KR20220085916A - Bracket of valve-controlling equipment - Google Patents

Abstract

The bracket of the valve control device according to the present invention includes a square-shaped suspension member that surrounds a lower adapter and is coupled to an interlock body, and is positioned in a band shape at each edge at both edges of the suspension member and is partially inserted into the suspension member. and a half-ringed stopper inserted into the suspension member and fitted to the rotating rod.

Description

BRACKET OF VALVE-CONTROLLING EQUIPMENT

The present invention secures the lower adapter, the interlock body, and the upper adapter to the valve body in order to stably operate the rotation of the stem and the yoke sleeve protruding from the body of the valve. It relates to a bracket of a valve control device.

In general, a valve (valve) is installed in a pipe (pipe) for inducing the flow of the fluid to control the flow rate and flow rate of the fluid on the flow path of the fluid. Here, the valve is connected to a plurality of valves in an industrial field and used together with a lock tool. The locking tool is a lock and a chain applied to the valve, and requires a user's direct manipulation of the valve before handling the valve's handle, and thus does not prevent a user's manipulation error.

As an alternative to this, the lock and chain are being replaced by valve interlocks in the valve. The valve interlock is a protective device installed on the valve to prevent a user's manipulation error after the valve handle is manipulated by applying a mechanical mechanism to the valve without direct manipulation by the user before manipulation of the handle of the valve. That is, the valve interlock accommodates one or two control keys before the valve handle is operated to sequentially control the opening and closing of the valve after the valve handle is operated.

The coupling relationship between the valve and the valve interlock according to the prior art is described in FIG. 1 . Here, to simplify the description of the invention, the valve is limited to the gate valve 10, and the valve interlock 70 is limited to a handwheel (or handle) valve interlock. The gate valve 10 has a stem 3 and a york sleeve 6 protruding from a york body 2 on the valve body 9 as shown in FIG. 1( a ). .

The yoke sleeve 6 rotates with the stem 3 relative to the yoke body 2 while passing through the stem 3 . In order to install the valve interlock 80 to the gate valve 10, the stem 3 and the yoke sleeve 6 are provided with a valve bracket ( 30) is surrounded by Specifically, the stem 3 and the yoke sleeve 6 include a sleeve rotating body (located inside the bracket) that is sequentially stacked on the valve bracket 30 , an interlock body 50 and a handle connecting body 60 . ) and the valve handle 70 .

Here, the valve bracket 30 is inserted into the interlock body 50 through the lower part of the interlock body 50 and is screwed to the interlock body 50 as shown in FIG. 1( c ). The interlock body 50 may accommodate one control key 45 or two control keys (including the code '45'). The handle connecting body 60 transmits the rotation torque of the valve handle 70 to the sleeve rotating body through the interlock body 50 . In sequence, the sleeve rotating body rotates the yoke sleeve (6) and the stem (3).

For example, when one control key 45 is accommodated in the interlock body 50 , the sleeve rotating body and the handle connecting body 60 do not rotate through the interlock body 50 so that the stem 3 and the yoke sleeve (6) do not rotate. On the other hand, when the two control keys (including the symbol '45') are received in the interlock body 50 , the sleeve rotating body and the handle connecting body 60 are rotated through the interlock body 50 and the stem Rotate (3) and the yoke sleeve (6).

However, considering FIGS. 1 and 2 , the valve bracket 30 is attached to the guide ring 21 , two connecting plates 23 , two spacing adjusting nuts 27 , and the interlock body 50 . Adjusting the two gaps between the plurality of first connecting screws 25 connecting the guide ring 21 and the two connecting plates 23 and the two connecting plates 23 to space the two connecting plates 23 apart It has a plurality of second connecting screws 27 connecting the nuts 23 . That is, the valve bracket 30 is made of complex parts, which makes it difficult for the user to connect the parts and forcing the user to perform simple repetitive tasks.

Also, in the valve bracket 30 , the two connecting plates 23 are disposed between the two yoke legs 1 because they are positioned between the two yoke legs 1 positioned below the yoke body 2 . It is difficult to be fixed to the sea yoke legs 1 and it is easy to move between the yoke legs 1, which makes the parts arrangement environment poor.

