KR20110084465A - Sprinkler - Google Patents

Abstract

PURPOSE: A sprinkler is provided to discharge all fire-extinguishing water within piping in the state that a sprinkler head is combined. CONSTITUTION: A sprinkler comprises: piping in which fire-extinguishing water is provided; a sprinkler head(200) which is combined with the piping through a coupler; an opening and shutting block(240) in which a flow path for passing fire-extinguishing water is formed; and a drain member(270) which is rotationally installed in the sprinkler head and communicates with the flow path of opening and shutting block and in which a flow path discharging the fire-extinguishing water to the outside is formed. The drain member includes an axis unit(271) and a head unit(275).

Description

Sprinkler {sprinkler}

The present invention relates to a sprinkler for firefighting, and more particularly, to a sprinkler to enable the simple drainage of digestive water.

In general, sprinkler systems are fire extinguishing facilities that detect fires within a household and automatically spray water to block fire spreading and to extinguish the fire early. In case of high-rise buildings, the necessity is further increased, and in recent years, sprinkler systems have been adopted in most high-rise buildings.

Looking at such a conventional sprinkler system with reference to Figure 1, the pipe is installed on the ceiling and the fire water is supplied, the coupler 400 which is an elbow pipe connected to the pipe 100, and the coupler 400 is connected to Being composed of a sprinkler head 200.

The sprinkler head 200 is installed to protrude from a ceiling finishing material (not shown) to close the ceiling.

Meanwhile, as shown in FIG. 2, the sprinkler head 200 is screwed with the coupler 400 and a hollow main body 210 into which digestion water flows through the pipe 100, and a lower portion of the main body 210. It is screwed to the lower surface is installed between the hollow frame 220 and the frame 220 and the main body 210, and lowered to the lower end side of the frame 220 in case of fire flows into the main body 210 It consists of a deflector 230 to allow the digested water to be sprayed radially.

At this time, the lower end of the frame 220 is formed with a stepped protrusion 221 protruding inward so that the descending deflector 230 is caught, the hollow body 210 in the center of the deflector 230 is usually The opening and closing block 240 is formed to protrude toward the main body 210 to prevent the leakage of the digestive water.

In addition, the fixing part 250 and the heat sensing part 260 are sequentially installed in the lower portion of the deflector 230, and the fixing part 250 is provided with two fixing plates 251 stacked up and down, The outer surface between the fixing plate 251 is provided with a sealing member 252 is fixed to the frame 220 in contact with the inner surface of the step 221 of the frame 220, the thermal portion 260 The plurality of thermal plates 261 are installed to be fixed to the fixing part 250 in a stacked form up and down.

The sealing member 252 of the sprinkler head 200 installed as described above is a member that melts by heat when a fire occurs. When the sealing member 252 melts, the sealing member 252 is caught by the sealing member 252 on the stepped portion 221 of the frame 220. As the fixed part 250 is separated from the step 221 of the frame 220, the fixed part 250 and the heat sensing part 260 are separated from the sprinkler head 200, thereby supporting the deflector 230. While being lowered by the water pressure of the digestion water introduced into the main body 210 is caught on the step 221 of the frame 220 to discharge the extinguishing water radially.

On the other hand, such a sprinkler system is sufficient injection is possible only if the extinguishing water is filled above a certain pressure in order to quickly extinguish the fire, when installing the sprinkler system to check the pressure of the digestive water in the pipe 100 through a hydraulic test in advance The process is essential.

However, when looking at such a hydraulic test process, as shown in Figure 1, after the installation of the pipe 100 is screwed to the end of the coupler 400 in place of the sprinkler head 200 instead of the screw (1) to prevent leakage in the pipe Fill the digestion water in (100) and check the water pressure by increasing the pressure, and after confirming the water pressure, remove the stopper (1) from the pipe (100) to prevent freezing and completely discharge the digested water filled in the pipe (100) After that, the sprinkler head 200 is installed, such a hydraulic test is uncomfortable and cumbersome due to the many work processes that proceed with the coupling of the stopper (1) and the separation of the stopper (1), the coupling of the sprinkler head (200), etc. There was a downside.

