KR102363334B1 - Flow control valve and water supply distributor having the same - Google Patents

Abstract

According to the present invention, a flow control valve comprises: a valve housing including an inlet, an outlet, a valve seat having an orifice, and a connector having an opening facing the orifice; a hollow valve cap fixed to the connector and having an inner thread provided on an inner side thereof; a valve plug movably disposed inside the valve housing to open and close the orifice, and having an entrance, an accommodating groove, and an exit; a movable post having an installation groove provided at one end thereof, screwed to the valve cap, and coupled to the valve plug to move the valve plug by screw motion; a valve stem having a valve stem body disposed on the installation groove of the movable post, a valve stem head inserted into the entrance of the valve plug and connected to an end of the valve stem body so that an end thereof protrudes toward an inflow passage side of the valve housing, and a valve stem passage formed on a side of the valve stem head to extend in the movement direction of the valve stem head so that an inflow passage and the accommodating groove can be connected to enable the flow of fluid; and a spring disposed on the installation groove to apply an elastic force in a direction in which the valve stem head protrudes toward the inflow passage with respect to the valve stem. Therefore, the flow rate of the fluid flowing to a fluid outflow side can be maintained uniformly.

Description

Flow control valve and hot water distributor including same

The present invention relates to a flow control valve, and more particularly, to a flow control valve capable of maintaining a uniform flow rate of a fluid, and a water supply and hot water distributor including the same.

In residential facilities such as single-family houses and apartments, a water supply system that supplies water from tap water or boilers to bathrooms, verandas, and sinks is installed.

Currently, the most common water supply method applied to residential facilities is a method of distributing water supplied through a supply pipe from a water supply source to a sink, a shower, a sink, a toilet, a washing faucet, etc.

The hot water distributor is usually installed in a place such as a lower part of a sink installed in a kitchen, a bathroom ceiling, or a bathroom floor. The hot water distributor includes a distribution pipe connecting the supply pipe and the plurality of branch pipes, and functions to distribute water introduced through the supply pipe to the plurality of branch pipes. The water flowing into the water supply distributor is supplied to the places where water is needed within each household, such as sinks, showers, washbasins, toilets, and washing faucets, through branch pipes connected to the water supply distributors.

In the process of distributing the water supplied from the water supply source to the user through the hot water distributor, the flow rate may decrease in some of the users as the number of the users from which the water is discharged changes. That is, when water is used in only one place of use, the water may be discharged at a pre-designed flow rate at that place of use. However, when water is discharged from one place of use while water is discharged from another place, the water pressure inside the distribution pipe drops and the flow rate at the place of use in use decreases. Changes in the flow rate in these places of use cause inconvenience in use.

A change in the flow rate of a fluid distributed in various other fluid devices or fluid supply systems other than the water supply system using the hot water distributor may lead to various problems. Therefore, there is a need for a device for maintaining a uniform flow rate of the fluid even when the pressure of the supplied fluid is changed.

Laid-Open Patent Publication No. 2008-0112713 (2008. 12. 26.)

The present invention has been devised in view of the above, and a flow control valve capable of uniformly maintaining the flow rate of a fluid flowing to a fluid outlet side even if the fluid pressure on the fluid inlet side changes, and a water supply and hot water distributor including the same intended to provide

Objects of the present invention are not limited to those described above, and other objects not mentioned will be clearly understood by those skilled in the art from the following description.