On the other hand, the valve interlock is similarly disclosed as a prior art in Korean Patent Publication No. 10-2135788.

Korean Patent Publication No. 10-2135788

The present invention has been devised to solve the problems of the prior art, and when the lower adapter and the interlock body and the upper adapter that are sequentially stacked while surrounding the yoke sleeve and the stem protruding from the yoke body on the valve body of the valve are installed, the inter An object of the present invention is to provide a bracket for a valve control device that is suitable for minimizing the number of connecting parts around the two yoke legs integrally formed on the yoke body and reducing movement between the two yoke legs while being connected to the lock body.

The bracket of the valve control device according to the present invention is arranged on the valve body in the valve control device for manipulating rotation of the yoke sleeve and the stem projecting from the yoke body through the valve control device on the valve body of the valve. After sequentially stacking a lower adapter, an interlock body, and an upper adapter while enclosing the yoke sleeve and the stem, the lower adapter, the interlock body, and the upper adapter are fixed to the valve body to fix the lower adapter, the lower adapter a suspension member having a rectangular shape surrounding the interlock body and coupled to the interlock body; two connecting members positioned in a band shape at respective edges at both edges of the suspension member and partially inserted into the suspension member; a rotating rod for rotationally fixing the individual connecting members to the suspension member; and a semi-annular stopper inserted into the suspension member and fitted to the rotating rod, wherein the two connecting members are guided to face each other between the two yoke legs positioned between the valve body and the yoke body. It is characterized in that it surrounds the individual yoke legs together with the screw member connected by the member.

The suspension member may include: first and second accommodating tubes in a cylindrical shape positioned on lower and upper sides of the suspension member in a central region of the suspension member; and a swivel positioned on both sides of the first accommodating pipe and integrally formed with the first accommodating pipe, wherein the second accommodating pipe may be coupled to the interlock body.

The first accommodation tube and the second accommodation tube are configured to surround the lower adapter by inserting the lower adapter in the first accommodation tube and the second accommodation tube, and to expose the lower adapter under the second accommodation tube. can

The first accommodation tube may have a larger inner diameter than the second accommodation tube.

The rotating table may be integrally formed with the first accommodating pipe through the round shape while having a round shape near the first accommodating pipe and an angular shape away from the first accommodating pipe.

When the rotary table has an angled shape at the end at a distance from the first receiving tube, two grooves are recessed toward the inside of the rotary table from a cross-section at the end of the rotary table to open the lower side of the rotary table has a first dividing wall between the two grooves in the rotating table, and a second dividing wall starting from the first dividing wall and passing through the individual grooves, wherein the individual grooves of the rotating table include the first dividing wall and It is possible to accommodate the rotating rod horizontally spanning the second partition wall, and the individual connecting member penetrating the rotating rod.

The first partition wall and the second partition wall have fitting holes through which the first partition wall and the second partition wall pass through the first partition wall and the second partition wall along one direction of the cross-section when viewed from the cross-section of the rotary table, The fitting hole of the first partition wall and the second partition wall may insert the rotating rod through the individual connecting member.

The second partition wall is a slit communicating with the fitting hole of the second partition wall through the second partition wall along the other direction perpendicular to the one direction of the cross-section when viewed from the cross-section of the rotating table (slit), the slit of the second partition wall may be in contact with the rotating rod by inserting the stopper.

wherein the two connecting members include a head and a leg in the separate connecting member, the screw member passing through the leg in the separate connecting member, wherein the head and the leg are integrally formed with respect to each other, In the individual grooves of the swivel it is movable relative to the swivel rod.

The head may be inserted into the individual grooves of the rotating table and spirally coupled to the rotating rod by penetrating the rotating rod, and may perform a helical motion along the rotating rod when the rotating rod is rotated in the individual groove of the rotating unit.

The leg portions are exposed from the individual grooves of the turntable, are positioned closer to the individual yoke legs than the head portion by forming a predetermined angle with the head portion, and are arranged in a row on the leg portions along the longitudinal direction of the leg portion It is possible to insert the screw member into one connection hole in the leg portion having a plurality of connection holes.