In addition, when the hydraulic test in the state of coupling the sprinkler head 200 instead of the stopper (1) in the hydraulic test process, the workability is better than the case described above, but the sprinkler head 200 installed after the hydraulic test is separated from the pipe 100 Since the remaining construction proceeds in the state left as it is, the digestion water filled in the pipe 100 is frozen in winter, so there was a disadvantage in that the pipe 100 freezes eventually. Therefore, even when using the sprinkler head 200, after the water pressure test, the sprinkler head 200 must be completely discharged by separating the sprinkler head 200 from the pipe 100. In this case, the stopper 1 is used as described above. There was a problem that has the same disadvantages as the case.

Accordingly, the present invention has been made in order to solve the problems of the prior art as described above, the hydraulic test in a state in which the sprinkler head is coupled to the pipe, and after the hydraulic pressure test in the state that the sprinkler head is coupled to the digestive water in the pipe Its purpose is to provide a sprinkler to discharge all of it.

In addition, another object of the present invention is to provide a sprinkler that can easily adjust the height of the pipe and the sprinkler head installed on the ceiling in one-touch type.

In addition, another object of the present invention is to provide a sprinkler for discharging the extinguishing water in the pipe by a simple operation of the drain member.

The above object is a sprinkler comprising a pipe to which the extinguishing water is supplied and a sprinkler head coupled to the pipe via a coupler, wherein the sprinkler head is configured to open and close the main body into which the extinguishing water flows, and on the one side of the sprinkler water. An opening and closing block in which a flow path is formed; And a drainage member rotatably installed at the sprinkler head and having a flow passage formed at one side thereof in communication with a flow path of the open / close block to discharge the extinguishing water to the outside.

And, the drain member, the shaft portion having a flow path in communication with the flow path of the opening and closing block; And a head installed on the shaft and engaged with the opening / closing block, and a coupling part to which a tool is connected may be further formed on the shaft part of the drainage member.

In addition, the sprinkler of the present invention further includes a height adjustment device, the height adjustment device, the movement bracket which is formed in the sprinkler and protruding stopper is continuously formed at a predetermined interval; A fixing bracket installed on the ceiling and coupled to the movable bracket so as to be movable up and down; A lever rotatably installed on the fixing bracket; And a locking bar coupled to the lever and locked to the stopper of the moving bracket.

Here, the height adjustment device, a rope fastening hole formed to pass through the lower portion of the lever; A rope member connected to the lever through the rope fastening hole; And a rope ring formed under the fixing bracket to allow the rope member to pass therethrough.

On the other hand, the drain member, a spring member provided to surround the outer peripheral surface of the drain member; Supporting jaw for supporting the lower portion of the spring member; And a drain handle formed at a lower end of the drain member.

A sprinkler according to another embodiment of the present invention for achieving the above object, in the sprinkler including a pipe to which the extinguishing water is supplied, and a sprinkler head coupled to the pipe via a coupler, the sprinkler head is configured to extinguish An opening / closing block which opens and closes a main body into which water flows, while a channel through which digestive water flows is formed; A drain member rotatably installed on the sprinkler head and having a flow path configured to communicate with a flow path of an open / close block at one side thereof to discharge the extinguishing water to the outside; A spring member provided to surround an outer surface of the drain member; Supporting jaw for supporting the lower portion of the spring member; A plurality of engaging portions formed on one side edge of the upper portion of the support jaw; And a locking step formed to correspond to the locking part when the drainage member is lifted up.

According to the sprinkler of the present invention, the water pressure test is carried out in the state in which the sprinkler head having the drainage member is coupled to the pipe, and after the water pressure test, all the extinguishing water in the pipe can be discharged through the drainage member. The effect is to simplify the test.

And, according to the present invention, the height of the sprinkler installed on the ceiling by the height adjustment device has an effect that can be easily adjusted with only one touch operation.

And, according to the present invention, there is an effect that can easily discharge the digestive water inside the pipe of the sprinkler installed on the ceiling by the spring member.

1 is a view showing a stopper coupled to the pipe for the hydraulic test of the conventional sprinkler system.
2 is a cross-sectional view showing a sprinkler head of a conventional sprinkler system.
Figure 3 is a view showing a drain member mounted to the sprinkler head in accordance with the present invention, (a) is a perspective view of the drain member, (b) is a cross-sectional view of the drain member.
4 is a cross-sectional view of a sprinkler head having a drain member according to the present invention.
5 is a cross-sectional view when draining the sprinkler head according to the present invention.
6 is an operational state diagram of the sprinkler head according to the present invention.
7 is a view showing the height adjustment device of the sprinkler head according to the present invention, Figure 7a is a state before the operation of the height adjustment device, Figure 7b is a cross-sectional view of Figure 7a, Figure 7c is a cross-sectional view of the height adjustment state Figure 7d is a state after the operation of the height adjustment device.
8 and 9 illustrate a sprinkler according to another embodiment of the present invention.
10 and 11 illustrate a sprinkler according to another embodiment of the present invention.
12 is a view showing the drain member of FIG.