The flow control valve according to the present invention for achieving the object as described above, includes an inlet portion having an inlet passage through which a fluid is introduced, an outlet portion having an outlet passage through which a fluid is discharged, and the inlet passage and the outlet passage. a valve housing including a valve seat portion provided with an orifice for connecting, and a connection portion provided with an opening facing the orifice; a hollow valve cap fixed to the connection part and having an internal threaded part therein; an inlet formed at one end so as to be movably disposed inside the valve housing to open and close the orifice and open toward the inlet flow path, a receiving groove opened outwardly from the other end to be connected to the inlet, and the receiving groove a valve plug having an outlet connected to the inlet through An installation groove facing the receiving groove of the valve plug is provided at one end, and a movable post screw portion corresponding to the inner screw portion of the valve cap is provided on the outside to be screwed to the valve cap, and the valve plug is moved by screw movement. a movable post coupled to the valve plug to enable it; a valve stem body disposed in an installation groove of the movable post to move in a direction parallel to the movement direction of the valve plug; The valve stem head connected to the end of the body, the inflow passage of the valve housing, and the receiving groove of the valve plug extend to the side of the valve stem head in the moving direction of the valve stem head so that the fluid can flow. a valve stem having a valve stem passage formed therein; and a spring disposed in the installation groove of the movable post to apply an elastic force to the valve stem in a direction to protrude the valve stem head toward the inflow passage.

The valve stem passage may have a shape in which its width is gradually enlarged from the inflow passage of the valve housing toward the receiving groove of the valve plug.

A hook portion may be provided on the valve plug, and a hook portion capable of being engaged with the locking portion may be provided at one end of the movable post.

The valve cap includes a valve cap mark portion provided with a plurality of graduations spaced apart along the periphery of the inner screw portion, and a tool coupling groove into which an operation tool for rotating the movable post can be inserted into the other end of the movable post; , A movable post mark portion capable of indicating a scale provided in the valve cap mark portion according to the rotation of the movable post may be provided.

A plurality of the valve stem passages may be spaced apart from each other on the side of the valve stem head.

On the other hand, the hot water supply distributor according to the present invention for achieving the object as described above, by connecting a supply pipe for supplying water and a plurality of branch pipes for flowing the water to a place of use, the water supplied through the supply pipe is separated from the water supply pipe. In the hot water supply distributor for distributing to a plurality of branch pipes, an inlet to which the supply pipe is connected, a distribution channel through which water is introduced, and water flowing into the distribution channel can be branched into the plurality of branch pipes. a distribution pipe provided with a plurality of branches connected to the distribution passage so as to be connected to each other; and a flow rate control valve connecting the plurality of branches and the plurality of branch pipes, respectively, to control the flow rate of the water passing through the branch to flow to the branch pipe. An inlet portion having an inlet passage through which water is introduced, an outlet portion having an outlet passage through which water is discharged, a valve seat portion provided with an orifice connecting the inlet passage and the outlet passage, and an opening facing the orifice are provided. A valve housing including a connection part, a hollow valve cap fixed to the connection part and provided with an internal thread therein, and movably disposed inside the valve housing to open and close the orifice, toward the inflow passage a valve plug having an inlet formed at one end to be opened, a receiving groove opened outwardly from the other end to be connected to the inlet, and an outlet connected to the inlet through the receiving groove; A facing installation groove is provided, and a movable post screw portion corresponding to the inner screw portion of the valve cap is provided on the outside to be screwed to the valve cap, and coupled to the valve plug so as to move the valve plug by screwing motion. a movable post, a valve stem body disposed in an installation groove of the movable post so as to move in a direction parallel to the movement direction of the valve plug; The valve stem head is connected to the end of the valve stem body so as to be connected to the inlet flow path of the valve housing and the receiving groove of the valve plug to the side of the valve stem head so that water can flow. A valve stem having a valve stem passage extending in the movement direction, and a spring disposed in the installation groove of the movable post to apply an elastic force in a direction to project the valve stem head toward the inflow passage with respect to the valve stem. include

As described above, in the flow control valve according to the present invention, the valve stem is automatically adjusted according to the fluid pressure on the fluid inlet side, so that even if the fluid pressure on the fluid inlet side changes, the flow rate of the fluid flowing to the fluid outlet side is uniformly can keep

In addition, the hot water distributor according to the present invention can supply water flowing into the distribution pipe at a constant flow rate to each branch pipe even if the water pressure in the distribution pipe connecting the supply pipe and the plurality of branch pipes changes.