The leg part may be bent twice or bent once toward the individual yoke leg with respect to the head part.

The leg part has a plurality of connection holes exposed from the individual grooves of the turntable, extending straight from the head part, and arranged in one or more rows in the leg part along the length direction of the leg part, The screw member may be inserted into one connection hole.

When the individual leg portions in the two leg portions have a plurality of connection holes formed of one or more lines in the longitudinal direction of the individual leg portions in the individual leg portions, the screw member includes a female screw and a male screw connecting the two leg portions. Including, the female screw and the male screw may be helically coupled between the two leg parts.

The female screw consists of a first bolt head caught in one connection hole of one leg portion in the two leg portions, and a cylindrical screw having a screw thread on an inner circumferential surface between the two leg portions, and the male screw includes the two legs a second bolt head caught in one connection hole of the other leg in the unit, and a cylindrical screw having a thread on an outer circumferential surface between the two leg portions, wherein the cylindrical screw and the cylindrical screw are between the two leg portions Male and female helical bonds are possible.

a fitting hole through which the first partition wall and the second partition wall pass through the first partition wall and the second partition wall along an arrangement direction of the first partition wall and the second partition wall; When the partition wall and the second partition wall have a slit communicating with the fitting hole in the second partition wall along a direction perpendicular to the arrangement direction, the rotary rod may be configured to separate the first separation wall from the individual grooves of the rotary table. It is inserted into the fitting hole of the wall and the second partition wall to be spirally coupled to the first partition wall and the second partition wall, and the second partition wall is exposed to the slit of the second partition wall. It has a seating groove on the outer circumferential surface of the rotary rod, and the stopper inserted through the slit of the second dividing wall may be seated in the seating groove of the rotary rod.

a fitting hole through which the first partition wall and the second partition wall pass through the first partition wall and the second partition wall along an arrangement direction of the first partition wall and the second partition wall; While having a slit communicating with a fitting hole in the second partitioning wall along a direction perpendicular to the arrangement direction of the partitioning wall and the second partitioning wall, the rotating rod is configured such that the first partitioning wall and the second partitioning wall When the stopper is inserted into the fitting groove of the second partition wall and has a seating groove on the outer peripheral surface exposed to the slit of the second partition wall, the stopper is inserted into the second partition wall through the slit of the second partition wall and is inserted into the rotary rod and Contact, it is possible to prevent the separation of the rotating rod from the second separating wall while being caught in the seating groove of the rotating rod during rotation of the rotating rod relative to the outer projection with respect to the rotating rod.

A lower adapter and interlock body surrounding the yoke sleeve and stem on the valve body in the valve control device to manipulate rotation of the yoke sleeve and the stem projecting from the york body through the valve control device on the valve body of the valve. and the upper adapter are sequentially stacked, and then the lower adapter, the interlock body, and the upper adapter are fixed to the valve body,

The bracket of the valve control device according to the present invention is provided with a square-shaped suspension member that surrounds a lower adapter and is coupled to an interlock body, and is positioned at each edge from both edges of the suspension member to be rotationally fixed to each edge and suspended Having a connecting member that rotates relative to the member, and binding the two connecting members to separate yoke legs at two yoke legs positioned below the yoke body,

When the lower adapter and the interlock body and the upper adapter are sequentially stacked while enclosing the stem and the yoke sleeve protruding from the yoke body on the valve body of the valve, they are connected to the interlock body and formed integrally with the yoke body. It is possible to minimize the number of connecting parts around the yoke legs and reduce movement between the two yoke legs.