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

First, prior to describing the present invention, the same reference numerals are given to the same parts as in the prior art, and duplicate descriptions will be omitted.

3 to 8D are views illustrating a sprinkler head and a height adjusting device thereof according to the present invention.

As shown in Figure 7a, the sprinkler of the present invention is installed on the ceiling is a pipe 100, the fire extinguishing water is supplied, the coupler 400 formed of an elbow pipe connected to the pipe 100, and the coupler 400 It includes a sprinkler head 200 and the height adjustment device 300 formed integrally with the coupler 400.

4, the sprinkler head 200 is screwed with the coupler 400, as described above, the hollow body 210 and the body 210, the digestion water flows through the pipe 100; It is screwed to the lower portion of the lower surface of the hollow frame 220, the deflector 230 is installed between the frame 220 and the main body 210, and is formed extending to the deflector 230 is hollow An opening and closing block 240 for opening and closing the main body 210, a fixing part 250 fixed to the step 221 of the frame 220 by a sealing member 252 to support the opening and closing block 240, and Although it includes a thermal portion 260 installed as a plurality of thermal plates 261 under the fixing portion 250, the detailed description thereof will be replaced by the prior art.

However, in the opening / closing block 240 protruding into the main body 210, a flow path 241 through which the extinguishing water flows in the main body 210 is perforated in a horizontal direction perpendicular to the axial direction of the opening / closing block 240. .

Meanwhile, as illustrated in FIGS. 3A and 3B, the sprinkler head 200 includes a drain member 270, and the drain member 270 includes a flow path 273 and an flow path 273 formed along an axial direction. ) And a cylindrical shaft portion 271 having a drain hole 272 in communication with the vertical direction, and a disk-shaped head portion 275 formed in the upper end of the shaft portion 271 to a diameter larger than the outer diameter of the shaft portion 271. .

As shown in FIGS. 4 to 6, the shaft portion 271 of the drain member 270 is rotatably installed in a state that penetrates the heat-sensitive portion 260, the fixing portion 250, and the opening / closing block 240. At this time, the drain hole 272 of the shaft portion 271 is located in the same line as the flow path 241 of the opening and closing block 240, the flow passage 273 of the shaft portion 271 as shown in Figs. In accordance with the position of the) is formed to selectively communicate with the flow path 241 of the opening and closing block 240.

Accordingly, when the flow passage 273 of the shaft portion 271 communicates with the flow passage 241 of the opening / closing block 240 through the drain hole 272, the fire extinguishing supplied to the sprinkler head 200 and the pipe 100 is provided. The water is discharged to the outside.

On the other hand, the flow path 241 of the opening and closing block 240 is shown in a form spaced apart from the inner bottom surface of the main body 210 in the upward direction in the figure of the present invention, even if formed in this way freeze of the pipe 100 Although it can be prevented, more preferably, the flow path 241 of the opening and closing block 240 is located on the inner bottom surface of the main body 210 to be able to completely discharge the digestive water after the hydraulic pressure test.

In addition, the bottom surface of the outer surface of the shaft portion 271 protruding downward of the sprinkler head 200 is formed in a concave-convex shape so as to couple a predetermined tool (not shown) to facilitate rotation of the drain member 270. Coupling portion 274 is formed. The coupling part 274 may be coupled in a spline or serration form because the coupling part 274 needs to be coupled to prevent relative rotation with the tool.

In particular, if the drainage member 270 installed as described above is supplied with the digestion water, arbitrary rotation of the drainage member 270 may be prevented unless the tool is used by the hydraulic pressure of the digestion water.

In addition, although not shown on the outer surface of the shaft portion 271 protruding downward of the sprinkler head 200, the display portion is formed by painting or coating so that the position of the drain port 272 of the shaft portion 271 can be easily visually checked. desirable.