Effects of the present invention are not limited to those described above, and other effects not mentioned will be clearly understood by those skilled in the art from the following description.

1 is a perspective view showing a water supply hot water distributor according to an embodiment of the present invention.
2 is a perspective view showing a water supply hot water distributor according to an embodiment of the present invention.
3 is a perspective view illustrating a flow control valve according to an embodiment of the present invention.
4 is a plan view showing a flow control valve according to an embodiment of the present invention.
5 is a side cross-sectional view showing a flow control valve according to an embodiment of the present invention.
6 and 7 are exploded perspective views showing a flow rate control valve according to an embodiment of the present invention.
8 is a cross-sectional view showing an exploded flow control valve according to an embodiment of the present invention.
9 and 10 are side cross-sectional views for explaining the operation of the flow control valve according to an embodiment of the present invention.
11 and 12 are front cross-sectional views for explaining the operation of the flow control valve according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings, embodiments of the present invention will be described in detail so that those of ordinary skill in the art to which the present invention pertains can easily implement them. The present invention may be embodied in several different forms and is not limited to the embodiments described herein.

In describing the present invention, the size or shape of the components shown in the drawings may be exaggerated or simplified for clarity and convenience of explanation.

In addition, terms specifically defined in consideration of the configuration and operation of the present invention may vary depending on the intention or custom of the user or operator. These terms should be interpreted as meanings and concepts consistent with the technical spirit of the present invention based on the contents throughout this specification.

In order to clearly explain the present invention, the description of parts not related to the technical idea of the present invention is omitted, and the same reference numerals are given to the same or similar elements throughout the specification.

In addition, in various embodiments, components having the same configuration will be described using the same reference numerals only in the representative embodiment, and only configurations different from the representative embodiment will be described in other embodiments.

Throughout the specification, when a part is "connected" to another part, it includes not only the case where it is "directly connected" but also the case where it is "indirectly connected" with another member interposed therebetween. In addition, when a part "includes" a certain component, this may mean further including other components rather than excluding other components unless otherwise stated.

As shown in the drawing, the hot water supply distributor 100 according to an embodiment of the present invention is provided in a water supply system that supplies water supplied from tap water or a boiler to a bathroom, a balcony, a sink, etc. It can be distributed for use. The water supply distributor 100 includes a distribution pipe 110 connecting a supply pipe 10 for flowing water supplied from a water supply source and a plurality of branch pipes 20 for flowing water to a use point, and a distribution pipe 110 ) and a plurality of flow control valves 130 for connecting the plurality of branch pipes 20, respectively.

A plurality of distribution pipes 110 may be provided. As shown in FIG. 1 , when two distribution pipes 110 are provided, one may be used for water supply and the other for hot water supply. However, all of them may be used for water supply or hot water supply, and the specific use of the distribution pipe 110 may be variously changed.

The distribution pipe 110 is provided with a distribution flow path 111 , an inlet 112 , and a plurality of branch ports 113 . The distribution passage 111 is provided inside the distribution tube 110 so that water supplied through the supply tube 10 can be introduced. The inlet 112 is connected to the distribution passage 111 to introduce water into the distribution passage 111 . The supply pipe 10 is connected to the inlet 112 so that water supplied through the supply pipe 10 may flow into the distribution passage 111 through the inlet 112 . The supply pipe 10 may be connected to the distribution pipe 110 through a pipe connection mechanism 120 coupled to the distribution pipe 110 . The plurality of branch ports 113 are connected to the distribution passage 111 to discharge the water of the distribution passage 111 . A branch pipe 20 is connected to each of the plurality of branch ports 113 . The branch pipe 20 may be connected to the distribution pipe 110 through a pipe connection mechanism 120 coupled to the distribution pipe 110 and the flow rate control valve 130 .

In the drawing, an inlet 112 and a branch 113 are provided in the distribution pipe 110 so that the supply pipe 10 is connected in parallel with the distribution pipe 110 and the branch pipe 20 is vertically connected to the distribution pipe 110 . Although it is shown that each is provided, the position or number of the inlet 112 and the branch 113 on the distribution pipe 110 may be variously changed.