1 (a) to 1 (c) are images showing the coupling relationship between the gate valve and the valve interlock according to the prior art.
Figure 2 is an image showing the disassembled valve briquette of Figure 1 (b).
3 is a schematic diagram showing a valve control device according to the present invention.
FIG. 4 is a plan view showing the bracket of the first embodiment in the valve control device of FIG. 3 .
5 is an exploded perspective view showing the bracket of FIG.
6 is a perspective view showing the bracket of FIG.
7A is a perspective view showing the suspension member in the bracket of FIG. 6 from one side.
7(b) is a perspective view showing the suspension member in the bracket of FIG. 6 from the other direction.
8 is an exploded view showing the coupling relationship between the connecting member, the rotating rod, and the stopper in the bracket of FIG. 6 .
9 is a cross-sectional view showing the coupling relationship between the suspension member and the connecting member in the bracket of FIG.
10 is a perspective view showing the bracket of the second embodiment in the valve control device of the present invention.
11 is a perspective view showing the bracket of the third embodiment in the valve control device of the present invention.
12 is a perspective view showing a bracket of a fourth embodiment in the valve control device of the present invention.
13 is an image schematically illustrating a coupling relationship between a suspension member, a connecting member, and a yoke leg under an interlock body in the valve control device of FIG. 3 .

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The detailed description of the present invention set forth below refers to the accompanying drawings, which show by way of illustration specific embodiments in which the present invention may be practiced. These embodiments are described in sufficient detail to enable those skilled in the art to practice the present invention. It should be understood that various embodiments of the present invention are different but need not be mutually exclusive. For example, certain shapes, structures, and characteristics described herein may be implemented in other embodiments without departing from the spirit and scope of the invention in relation to one embodiment. In addition, it should be understood that the location or arrangement of individual components within each disclosed embodiment may be changed without departing from the spirit and scope of the present invention. Accordingly, the detailed description set forth below is not intended to be taken in a limiting sense, and the scope of the present invention, if properly described, is limited only by the appended claims, along with all scope equivalents as those claimed. In the drawings, like reference numerals refer to the same or similar functions in various aspects, and the length, area, thickness, and the like may be exaggerated for convenience.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those of ordinary skill in the art can easily practice the present invention.

3 is a schematic diagram showing a valve control device according to the present invention, FIG. 4 is a plan view showing a bracket of the first embodiment in the valve control device of FIG. 3, and FIG. 5 is an exploded perspective view showing the bracket of FIG.

Fig. 6 is a perspective view showing the bracket of Fig. 4, Fig. 7 (a) is a perspective view showing the suspension member in the bracket of Fig. 6 from one side, and Fig. 7 (b) is a perspective view showing the suspension member in the bracket of Fig. 6 from the other direction It is a perspective view showing

In addition, FIG. 8 is an exploded view showing the coupling relationship between the connecting member, the rotating rod, and the stopper in the bracket of FIG. 6 , FIG. 9 is a cross-sectional view showing the coupling relationship between the suspension member and the connecting member in the bracket of FIG. 6 , FIG. 13 is FIG. 3 It is an image schematically showing the coupling relationship between the suspension member, the connecting member, and the yoke leg under the interlock body in the valve control device of

In this case, FIG. 13 only shows one half of the suspension member, for better understanding of the invention. The gate valve will be referred to as abbreviated as 'valve' in the following.

3 to 9 and 13 , the valve control device 200 is, when considering FIGS. 1 and 3 , through the valve control device 200 on the valve body 9 of the valve 10 . It is configured to manipulate rotation of the stem 3 and the yoke sleeve 6 protruding from the yoke body 2 .

To this end, the valve control device 200, in consideration of FIGS. 1 and 3 and 13, surrounds the yoke sleeve 6 and the stem 3 on the valve body 10 on the bracket 190. It includes a lower adapter 90 , an interlock body 100 , and an upper adapter 110 that are sequentially stacked.

Here, the bracket 190 fixes the lower adapter 90 , the interlock body 100 , and the upper adapter 110 to the valve body 9 in consideration of FIGS. 3 and 13 . When viewed schematically, the bracket 190 includes a suspension member 150 , two connecting members 168 , a rotating rod 178 and a stopper 185 when considering FIGS. 3 to 6 . do.

The suspension member 150 surrounds the lower adapter 90 and is coupled to the interlock body 100 when considering FIGS. 3 and 7 and 13 . The two connecting members 168 are positioned in a band shape at respective edges at both edges of the suspension member 150 in consideration of FIGS. 5 and 6 and 9 , and are partially inserted into the suspension member 150 . do.

