This application claims priority of Taiwanese Application No. 104211462, filed on Jul. 16, 2015.
The disclosure relates to a drain stopper assembly, more particularly to a sink drain stopper assembly.
As shown in
When installing the conventional sink drain stopper assembly 1, the upper pipe member 11 is first inserted into the bottom wall of the sink through the upper surface, and the threaded member 14 is then inserted into the bottom wall of the sink through the lower surface and is coupled threadedly to the upper pipe member 11. The sealing unit 12 is then sleeved on the threaded member 14, and the fixing nut 13 is coupled threadedly to the threaded member 14 for locking tightly the sealing unit 12 to the lower surface of the bottom wall of the sink. Finally, the lower pipe member 15 is coupled threadedly to the threaded member 14, the valve member 161 of the valve unit 16 is inserted into the upper pipe member 11, and the pivot rod 162 is placed with one end thereof being pivoted to the valve member 161 and an opposite end thereof extending outwardly of the lower pipe member 15 through the side hole 152.
Subsequently, the pivot rod 162 has to be pivoted to a control rod disposed on the sink (not shown) so that the pivot action of the pivot rod 162 can be easily driven by a user. However, during the abovementioned installation of the conventional sink drain stopper assembly 1, when the connection between the lower pipe member 15 and the threaded member 14 is completed, the opposite end of the pivot rod 162 that extends outwardly of the side hole 152 may not be able to be successfully pivoted to the control rod because due to a deviation in the orientation of the side hole 152. At this time, the user has to loosen the fixing nut 13 to readjust the orientation of the lower pipe member 15 until the side hole 152 is at a correct orientation. Such readjustment of the lower pipe member 15 often results in an inconvenient operation of the conventional sink drain stopper assembly 1.
Therefore, the object of the disclosure is to provide a sink drain stopper assembly that can be conveniently installed.
Accordingly, a sink drain stopper assembly of the present disclosure is adapted to be installed in a sink. The sink includes a bottom wall that has opposite upper and lower surfaces. The sink drain stopper assembly includes a pipe member, an annular member, a sealing unit, a fixing nut, and a valve unit. The pipe member has a body portion, a first external thread, a second external thread, and a side hole. The body portion surrounds a central axis and is adapted to extend into the bottom wall of the sink through the lower surface. The first external thread and the second external thread are formed on the body portion, and the second external thread is disposed under and spaced apart from the first external thread along the central axis. The side hole is formed in the body portion and is disposed under the second external thread. The body portion and the first and second external threads are molded as one piece. The annular member has an annular main body that is adapted to extend into the bottom wall of the sink through the upper surface, and that is formed with a central hole through which the central axis passes. The annular member further has an internal thread that is formed on the main body and that is coupled threadedly to the first external thread of the pipe member. The sealing unit includes a washer and a sealing member that are sleeved on the body portion of the pipe member. The fixing nut is coupled threadedly to the second external thread of the pipe member for locking tightly the annular member and the sealing unit to the bottom wall of the sink. The valve unit includes a valve member and a pivot rod. The valve member extends into the body portion of the pipe member and is movable relative to the annular member along the central axis to block or unblock the central hole. The pivot rod has one end pivoted to the valve member and an opposite end extending outwardly of the side hole of the pipe member, such that the movement of the valve member along the central axis is driven by pivot movement of the pivot rod relative to the valve member.
Other features and advantages of the disclosure will become apparent in the following detailed description of the embodiment with reference to the accompanying drawings, of which:
As shown in
The sink drain stopper assembly includes a pipe member 2, an extending member 3, an annular member 4, a sealing unit 5, a fixing nut 6, and a valve unit 7.
The pipe member 2 is made of metal and has a body portion 21, a first external thread 22, a second external thread 24, a plurality of through holes 23, and a side hole 25.
The body portion 21 surrounds a central axis (L) and is adapted to extend into the bottom wall of the sink 9 through the lower surface 902. The body portion 21 has a wide section 211 and a narrow section 212 that has a diameter smaller than that of the wide section 211, and that extends downwardly from the wide section 211.
The first external thread 22 is formed on the body portion 21, the second external thread 24 is formed on the body portion 21 and is disposed under and spaced apart from the first external thread 22 along the central axis (L), and the side hole 25 is formed in the body portion 21 and is disposed under the second external thread 24. The body portion 21 and the first and second external thread 22, 24 are molded as one piece.
The through holes 23 are angularly spaced-apart from each other, are formed between the first and second external threads 22, 24, and surround the central axis (L). The side hole 25 is formed in the narrow section 212 of the body portion 21, and the first and second external thread 22, 24 and the through holes 23 are formed in the wide section 211 of the body portion 21. As shown in
In this embodiment, the pipe member 2 is made of stainless steel, and may be made through punching press, turning, or other manufacturing methods.
The extending member 3 is mounted on the pipe member 2 and is formed with an inserting hole 31 communicating with the side hole 25. In this embodiment, the extending member 3 is welded onto the narrow section 212 of the pipe member 2.