In addition, as the pipe connecting mechanism 120 , a commonly known pipe connecting mechanism may be used, the pipe connecting mechanism may be omitted, and the distribution pipe 110 and the flow control valve 130 may be directly connected to each other by welding or the like. In addition, the connection structure of the distribution pipe 110 and the supply pipe 10 or the connection structure of the distribution pipe 110 and the branch pipe 20 may be variously changed.

The flow control valve 130 is disposed between the distribution pipe 110 and the branch pipe 20 to control the flow rate of water flowing from the distribution pipe 110 to the branch pipe 20 . The water pressure of the distribution passage 111 in the distribution pipe 110 may change due to various causes. For example, when water is discharged through another branch 113 while water is discharged through one of the plurality of branch ports 113 , the water pressure in the distribution passage 111 is lowered. In this case, there may be a problem in that the flow rate of water discharged through one branch 113 is reduced. The flow rate control valve 130 may uniformly maintain the flow rate of water discharged through the branch port 113 even if the water pressure of the distribution passage 111 changes. The flow control valve 130 includes a valve housing 131 , a valve cap 148 , a valve plug 158 , a movable post 164 , and a valve stem 176 .

The valve housing 131 includes an inlet 132 through which water is introduced, an outlet 136 through which water is discharged, and a connection unit 143 to which the valve cap 148 is coupled. The inlet 132 is connected to the branch 113 of the distribution pipe 110 , and an inlet flow path 134 through which water is introduced is provided inside the inlet 132 . The outlet 136 is connected to the branch pipe 20 , and an outlet flow path 138 through which water is discharged is provided inside the outlet 136 .

A branch pipe connecting mechanism 190 for connecting the branch pipe 20 is installed at the outlet 136 . The branch pipe connection mechanism 190 fixes the end of the branch pipe 20 that has entered the inside of the outlet 136 . The branch pipe connection mechanism 190 includes a grip ring 191 , an O-ring 192 , and a fixing cap 193 . The grip ring 191 is pressed against the outer surface of the branch pipe 20 that enters the outlet 136 to prevent the branch pipe 20 from being separated from the outlet 136 . The O-ring 192 is in contact with the outer surface of the branch pipe 20 and seals between the outlet part 136 and the branch pipe 20 . The fixing cap 193 has a hollow structure through which the branch pipe 20 can pass, and is screwed to the outlet thread 137 provided inside the outlet 136, thereby forming a grip ring 191 and The O-ring 192 is fixed.

In addition to the structure shown, the branch pipe connection mechanism 190 may be changed to various other structures capable of fixing the branch pipe 20 to the valve housing 131 .

Between the inlet 132 and the outlet 136 inside the valve housing 131 , the valve seat unit 140 provided with an orifice 141 connecting the inlet flow path 134 and the outlet flow path 138 is provided. . The connection part 143 is provided with an opening 144 facing the orifice 141 . A connection part screw part 145 for coupling of the valve cap 148 and a locking protrusion 146 are provided inside the connection part 143 .

The structure of the valve housing 131 is not limited to the illustrated one and may be variously changed.

A hollow valve cap 148 is coupled to the connecting portion 143 . An external threaded part 149 corresponding to the connection part threaded part 145 of the connection part 143 is provided on the outside of the valve cap 148, and an internal threaded part for coupling the movable post 164 on the inside of the valve cap 148 ( 150) is provided. A valve cap mark portion 151 is provided at an outer end of the valve cap 148 . The valve cap mark part 151 has a plurality of scales spaced apart along the circumference of the internal screw part 150 . The scale may be displayed in numbers as shown, or in various other formats. The scale may indicate the opening degree of the flow control valve 130 .