In consideration of the rotating rod 178 and FIGS. 5 and 6 and 8 , the individual connecting members 168 are rotationally fixed to the suspension member 150 . The stopper 185 is inserted into the suspension member 150 and has a semi-ring shape fitted to the rotating rod 178 . Here, the two connecting members 168 are guided to face each other between the two yoke legs 1 positioned between the valve body 10 and the yoke body 2, in consideration of FIGS. 6 and 13 , Enclosed together with the screw member 249 is the individual yoke leg 1 connected by a screw member 249 .

When looking in more detail, the suspension member 150 is, as shown in FIG. 7 , a first accommodating tube having a cylindrical shape positioned on the lower side and the upper side of the suspension member 150 in the central region of the suspension member 150 . 124 and the second accommodating pipe 128 , and a rotating table 145 positioned on both sides of the first accommodating pipe 124 and integrally formed with the first accommodating pipe 124 . The second accommodation tube 128 is coupled to the interlock body 100 when considering FIGS. 3 and 6 and FIGS. 9 and 13 .

The first accommodating pipe 124 and the second accommodating pipe 128 are, in consideration of FIGS. 3 and 6 and 7 , a lower adapter ( 90 is inserted to surround the lower adapter 90 , exposing the lower adapter 90 under the second receiving tube 128 . The first accommodating pipe 124 has a larger inner diameter than the second accommodating pipe, as shown in FIGS. 6 and 7 .

The rotary table 145, as shown in FIGS. 6 and 7, has a round shape near the first accommodation tube 124 and an angled shape away from the first accommodation tube 124 through a round shape. 124 is integrally formed. The rotary table 145 is, as shown in FIG. 7 , when it has an angled shape at the end away from the first receiving tube 124 , it is recessed toward the inside of the rotary table 145 from the end of the rotary table 145 in cross section. It has two grooves 131 for opening the lower side of the 145, a first partition wall 133 between the two grooves 131 in the rotary table 145, and from the first partition wall 133 It starts and passes through individual grooves 133 with a second dividing wall 135 .

Here, the individual grooves 131 of the rotation table 145 are, in consideration of FIGS. 5 and 6 and 8 , the rotation rods horizontally spanning the first partition wall 133 and the second partition wall 135 ( 178 ), and individual connecting members 168 penetrating the rotating rod 178 . The first partition wall 133 and the second partition wall 135 are separated from the first partition wall 133 and the second partition wall 133 along one direction of the cross-section when viewed from the cross-section of the rotary table 145 as shown in FIG. 7 . It has a fitting hole 137 penetrating the wall 135 . Here, in the fitting hole 137 of the first partition wall 133 and the second partition wall 135, when considering FIGS. insert

As shown in FIGS. 5 to 7 , the second partition wall 135 passes through the second partition wall 135 along the other direction perpendicular to one direction of the cross-section when viewed from the cross-section of the rotary table 145 . It has a slit 139 communicating with the fitting hole 137 of the second partition wall 135 . Here, the slit 139 of the second partition wall 135 is brought into contact with the rotating rod 178 by inserting a stopper 185 in consideration of FIGS. 4 and 5 and 7 .

The two connecting members 168, when considering FIGS. 5 and 6 and 8 and 9 and 13, include a head 164 and a leg 166 in separate connecting members 168, , through the screw member 149 to the leg portion 166 in the individual connecting member 168 . Here, the head 164 and the leg 166 are integrally formed with respect to each other in consideration of Figs. 5 and 6 and Figs. It moves relative to the rotating rod.

6 to 8, the head 164 is inserted into the individual grooves 131 of the rotating table 145 and penetrates the rotating rod 178 to spirally engage the rotating rod 178, and the rotating table 145. When the rotating rod 178 rotates in the individual groove 131 of the helical motion along the rotating rod 178.

The leg part 166 is exposed from the individual grooves 131 of the rotary table 145 when considering FIGS. 6 to 8 and 13 , and forms a predetermined angle with the head 164 to form the head 164 . It is located closer to the individual yoke leg 1 and has a plurality of connection holes 162 arranged in a row in the leg part 166 along the longitudinal direction of the leg part 166, and one in the leg part 166 is provided. Insert the screw member 249 into the connection hole 162 of the. The leg 166 is bent twice towards the individual yoke leg 1 with respect to the head 164, when considering FIGS. 5 and 6 and FIGS. 8 and 9 and 13 . .

