower case 113 to clamp the stem ( 160 is connected to the valve stem 171.

In addition, the actuator stem 120 has a nut fastening screw for coupling the stem fixing part 130 and a fixing end 121 formed at the upper end, and a nut fastening screw part is formed on the upper side of the fixing end 121 to form a stem fixing hole (119a). In addition, in the actuator stem 120, a support surface 123 for supporting the stem fixing part 130 is formed below the fixed end part 121.

The actuator stem 120 moves along with the movement of the diaphragm 115 and moves the valve stem 171, and is also moved by the handle opening/closing part 140. At this time, the contact groove 125 is formed on the top surface of the actuator stem 120 so that the handle opening/closing part 140 can be stably contacted.

The stem fixing part 130 according to the present embodiment fixes the actuator stem 120 to the diaphragm 115 and the diaphragm plate 119, and the diaphragm 115 and the diaphragm plate 119, which move up and down, 111 and the lower case 113 are prevented from colliding.

To this end, the stem fixing part 130 largely includes a holder block 131, a stopper block 133, a lower stopper 135, a set bolt member 137 and a stopper support member 139, and the holder The block 131 and the stopper block 133 are firmly coupled to the actuator stem 120 and the diaphragm plate 119.

The upper end of the actuator stem 120 passes through the holder block 131 so as to be supported on the fixed end 121 and is in contact with the lower surface of the diaphragm plate 119 . The holder block 131 has a stopper fastening screw portion 131a to which the lower stopper 135 is fastened and fixed to the lower outer surface, and the support flange is formed so that the contact area with the diaphragm plate 119 is widened.

The stopper block 133 is paired with the holder block 131 to fix the actuator stem 120, the diaphragm plate 119, and the diaphragm 115, and prevent the diaphragm 115 from colliding with the upper case 111 It is selectively in contact with the upper surface of the upper case 111 so as to. The stopper block 133 is formed in a "∪" shape to accommodate the nut fastening screw of the actuator stem 120 and contacts the upper surface of the diaphragm 115, and the diaphragm through a fixing nut 133a fastened to the nut fastening screw. It is tightly coupled to the plate 119.

In addition, the stopper block 133 has a stepped portion formed on the outer surface of the upper end to prevent collision with the bolt fixing the handle opening and closing portion 140, and a set bolt fastening hole 133b for fastening the set bolt member 137 on one side is formed through

The set bolt member 137 is fastened to the set bolt fastening hole 133b to prevent the loosening of the fixing nut 133a fastened to the nut fastening screw and at the same time to prevent the rotation of the holder block 131, so that the fixing nut 133a tightly fixed to Since the set bolt member 137 simultaneously provides the washer function of the fixing nut 133a and the washer function of the stopper block 133, it provides an effect of reducing the number of parts.

The lower stopper 135 is coupled to the stopper fastening screw portion 131a of the holder block 131 and selectively contacts the lower case 113 to prevent the diaphragm plate 119 from colliding with the lower case 113. In addition, the lower stopper 135 is formed in a cylindrical shape, the actuator stem 120 penetrates therein, and a female screw portion is formed on the inner surface of the upper end.

The lower stopper 135 is more firmly fixed to the stopper fastening screw portion 131a by the stopper support member 139 to prevent loosening from the stopper fastening screw portion 131a and moves as it contacts the lower case 113 that is prevented

The stopper support member 139 is fastened to the upper end of the lower stopper 135 and adheres to the support surface 123 of the actuator stem 120 . The stopper support member 139 prevents rotation, loosening, and flow of the lower stopper 135 and further improves the fixing force of the lower stopper 135.

The handle opening/closing part 140 according to the present embodiment includes a handle housing 141 coupled to the upper case 111 and a handle passing through the handle housing 141 and contacting the contact groove 125 of the actuator stem 120. It includes a screw shaft 143 and a gear box 147 coupled to the handle housing 141 and interlocking the handle 145 and the handle screw shaft 143 . At this time, the handle housing 141 is sealed with the handle screw shaft 143 through the seal block 141a.

The handle screw shaft 143 has a contact support surface 143a inserted into the contact groove 125 protruding obliquely on the lower surface, and the upper end is connected to the gearbox 147 in a lead screw manner.

The yoke 150 according to this embodiment has an upper end coupled to the lower case 113 through bolts and a lower end coupled to the valve body 170 . The lower end of the actuator stem 120 is inserted into the upper end of the yoke 150 and the upper end of the valve stem 171 is inserted into the lower end of the yoke 150 .

In addition, the yoke 150 has a protruding scale mounting portion 153 capable of mounting a scale 151 capable of checking the movement of the actuator stem 120 therein, and the stem clamp 160 is attached to the scale mounting portion 153. A guide rib 155 capable of positioning the scale 151 closer to each other is protruded.

At this time, the guide rib 155 protrudes from the scale mounting portion 153 to have a thickness smaller than the thickness of the scale mounting portion 153 so as to be inserted into the stem clamp 160 .

The stem clamp 160 according to the present embodiment is coupled to the lower end of the actuator stem 120 to connect the actuator stem 120 and the valve stem 171, and the pointer 161 indicating the scale 151 is embossed is formed The stem clamp 160 is divided into left and right parts and coupled to each other through bolts, and female screws capable of screwing the actuator stem 120 and the valve stem 171 are formed at upper and lower ends.