The valve cap 148 is screwed to the connection portion 143 to cover the opening 144 of the connection portion 143 . An O-ring 153 is interposed between the connection part 143 and the valve cap 148 to seal between the connection part 143 and the valve cap 148 . In addition, a gasket 155 is interposed between the inner end of the valve cap 148 and the locking protrusion 146 of the connecting portion 143 . A gasket through hole 156 through which the movable post 164 can pass is provided inside the gasket 155 .

The specific structure of the valve cap 148 may be variously changed. In addition, the valve cap 148 may be securely coupled to the valve housing 131 in a screw coupling method as shown, or in various other methods.

The valve plug 158 is movably disposed inside the valve housing 131 to open and close the orifice 141 . The valve plug 158 may be in close contact with the valve seat 140 to close the orifice 141 . And as the valve plug 158 moves away from the valve seat 140 , the opening degree of the flow control valve 130 increases, and at this time, the flow rate of water passing through the flow control valve 130 increases.

The valve plug 158 is provided with an inlet 159 , a receiving groove 160 , and an outlet 161 . The inlet 159 is formed at one end of the valve plug 158 to be opened toward the inflow passage 134 so that water can be introduced. The receiving groove 160 is opened outwardly from the other end of the valve plug 158 so as to be connected to the inlet 159 . A plurality of outlets 161 are spaced apart from each other on the side of the valve plug 158 so as to be connected to the inlet 159 through the receiving groove 160 . Water flowing into the inlet 159 from the inlet channel 134 of the valve housing 131 may flow through the receiving groove 160 and the outlet 161 sequentially to the outlet channel 138 .

The valve plug 158 has a locking portion 162 for engagement with the movable post 164 . The locking part 162 is provided at a portion where the outlet 161 is formed.

The structure of the valve plug 158 is not limited to the illustrated one and may be variously changed.

The movable post 164 is engaged with the valve plug 158 to move the valve plug 158 . The movable post 164 is a post body 165 having a movable post threaded part 166 corresponding to the internal threaded part 150 of the valve cap 148 provided on the outside thereof, and the post body (158) to be coupled with the valve plug 158. It includes a plurality of hook portions 172 provided at one end of the 165).

The post body 165 is capable of threading relative to the valve cap 148 by engaging the movable post threads 166 with the internal threads 150 of the valve cap 148 . An O-ring 174 is interposed between the post body 165 and the valve cap 148 to seal between the post body 165 and the valve cap 148 . An installation groove 167 facing the receiving groove 160 of the valve plug 158 is provided at one end of the post body 165 . And the other end of the post body 165 is provided with a tool coupling groove 168 and a movable post mark portion 170 . An operation tool (not shown) for rotating the movable post 164 may be detachably coupled to the tool coupling groove 168 . The user may screw the movable post 164 by inserting the manipulation tool into the tool coupling groove 168 and manipulating the manipulation tool. The movable post mark 170 may indicate a scale marked on the valve cap mark 151 as the movable post 164 rotates.

A plurality of hook portions 172 are provided to protrude from one end of the post body 165 so as to be engaged with the hook portion 162 of the valve plug 158 . The movable post 164 may be simply assembled with the valve plug 158 through the plurality of hook portions 172 . In addition, by engaging the plurality of hooks 172 with the plurality of locking portions 162 , the movable post 164 may maintain a solidly coupled state with the valve cap 148 .

The structure of the movable post 164 is not limited to the illustrated one and may be variously changed.

The valve stem 176 includes a valve stem body 177 and a valve stem head 178 connected to an end of the valve stem body 177 . The valve stem body 177 is inserted into the installation groove 167 to move linearly in the installation groove 167 of the movable post 164 . The width of the valve stem head 178 is greater than the width of the valve stem body 177 . The valve stem head 178 may be inserted into the inlet 159 of the valve plug 158 so that an end thereof may protrude toward the inlet flow path 134 of the valve housing 131 . In addition, the valve stem head 178 may be pushed into the receiving groove 160 of the valve plug 158 by the pressure of the water flowing into the inflow passage 134 .