The length of the individual leg portion 166 in the individual leg portion 166 when considering FIGS. 5 and 6 and 8 and 9 and 13 in the two leg portions 166. When having a plurality of connection holes 162 in one line along the direction, the screw member 249 is a female screw 243 and a male screw connecting the two leg parts 166 when considering FIGS. 11 and 13 . (246). The female screw 243 and the male screw 246 are helically coupled between the two leg parts 166 when considering FIGS. 11 and 13 .

The female screw 243 is a first bolt head caught in one connection hole 162 of one leg portion 166 in the two leg portions 166, and two legs in consideration of FIGS. 8 and 11 . Between the parts 166 is made of a cylindrical screw having a thread on the inner circumferential surface. The male screw 246 is a second bolt head caught in one connection hole 162 of the other leg part 166 in the two leg parts 166, and the two legs when considering FIGS. 8 and 11 . Between the parts 166 is made of a cylindrical screw having a screw thread on the outer peripheral surface. Here, the cylindrical screw and the cylindrical screw are male and female helically coupled between the two leg parts 166 .

The first partition wall 133 and the second partition wall 135 are arranged along the arrangement direction of the first partition wall 133 and the second partition wall 135 as shown in FIG. 7 . and a fitting hole 137 penetrating through the second partition wall 135 , and a second partition wall 135 along a direction perpendicular to the arrangement direction of the first partition wall 133 and the second partition wall 135 . When it has a slit 139 communicating with the fitting hole 137, the rotary rod 178 is, when considering FIGS. 5 to 8, the first partition wall ( 133) and the second partition wall 135 are inserted into the fitting hole 137 to perform a helical coupling with the first partition wall 133 and the second partition wall 135, and the second partition wall 135 is inserted into the second partition wall 135. A seating groove 174 is provided on the outer peripheral surface of the rotary rod 178 so as to be exposed to the slit 139 of the partition wall 135, and a slit ( 139) to seat the stopper 185 inserted through it.

On the other hand, as shown in FIG. 7 , the first partition wall 133 and the second partition wall 135 are disposed along the arrangement direction of the first partition wall 133 and the second partition wall 135 . 133) and a fitting hole 137 penetrating the second partition wall 135, and a second partition wall ( While having a slit 139 communicating with the fitting hole 137 in the 135, the rotary rod 178, considering FIGS. 5 and 7 and 8, the first partition wall 135 and the second partition wall When the stopper 185 is inserted into the fitting groove 137 of the 135 and has a seating groove 174 on the outer peripheral surface exposed to the slit 139 of the second dividing wall 135, the stopper 185 is shown in FIGS. 4 and 5 and 7 and 8, it is inserted into the second dividing wall 135 through the slit 139 of the second dividing wall 135 to contact the rotating rod 178, and the rotating rod 178 is rotated when the rotating rod is rotated. (178) is caught in the seating groove (174) to prevent the separation of the rotating rod (178) from the second separating wall (135) while relatively protruding relative to the rotating rod (178).

10 is a perspective view showing the bracket of the second embodiment in the valve control device of the present invention. In this case, Fig. 10 is explained with reference to Figs. 3 to 9 and Fig. 13 .

Referring to FIG. 10 , the bracket 220 is similar to the bracket 150 of FIGS. 3 to 9 , but the two connecting members 218 in the bracket 220 are the brackets of FIGS. 3 to 9 ( 150) has a structure different from that of the two connecting members 168. That is, the individual connecting member 218 includes a head 214 and a leg 216 .

Here, the leg portion 216 is bent at one time with respect to the head portion 214 toward the individual yoke legs (1 in FIG. 13 ). The head 214 and the leg 216 form an 'L' shape. Accordingly, in the two leg parts 216 , the individual leg parts 216 have a plurality of connection holes 212 formed in a row along the longitudinal direction of the individual leg parts 216 in the individual leg parts 216 .