In addition, the stem clamp 160 has a pointer protrusion 163 protruding from one side of the pointer 161, and a guide rib 155 is inserted between the pointer protrusions 163. Through this, the pointer 161 of the stem clamp 160 is located on the same plane as the scale 151, and visibility can be improved.

The high-capacity pneumatic valve device 100 according to the present invention configured as described above uses the upper spring support 112 and the lower spring support 114 coupled to the upper case 111 and the lower case 113, respectively, to coil the coil. Since the spring 117 is safely and firmly supported, it is possible to prevent the coil spring 117 from moving left and right while the pneumatic actuator 110 operates, thereby improving operational stability.

In addition, the high-capacity pneumatic valve device 100 according to the present invention can more firmly fix the actuator stem 120 to the diaphragm plate 119 using the holder block 131 and the stopper block 133, The movement and loosening of the lower stopper 135 and the stopper block 133 can be prevented by using the set bolt member 137 and the stopper support member 139.

The present invention has been described with reference to the embodiments shown in the drawings, but this is only exemplary, and those skilled in the art can make various modifications and equivalent other embodiments. will understand

Therefore, the true technical protection scope of the present invention should be determined by the claims.

100: high capacity pneumatic valve device 110: pneumatic actuator
111: upper case 111a: pneumatic hole
111b: eye bolt 111c: reinforcing protrusion
112: spring upper support 112a: upper through-hole
112b: upper support rib 113: lower case
114: spring lower support 114a: lower through-hole
114b: lower support rib 115: diaphragm
117: coil spring 119: diaphragm plate
119a: stem fixing hole 119b: damage-resistant round surface
120: actuator stem 121: fixed end
123: support surface 125: contact groove
130: stem fixing part 131: holder block
131a: stopper fastening screw portion 133: stopper block
133a: fixing nut 133b: set bolt fastening hole
135: lower stopper 137: set bolt member
139: stopper support member 140: handle opening and closing part
141: handle housing 141a: seal block
143: handle screw shaft 143a: contact support surface
145: handle 147: gearbox
150: yoke 151: scale
153: scale mounting part 155: guide rib
160: stem clamp 161: pointer
163: pointer forming protrusion 170: valve body
171: valve stem

Claims (6)

A diaphragm is provided between the upper case and the lower case, a coil spring is provided between the lower case and the diaphragm, and the diaphragm is moved up and down by hydraulic pressure introduced through a pneumatic hole of the upper case A pneumatic actuator; an actuator stem movably installed in the pneumatic actuator such that an upper end is coupled to the diaphragm and moved by pneumatic pressure flowing into the pneumatic actuator; a stem fixing part for fixing the actuator stem to the diaphragm; a handle opening/closing unit coupled to the upper case through a handle housing, having a handle screw shaft contacting an upper end of the actuator stem, and having a handle operating the handle screw shaft through a gear box coupled to the handle housing; And a yoke having an upper end fixed to the lower case through bolts, a lower end coupled to the valve body, and having a scale capable of checking the movement of the actuator stem; includes,
The pneumatic actuator may include a diaphragm plate having a stem fixing hole formed in a central portion in a “∩” shape and contacting an inner surface of the diaphragm to prevent damage to the diaphragm; a spring upper support portion coupled to an inner surface of the diaphragm plate, having an upper through hole portion formed in a central portion, and having an upper support rib bent and formed to be inserted into an upper end portion of the coil spring to support the coil spring outside the upper through hole portion; and a spring lower support portion coupled to an inner surface of the lower case, having a lower through-hole portion formed in a central portion, and having a lower support rib bent outside the lower through-hole portion and inserted into a lower end portion of the coil spring to support the coil spring. including,
The actuator stem has a nut fastening screw portion formed at an upper end thereof, passing through the stem fixing hole, and a fixing end portion for coupling the stem fixing portion,
The stem fixing part includes a holder block through which an upper end of the actuator stem passes through and is caught on the fixing end, and a stopper fastening screw portion is formed on an outer surface to contact an inner surface of the diaphragm plate; It is formed in a “∪” shape to accommodate the nut fastening screw of the actuator stem, is in contact with the upper surface of the diaphragm, and is coupled to the diaphragm plate through a fixing nut fastened to the nut fastening screw to selectively A stopper block in contact with; And a cylindrical lower stopper coupled to the stopper fastening screw portion and selectively contacting the inner surface of the lower case; includes,
The stem fixing part may include a set bolt member fastened to the stopper block and closely fixed to the fixing nut to prevent the fixing nut fastened to the nut fastening screw part from loosening and to prevent rotation of the holder block; and
a stopper support member fastened to the lower stopper and closely attached to a support surface formed on an outer surface of the actuator stem to prevent rotation and flow of the lower stopper;
High-capacity pneumatic valve device comprising a.
delete delete delete According to claim 1,
A stem clamp coupled to the lower end of the actuator stem to connect the actuator stem and the valve stem of the valve body, and having a pointer indicating the scale formed in an embossed shape; further comprising,
The yoke has a scale mounting portion protruding from the scale mounting portion so that the pointer is positioned on the same plane as the scale and has a smaller thickness than the scale mounting portion, and includes a guide rib inserted into the stem clamp. High-capacity pneumatic valve device characterized in that to do.
According to claim 5,
The stem clamp is divided into left and right parts and coupled through bolts, a pointer forming protrusion is protruded from one side to position the pointer in close proximity to the scale, and the guide rib is inserted between the pointer forming protrusions. High-capacity pneumatic valve device.

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