A valve stem flow path 179 connected to the receiving groove 160 of the valve plug 158 is provided inside the valve stem head 178 , that is, between the valve stem body 177 and the valve stem head 178 . In addition, a valve stem passage 180 through which water flowing into the inflow passage 134 can pass is formed on the side of the valve stem head 178 in the moving direction of the valve stem head 178 . The valve stem passage 180 may introduce water from the inflow passage 134 of the valve housing 131 into the valve stem passage 179 . Therefore, after the water of the inflow passage 134 flows into the receiving groove 160 through the valve stem passage 180 and the valve stem passage 179 , it can flow into the outlet passage 138 through the outlet 161 . have. The valve stem passage 180 has a shape in which the width is gradually enlarged from the inflow passage 134 toward the receiving groove 160 . The valve stem passage 180 is provided in plurality at the side of the valve stem head 178 .

Although the drawing shows that the valve stem passage 180 has an inverted triangle shape, the shape of the valve stem passage 180 may be variously changed. In addition, the number of valve stem passages 180 may be variously changed.

The valve stem 176 is elastically supported by a spring 185 . The spring 185 is disposed in the installation groove 167 of the movable post 164 to apply an elastic force in a direction to protrude the valve stem head 178 toward the inflow passage 134 with respect to the valve stem 176 . If the water pressure of the water in the inflow passage 134 is not greater than a certain size, the valve stem 176 maintains a state in which the valve stem head 178 protrudes toward the inflow passage 134 due to the elastic force of the spring 185. . And when the water pressure of the inlet flow path 134 is equal to or greater than the sum of the pressure of the outlet flow path 138 and the elastic force of the spring 185, the valve stem 176 moves while elastically deforming the spring 185 to the valve stem head ( 178 is pushed toward the receiving groove 160 .

As such, the valve stem 176 can move linearly by the water pressure of the inflow passage 134 and the elastic force of the spring 185 , and accordingly, the valve stem head 178 in the inlet 159 of the valve plug 158 . position will change. When the position of the valve stem head 178 is changed, the area of the portion of the valve stem passage 180 placed on the inflow passage 134 is changed. When the water pressure of the inflow passage 134 increases and the valve stem head 178 is pushed into the receiving groove 160 , the area of the portion of the valve stem passage 180 placed on the inflow passage 134 decreases, at this time An area through which water can pass through the valve stem passage 180 in the inflow passage 134 is reduced. Furthermore, since the valve stem passage 180 has an inverted triangular shape, the area through which water can pass through the valve stem passage 180 depends on the distance that the valve stem head 178 is pushed into the receiving groove 160. decreases sharply. Conversely, when the water pressure of the inflow passage 134 decreases and the valve stem head 178 is pushed toward the inflow passage 134 by the spring 185 , the area of the portion of the valve stem passage 180 placed on the inflow passage 134 is increased. increases, and the area through which water can pass through the valve stem passage 180 also increases.

The structure of the valve stem 176 is not limited to the one shown and may be variously changed.

As shown in FIG. 9 , the flow control valve 130 may move the valve plug 158 according to the screw movement of the movable post 164 when the user rotates the movable post 164 . When the valve plug 158 is spaced apart from the valve seat 140 and the orifice 141 is opened, the water of the inlet flow path 134 may flow toward the outlet flow path 138 through the orifice 141 . In addition, the opening degree of the orifice 141 may be changed according to the separation distance at which the valve plug 158 is spaced apart from the valve seat 140 , so that the flow amount of water passing through the orifice 141 may be adjusted. The user sees the valve cap mark portion 151 of the valve cap 148 and the movable post mark portion 170 of the movable post 164 and adjusts the rotation angle of the movable post 164 to determine the opening degree of the orifice 141 You can adjust it to the value you need.

In addition, as shown in FIGS. 9 to 12 , some of the water in the inflow passage 134 may flow to the outlet passage 138 through the valve stem passage 180 of the valve stem 176 .