As shown in FIGS. 4 to 6, the head 275 of the drain member 270 is seated on an upper surface of the opening / closing block 240 located inside the main body 210 so that the drain member 270 may be randomly disposed. This prevents the departure.

The water pressure test is possible in the state in which the sprinkler head 200 is coupled to the pipe 100 by the drain member 270 configured as described above. Looking at this, the tool is coupled to the coupling part 274 of the drain member 270. 4 to rotate the drain member 270 to 90 degrees.

Then, the drain hole 272 formed in the shaft portion 271 of the drain member 270 is spaced apart from the flow path 241 of the opening and closing block 240 by 90 degrees, thereby causing the opening and closing block of the flow path 273 of the shaft portion 271. The flow paths 241 of the 240 are in a state of being blocked from each other.

In this state, the digestion water is supplied to the pipe 100 to be filled and the pressure is increased to check the water pressure. After the water pressure is confirmed, the drain member 270 is rotated 90 degrees in the aforementioned reverse direction as shown in FIG. 5.

Then, the drain hole 272 of the shaft portion 271 coincides with the flow passage 241 of the opening and closing block 240 so that the flow passage 273 of the shaft portion 271 and the flow passage 241 of the opening and closing block 240 communicate with each other. All of the digested water filled in the 100 is discharged to the outside, and after the discharge of the digested water, the drain member 270 is rotated forward 90 degrees as shown in FIG.

On the other hand, the sprinkler head 200 is installed as the drain member 270 of the present invention as described above the step 221 of the frame 220 by the sealing member 252 while the sealing member 252 is melted by heat when a fire occurs. The fixing part 250, which has been caught on the main body, is separated from the step 221 of the frame 220, so that the fixing part 250 and the thermal part 260 are separated from the sprinkler head 200, thereby supporting the deflector ( 230 and the opening and closing block 240 is lowered by the water pressure of the digestion water introduced into the main body 210, the lowered deflector 230 is caught on the step 221 of the frame 220 as shown in FIG. Extinguishing water is discharged radially.

Then, the drain member 270 coupled to the opening and closing block 240 is lowered like the opening and closing block 240, and at this time, the flow path 273 of the drain member 270 and the flow path 241 of the opening and closing block 240 are It is blocked.

In addition, the present invention further includes a height adjustment device 300 that can adjust the height of the sprinkler head 200.

As shown in Figure 7a to 7d, the height adjustment device 300 of the present invention, the "b" shaped fixing bracket 310 is fixedly installed as a means such as bolts on the ceiling, and the fixing bracket 310 It is coupled to the movable up and down) and the outer surface includes a plurality of stopper 351 protruding movement bracket 350 is formed continuously in a predetermined interval.

The movable bracket 350 is preferably installed on the coupler 400 of the sprinkler head 200, and the stopper 351 of the movable bracket 350 protrudes in a direction opposite to the locking bar 340 to be described later. desirable.

In addition, one side of the fixing bracket 310 is formed with a cutout for installing the lever 320 to be described later, the lever 320 is bent rotatably installed in the "V" shape is installed in this cutout.

Meanwhile, a torsion spring 330 is installed at a hinge portion 321 (a hinge pin, hereinafter referred to as a “hinge portion”) in which the lever 320 is rotatably installed, and one end of the torsion spring 330 is a lever. While being supported at the lower end of the 320, the other end is supported by the fixing bracket 310 to maintain a state in which the locking bar 340 to be linked with the lever 320 is always moved toward the moving bracket 350. .

The locking bar 340 is linearly moved toward the movement bracket 350 by the lever 320 which is connected to the upper end of the lever 320 and rotated, and the locking bar is caught by the stopper 351 of the movement bracket 350. The end of the 340 is formed in a shape such as "⊃" to be locked to the upper and lower stoppers 351, respectively, it is possible to maintain a firm locking state.

In addition, a rope fastening hole 325 is formed in the lower portion of the lever 320 so that the lever 320 penetrates, and a rope member 327 is fastened through the rope fastening hole 325 to the lever 320. Connected. Then, the rope member 327 connected to the lever 320 is connected to the lower through the rope ring 326 formed in the lower portion of the fixing bracket 310.

The operation of the height adjustment device configured as described above will be described.

First, before adjusting the height of the height adjusting device 300, as shown in Figure 7a and 7b, the moving bracket 350 is completely inserted into the inside of the fixed bracket 310, the height is minimized.