11 is a perspective view showing the bracket of the third embodiment in the valve control device of the present invention. In this case, Fig. 10 is explained with reference to Figs. 3 to 9 and Fig. 13 .

11, the bracket 250 is similar to the bracket 150 of FIGS. 3 to 9, but the two connecting members 238 in the bracket 250 are, 150) has a structure different from that of the two connecting members 168. That is, the individual connecting member 238 includes a head 234 and a leg 236 .

The leg portion 236 is exposed from the individual grooves 131 of the swivel 145 , and extends straight from the head 234 , when considering FIGS. 7 and 11 , in the longitudinal direction of the leg portion 236 . A plurality of connection holes 232 arranged in one line in the leg portion 234 along

12 is a perspective view showing the bracket of the fourth embodiment in the valve control device of the present invention. In this case, Fig. 10 is explained with reference to Figs. 3 to 9 and Fig. 13 .

12, the bracket 270 is similar to the bracket 150 of FIGS. 3 to 9, but the two connecting members 238 of the bracket 270 are, 150) has a structure different from that of the two connecting members 168. That is, the individual connecting members 268 include a head 264 and a leg portion 266 .

The leg portion 266 is exposed from the individual grooves 131 of the swivel 145, and extends straight from the head 264, in the longitudinal direction of the leg portion 266, when considering FIGS. 7 and 12 . A plurality of connection holes 262 are arranged in three rows in the leg portion 264 along the line, and the screw member 249 is inserted into one connection hole 262 in the leg portion 266 .

90; lower adapter, 100; interlock body
110; upper adapter, 190; Brackets
200; valve control unit

Claims (17)