On the other hand, the position of the valve plug 158 is changed according to the water pressure inside the distribution pipe 110 . For example, when the water pressure in the distribution passage 111 in the distribution pipe 110 is high, the water pressure in the inflow passage 134 is also high, and as shown in FIGS. 10 and 11 , the valve by the water pressure in the inflow passage 134 is The stem head 178 is pushed into the receiving groove 160 of the valve plug 158 . At this time, the area of the portion of the valve stem passage 180 placed on the inflow passage 134 is reduced, so that the area through which water can pass through the valve stem passage 180 in the inflow passage 134 is reduced. In this case, since the water pressure of the inflow passage 134 is high, the flow velocity of the water passing through the valve stem passage 180 appears quickly.

On the other hand, when the water pressure in the distribution passage 111 is lowered due to the reason that water is discharged through another flow control valve 130 connected to the distribution pipe 110, the water pressure in the inlet passage 134 is also lowered, as shown in FIG. As shown, the valve stem head 178 is pushed toward the inflow passage 134 by the elastic force of the spring 185 . At this time, the area of the portion of the valve stem passage 180 placed on the inflow passage 134 increases, so that the area through which water can pass through the valve stem passage 180 also increases. In this case, the flow rate of water passing through the valve stem passage 180 is slow due to the low water pressure of the inlet passage 134 , but since the area through which the water passes through the valve stem passage 180 increases, the water flows out from the inlet passage 134 . The flow rate of water flowing into the flow path 138 does not decrease.

As such, in the flow control valve 130, the valve stem 176 is automatically adjusted according to the water pressure of the inlet flow path 134 into which water is introduced, so that even if the water pressure of the inflow flow path 134 changes, it flows toward the outlet flow path 138. The water flow rate can be maintained uniformly.

And the hot water distributor 100 according to an embodiment of the present invention distributes water flowing into the distribution pipe 110 even if the water pressure in the distribution pipe 110 changes due to the action of the flow control valve 130 as described above. It can be supplied at a constant flow rate to each branch pipe 20 connected to 110).

Although preferred examples of the present invention have been described above, the scope of the present invention is not limited to the forms described and illustrated above.

For example, the flow control valve 130 according to the present invention is installed in various fluid devices or fluid supply systems other than the water supply and hot water distributor 100 as shown in the figure to flow to the fluid outlet side even if the fluid pressure on the fluid inlet side changes. The flow rate of the fluid can be maintained uniformly.

While the present invention has so far been shown and described in connection with preferred embodiments for illustrating the principles of the invention, the invention is not limited to the construction and operation as so shown and described, and is not intended to be limited by the scope of the appended claims. It will be understood by those skilled in the art that many changes and modifications can be made to the present invention without departing from the spirit and scope of the present invention.

100: water supply hot water distributor 110: distribution pipe
111: distribution flow path 130: flow control valve
131: valve housing 134: inlet flow path
138: outflow flow path 140: valve seat portion
141: orifice 143: connection part
148: valve cap 158: valve plug
164: movable post 165: post body
172: hook portion 176: valve stem
177: valve stem body 178: valve stem head
179: valve stem flow path 180: valve stem passage
185: spring 190: branch pipe connection mechanism

Claims (10)