7C and 7D, when the rope member 327 connected to the lever 320 is pulled during height adjustment, the lever 320 moves the torsion spring 330 around the hinge portion 321. Rotating while compressing, the upper end of the lever 320 exits outward of the fixing bracket 310.

Then, the locking bar 340 connected to the upper end of the lever 320 is separated from the stopper 351 of the moving bracket 350 by the rotation of the lever 320 so that the locking is released to thereby adjust the vertical movement of the moving bracket 350. It becomes possible.

Then, after adjusting the height of the sprinkler to release the external force from the lever 320 by releasing the pulling rope member 327, the lever 320 is reversed by the elastic force of the compressed torsion spring 330 is reversed By the reverse rotation of the lever 320, the locking bar 340 is moved back to the movement bracket 350 to be locked by the stopper 351 is locked.

Therefore, the height adjustment operation of the sprinkler as described above is made of a one-touch operation to pull the rope member 327 connected to the lever 320, there is an advantage that the operator can freely adjust the height of the sprinkler without going up to the sprinkler installed on the ceiling. .

In particular, as disclosed in Patent Application No. 20-2005-0004958, etc., the height adjustment of the sprinkler by the rotation of the bolt, the load of the sprinkler including the pipe and the sprinkler head is concentrated on the bolt, a large force is required when adjusting the height However, the use of power tools, etc. due to the hassle and narrow space to climb up to the ceiling is installed, the height adjustment device 300 of the present invention, the lever 320 as described above The height of the sprinkler is made by a one-touch operation by pulling the rope member 327 connected to the) has a simple and convenient advantage.

8 is a view showing a sprinkler in a closed state according to another embodiment of the present invention.

As shown in FIG. 8, a spring member 280 is provided on an upper outer surface of the drain member 270 to surround an outer surface of the drain member 270, and a spring member 280 is disposed below the spring member 280. The support jaw 281 is formed to support the support jaw 281, and the support jaw 281 is integrally formed with the drain member 270 on the outside of the drain member 270.

Since the drain 272 of the drain member 270 is positioned below a predetermined length of the flow path 241 of the opening / closing block 240, the water in the main body 210 is in a closed state not drained to the outside.

9 is a view showing a sprinkler in the open state according to another embodiment of the present invention.

As shown in FIG. 9, when the drain handle 282 of the drain member 270 is pushed upward using a tool or the like, the spring member 280 is compressed and the drain member 270 is raised to lift the drain hole 272. It is positioned in line with the flow path 241 of the opening and closing block 240. At this time, the flow path 273 of the shaft portion 271 is selectively communicated with the flow path 241 of the opening and closing block 240 according to the position of the drain port 272, by rotating the drain member 270 to open and close the drain port 272 When the flow path 241 of the block 240 communicates, water in the body 210 is drained downward through the flow path 273 in the drain member 270.

In this way, when the drainage member 270 is pushed upward and the water is drained from the main body 210 to the outside and then removes the tool, etc. pushing the drainage handle 282, by the restoring force of the spring member 280 The drain member 270 is lowered. At this time, the support jaw 281 is supported on the upper surface of the inner center side of the fixing part 250, the position of the drain member 270 is returned to its original state, so the draining process is stopped.

Therefore, according to the present embodiment, since the operator can push upward the drain member 270 of the sprinkler without going up to the height of the sprinkler, there is an effect that can simplify the drainage operation of the sprinkler.

10 is a view showing a sprinkler in a closed state according to another embodiment of the present invention.

As shown in FIG. 10, a spring member 280 is provided on an upper outer surface of the drain member 270 to surround an outer surface of the drain member 270, and a spring member 280 is disposed below the spring member 280. The support jaw 281 is formed to support the support jaw 281, and the support jaw 281 is integrally formed with the drain member 270 on the outside of the drain member 270.

In addition, a plurality of locking portions 283 are integrally formed with the supporting jaw 281 at one side edge of the upper portion of the supporting jaw 281, and the drainage member (ie, corresponding to the locking portion 283 when the drainage member 270 is raised). The locking jaw 500 is formed at the outside of the 270.

Since the drain 272 of the drain member 270 is positioned below a predetermined length of the flow path 241 of the opening / closing block 240, the water in the main body 210 is in a closed state not drained to the outside.