To manipulate the rotation of the yoke sleeve and the stem projecting from the yoke body through the valve control device on the valve body of the valve, the lower part surrounding the yoke sleeve and the stem on the valve body in the valve control device After sequentially stacking the adapter, the interlock body, and the upper adapter, the lower adapter, the interlock body, and the upper adapter are fixed to the valve body,
a quadrangular-shaped suspension member surrounding the lower adapter and coupled to the interlock body;
two connecting members positioned in a band shape at respective edges at both edges of the suspension member and partially inserted into the suspension member;
a rotating rod for rotationally fixing the individual connecting members to the suspension member; and
and a stopper having a semi-ring shape that is inserted into the suspension member and fitted to the rotating rod,
The two connecting members are
A bracket for a valve control device, which is guided oppositely between the valve body and two yoke legs positioned between the yoke body and is connected by a screw member and surrounds the individual yoke legs together with the screw member.
According to claim 1,
The suspension member is
first and second accommodating tubes having a cylindrical shape positioned on lower and upper sides of the suspension member in the central region of the suspension member; and
It is located on both sides of the first accommodation tube and includes a rotating platform integrally formed with the first accommodation tube,
The second receiving tube,
A bracket for a valve control device coupled to the interlock body.
3. The method of claim 2,
The first accommodation tube and the second accommodation tube,
Inserting the lower adapter in the first accommodating tube and the second accommodating tube to surround the lower adapter,
A bracket for a valve control device, exposing the lower adapter below the second receiving tube.
3. The method of claim 2,
The first receiving tube,
The bracket of the valve control device having a larger inner diameter than the second receiving tube.
3. The method of claim 2,
The swivel is
The bracket of the valve control device, which is integrally formed with the first accommodating pipe through the round shape while having a round shape near the first accommodating pipe and an angular shape away from the first accommodating pipe.
3. The method of claim 2,
The swivel is
When having an angled shape at the end far from the first receiving tube,
At the end of the turntable, it has two grooves that are recessed from the end face toward the inside of the turntable to open the lower side of the turntable,
a first dividing wall between the two grooves in the rotary table, and a second dividing wall starting from the first dividing wall and passing through the individual grooves;
The individual grooves of the swivel are
A bracket for a valve control device for accommodating the rotating rod horizontally spanning the first dividing wall and the second dividing wall, and the individual connecting member penetrating the rotating rod.
7. The method of claim 6,
The first partition wall and the second partition wall,
When viewed from the cross-section of the rotary table, it has a fitting hole through which the first partition wall and the second partition wall pass in one direction of the cross-section,
The fitting hole of the first partition wall and the second partition wall,
A bracket for a valve control device for inserting the rotary rod to pass through the individual connecting member.
8. The method of claim 7,
The second partition wall,
When viewed from the cross-section of the rotary table, it has a slit communicating with the fitting hole of the second partition wall through the second partition wall along the other direction perpendicular to the one direction of the cross-section,
The slit of the second partition wall,
A bracket of a valve control device, wherein the stopper is inserted and brought into contact with the rotating rod.
7. The method of claim 6,
The two connecting members are
a head and a leg portion in the individual connecting member;
passing the screw member through the leg portion in the individual connecting member;
The head and leg parts,
A bracket for a valve control device that is integrally formed with each other and moves relative to the rotating rod in the individual grooves of the swivel.
10. The method of claim 9,
the head,
It is inserted into the individual groove of the rotary table and is spirally coupled to the rotary rod by penetrating the rotary rod,
A bracket of a valve control device that makes a spiral motion along the rotating rod when the rotating rod is rotated in the individual grooves of the rotating table.
10. The method of claim 9,
The leg part,
exposed from the individual grooves of the swivel;
It forms a predetermined angle with the head and is located closer to the individual yoke leg than the head,
having a plurality of connection holes arranged in a row in the leg part along the length direction of the leg part;
A bracket for a valve control device for inserting the screw member into one connection hole in the leg portion.
12. The method of claim 11,
The leg part,
A bracket for a valve control device that is bent twice or bent once with respect to the head and towards the individual yoke legs.
10. The method of claim 9,
The leg part,
exposed from the individual grooves of the swivel;
extending straight from the head;
having a plurality of connection holes arranged in one or more rows in the leg part along the longitudinal direction of the leg part;
A bracket for a valve control device for inserting the screw member into one connection hole in the leg portion.
10. The method of claim 9,
In the two leg parts, individual leg parts,
When the individual leg portion has a plurality of connection holes formed of one or more lines in the longitudinal direction of the individual leg portion,
The screw member is
It includes a female screw and a male screw connecting the two leg parts,
The female screw and the male screw are
A bracket for a valve control device, which has a helical engagement between the two legs.
15. The method of claim 14,
The female thread is
A first bolt head caught in one connection hole of one leg in the two leg parts, and a cylindrical screw having a thread on an inner circumferential surface between the two leg parts,
The male screw is
A second bolt head caught in one connection hole of the other leg in the two leg parts, and a cylindrical screw having a thread on the outer circumferential surface between the two leg parts,
The cylindrical screw and the cylindrical screw,
A bracket for a valve control device, which is male and female helically coupled between the two leg parts.
7. The method of claim 6,
the first partition wall and the second partition wall;
a fitting hole penetrating the first and second partition walls along the arrangement direction of the first partition wall and the second partition wall, and the arrangement direction of the first partition wall and the second partition wall; When having a slit communicating with the fitting hole in the second dividing wall along a direction forming a right angle,
The rotating rod is
is inserted into the fitting hole of the first partition wall and the second partition wall in the individual grooves of the rotary table to perform a helical coupling with the first partition wall and the second partition wall;
and a seating groove on the outer circumferential surface of the rotating rod so as to be exposed to the slit of the second dividing wall in the second dividing wall,
A bracket of a valve control device for seating the stopper inserted through the slit of the second dividing wall in the seating groove of the rotating rod.
7. The method of claim 6,
the first partition wall and the second partition wall;
a fitting hole penetrating the first and second partition walls along the arrangement direction of the first partition wall and the second partition wall, and the arrangement direction of the first partition wall and the second partition wall; While having a slit communicating with the fitting hole in the second dividing wall along a direction forming a right angle,
the rotating rod,
When it is fitted into the fitting groove of the first partition wall and the second partition wall and has a seating groove on an outer peripheral surface exposed to the slit of the second partition wall,
The stopper is
is inserted into the second partition wall through the slit of the second partition wall and is in contact with the rotary rod;
When the rotating rod is rotated, it is caught in the seating groove of the rotating rod to prevent the separation of the rotating rod from the second separating wall while protruding relative to the rotating rod.

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