An inlet portion having an inlet passage through which a fluid flows in, an outlet portion having an outlet passage through which the fluid is discharged, a valve seat portion provided with an orifice connecting the inlet passage and the outlet passage, and an opening facing the orifice are provided. a valve housing including a connection;
a hollow valve cap fixed to the connection part and having an internal threaded part therein;
an inlet formed at one end to be movably disposed inside the valve housing to open and close the orifice, to be opened toward the inflow passage, a receiving groove to be opened outwardly from the other end to be connected to the inlet; a valve plug having an outlet connected to the inlet through
An installation groove facing the receiving groove of the valve plug is provided at one end, and a movable post screw portion corresponding to the inner screw portion of the valve cap is provided on the outside to be screwed to the valve cap, and the valve plug is moved by screw movement. a movable post coupled to the valve plug to enable it;
a valve stem body disposed in an installation groove of the movable post to move in a direction parallel to the movement direction of the valve plug; The valve stem head connected to the end of the body, the inflow passage of the valve housing, and the receiving groove of the valve plug extend to the side of the valve stem head in the moving direction of the valve stem head so that the fluid can flow. a valve stem having a valve stem passage formed therein; and
and a spring disposed in the installation groove of the movable post to apply an elastic force to the valve stem in a direction to protrude the valve stem head toward the inflow passage.
According to claim 1,
The valve stem passage is a flow control valve, characterized in that the width of the valve housing inflow passage toward the receiving groove side of the valve plug is formed in a shape that gradually enlarges.
According to claim 1,
The valve plug is provided with a locking portion, and a hook portion capable of engaging the locking portion is provided at one end of the movable post.
According to claim 1,
The valve cap includes a valve cap mark portion provided with a plurality of graduations spaced apart along the circumference of the inner screw portion,
At the other end of the movable post, a tool coupling groove into which an operation tool for rotating the movable post can be inserted, and a movable post mark portion capable of indicating a scale provided in the valve cap mark portion according to the rotation of the movable post. Flow control valve, characterized in that provided.
According to claim 1,
A plurality of the valve stem passages are spaced apart from each other on the side of the valve stem head.
In the hot water supply distributor for distributing water supplied through the supply pipe to the plurality of branch pipes by connecting a supply pipe for supplying water and a plurality of branch pipes for flowing the water to a place of use,
An inlet to which the supply pipe is connected, a distribution passage through which water is introduced, and a plurality of branch ports connected to the distribution passage to branch the water flowing into the distribution passage into the plurality of branch pipes are provided. distribution pipe; and
and a flow rate control valve connecting the plurality of branches and the plurality of branch pipes, respectively, to control the flow rate of water passing through the branch to flow to the branch pipe;
The flow control valve is
An inlet portion having an inlet passage through which water is introduced, an outlet portion having an outlet passage through which water is discharged, a valve seat portion provided with an orifice connecting the inlet passage and the outlet passage, and an opening facing the orifice are provided. a valve housing including a connection part;
A hollow valve cap fixed to the connection part and having an internal threaded part therein;
an inlet formed at one end to be movably disposed inside the valve housing to open and close the orifice, to be opened toward the inflow passage, a receiving groove to be opened outwardly from the other end to be connected to the inlet; a valve plug having an outlet connected to the inlet through
An installation groove facing the receiving groove of the valve plug is provided at one end, and a movable post screw portion corresponding to the inner screw portion of the valve cap is provided on the outside to be screwed to the valve cap, and the valve plug is moved by screw movement. a movable post coupled to the valve plug to enable
a valve stem body disposed in an installation groove of the movable post to move in a direction parallel to the movement direction of the valve plug; The valve stem head connected to the end of the body, the inflow passage of the valve housing, and the receiving groove of the valve plug are extended to the side of the valve stem head in the moving direction of the valve stem head so that water can flow. a valve stem having a valve stem passage formed therein;
and a spring disposed in the installation groove of the movable post to apply an elastic force to the valve stem in a direction to protrude the valve stem head toward the inflow passage.
7. The method of claim 6,
The valve stem passage has a shape that is gradually enlarged from the inflow passage of the valve housing toward the receiving groove of the valve plug.
7. The method of claim 6,
The valve plug is provided with a locking part, and a hook part engageable with the locking part is provided at one end of the movable post.
7. The method of claim 6,
The valve cap includes a valve cap mark portion provided with a plurality of graduations spaced apart along the circumference of the inner screw portion,
At the other end of the movable post, a tool coupling groove into which an operation tool for rotating the movable post can be inserted, and a movable post mark portion capable of indicating a scale provided in the valve cap mark portion according to the rotation of the movable post. Water supply hot water distributor, characterized in that provided.
7. The method of claim 6,
A plurality of the valve stem passages are spaced apart from each other on the side of the valve stem head.

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