11 is a view showing a sprinkler in an open state according to another embodiment of the present invention, Figure 12 is a view showing a drain member 270.

As shown in FIG. 11, when the drain handle 282 of the drain member 270 is pushed upward using a tool or the like, the spring member 280 is compressed and the drain member 270 is raised to drain the drain 272. It is located on the same line as the flow path 241 of the opening and closing block 240. At this time, when the drainage handle 282 is rotated to the left and the locking jaw 500 is inserted into the latching portion 283, the drainage member 270 is fixed in an elevated state, and the drain hole 272 of the opening and closing block 240 is closed. In communication with the flow path 241, the water in the body 210 is drained downward through the flow path 273 formed in the drain member 270.

As such, after all of the water is drained from the main body 210 to the outside in the state in which the drain member 270 is raised, the spring handle is rotated to the right to release the catching jaw 500 from the catch portion 283. The drain member 270 is lowered by the restoring force of 280. At this time, while the support jaw 281 is supported on the upper surface of the inner center side of the fixing part 250, the position of the drain member 270 is returned to its original position.

Therefore, according to the present embodiment, there is an advantage that the operator can eliminate the inconvenience of waiting until the drainage work of the sprinkler while raising the drain member 270 of the sprinkler upward.

1: stopper 100: piping
200: sprinkler head 210: main body
220: frame 221: step
230: deflector 240: opening and closing block
241: Euro 250: Fixed part
251: fixing plate 252: sealing member
260: thermal portion 261: thermal plate
270: drainage member 271: shaft portion
272: drain 273: euro
274: coupling portion 275: head
280: spring 281: support jaw
282: drain handle 283: locking portion
300: height adjustment device 310: fixing bracket
320: lever 321: hinge portion
330: torsion spring 340: locking bar
350: moving bracket 351: stopper
400: coupler 500: jamming jaw

Claims (7)

In the sprinkler comprising a pipe to which the extinguishing water is supplied and a sprinkler head coupled to the pipe via a coupler,
An opening and closing block configured at the sprinkler head to open and close the main body into which the extinguishing water flows, and at one side thereof, a flow channel through which the extinguishing water flows; And
And a drainage member rotatably installed at the sprinkler head and having a flow passage formed at one side thereof in communication with a flow path of the opening / closing block so as to discharge the extinguishing water to the outside.
The method according to claim 1,
The drain member, the shaft portion having a flow path in communication with the flow path of the opening and closing block; And
Sprinkler comprising a; is installed on the shaft portion and the head portion caught on the opening and closing block.
The method according to claim 2,
Sprinkler, characterized in that the coupling portion to which the tool is further connected to the shaft portion of the drain member.
The method according to claim 1,
The sprinkler further includes a height adjustment device,
The height adjustment device, the movement bracket which is formed in the sprinkler and protruding stopper is continuously formed at a predetermined interval on one surface;
A fixing bracket installed on the ceiling and coupled to the movable bracket so as to be movable up and down;
A lever rotatably installed on the fixing bracket; And
And a locking bar coupled to the lever and locked to the stopper of the moving bracket.
The method according to claim 4,
The height adjustment device, the rope fastening hole formed to pass through the lower portion of the lever;
A rope member connected to the lever through the rope fastening hole; And
Sprinkler further comprises a; rope ring formed in the lower portion of the fixing bracket through which the rope member penetrates.
The method according to claim 1,
The drain member
A spring member provided to surround an outer surface of the drain member;
Supporting jaw for supporting the lower portion of the spring member;
Sprinkler comprising a; drain handle formed on the bottom of the drain member.
In the sprinkler comprising a pipe to which the extinguishing water is supplied and a sprinkler head coupled to the pipe via a coupler,
An opening and closing block configured at the sprinkler head to open and close the main body into which the extinguishing water flows, and at one side thereof, a flow channel through which the extinguishing water flows; And
A drain member rotatably installed on the sprinkler head and having a flow path configured to communicate with a flow path of an open / close block at one side thereof to discharge the extinguishing water to the outside;
A spring member provided to surround an outer surface of the drain member;
Supporting jaw for supporting the lower portion of the spring member;
A drain handle formed at a lower end of the drain member;
A plurality of engaging portions formed on one side edge of the upper portion of the support jaw;
And a locking jaw formed corresponding to the locking portion when the drainage member is raised.

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