The annular member 4 is made of metal, has an annular main body 41 that is adapted to extend into the bottom wall of the sink 9 through the upper surface 901, and is formed with a central hole 411 through which the central axis (L) passes. The annular member 4 further has an internal thread 42 that is formed on the main body 41 and that is coupled threadedly to the first external thread 22 of the pipe member 2.
The annular member 4 may be made through punching press or other manufacturing methods. In this embodiment, the annular member 4 is made of stainless steel.
The sealing unit 5 includes a washer 51 and a sealing member 52 sleeved on the body portion 21 of the pipe member 2. The washer 51 is of a substantially frusto-conical configuration and can abut against the lower surface 902 of the bottom wall of the sink 9. The sealing member 52 is made of an elastic material such as rubber. Structure and function of the sealing unit 5 are well known in the art, and is therefore not further described herein.
The fixing nut 6 is coupled threadedly to the second external thread 24 of the pipe member 2 for locking tightly and respectively the annular member 4 to the upper surface 901 of the bottom wall of the sink 9 and the sealing unit 5 to the lower surface 902 of the bottom wall of the sink 9. The fixing nut 6 is in a polygon shape in order to be fitted with a spanner. In this embodiment, the fixing nut 6 is in a hexagonal shape.
The valve unit 7 includes a valve member 71, a pivot rod 12, a sealing ball 73, and a lock cap 74. The valve member 71 extends into the body portion 21 of the pipe member 2, is movable relative to the annular member 4 along the central axis (L), and has a stopper 711 and a rod portion 712 extending downwardly from the stopper 711. The stopper 711 has a shape corresponding to the central hole 411 of the annular member 4 so that the stopper 711 can block or unblock the central hole 411 when the valve member 71 is moved along the central axis (L) downwardly to or upwardly away from the annular member 4, respectively. An O-ring may be disposed on the stopper 411 to increase sealing efficiency when the central hole 411 is blocked by the stopper 711. The rod portion 712 has a rod body 713 extending downwardly from the stopper 711 and three angularly spaced-apart fin plates 714 projecting from the rod body 713.
The pivot rod 72 has one end pivoted to the rod body 713 of the valve member 71, and an opposite end extending outwardly of the side hole 25 of the pipe member 2. The sealing ball 73 is received in the inserting hole 31 of the extending member 3, and the lock cap 74 is coupled removably to the extending member 3 so as to retain the sealing ball 73 in the inserting hole 31. The pivot rod 72 extends through the lock cap 74 and the sealing ball 73. As such, the movement of the valve member 71 along the central axis (L) is driven by pivot movement of the pivot rod 72 relative to the valve member 71. The sealing ball 73 can prevent water leakage through the inserting hole 31 and hold firm the pivot rod 72, and is made of an elastic material such as rubber.
When installing the sink drain stopper assembly according to the disclosure, the fixing nut 6 is first locked, to the second external thread 24 of the pipe member 2, and the sealing unit 5 is then sleeved on the pipe member 2. The annular member 4 then extends into the bottom wall of the sink 9 through the upper surface 901, and the pipe member 2 extends into the bottom wall of the sink 9 through the lower surface 902. The pipe member 2 is then rotated to threadedly couple the first external thread 22 to the inner thread 42 of the annular member 4, such that the orientation of the side hole 25 is adjusted simultaneously. Finally, the fixing nut 6 is screwed to lock tightly the sealing unit 5 to the lower surface 902 of the bottom wall of the sink 9, and the valve member 71 of the valve unit 7 is inserted into the annular member 4 and pivoted to the rod body 713 of the valve member 71.
Referring to
It should be noted that the through holes 23 of the pipe member 2 are formed in a through hole section 20 of the body portion 21 located between the first external thread 22 and the second external thread 24. An outer diameter of the through hole section 20 is configured to be slightly smaller than an outer diameter of the first external thread 22 and an outer diameter of the second external thread 24, so that the fixing nut 6 can pass smoothly through the first external diameter 22 to the second external thread 24 without interference from the through hole section 20.
The following advantages can be concluded from the above-mentioned description:
1. During the threaded coupling of the pipe member 2 to the annular member 4, the orientation positioning of the side hole 25 can be simultaneously adjusted to a required position before the fixing nut 6 is screwed. In such manner, the pivot rod 72 can be pivoted to the control rod 91 without requiring the additional adjustments disclosed in the abovementioned prior art. As a result, the installation process is more convenient.
2. The length of the first external thread 22 along the central axis (L) is short, so that the annular member 4 can be quickly coupled to the pipe member 2.
3. The annular member 4 and the pipe member 2 are made of stainless steel so that a need for surface machining is not required, thereby decreasing the manufacturing cost.
4. The body portion 21 and the first and second external threads 22, 24 are molded as one piece instead of being formed individually and coupled together. Therefore, the sink drain stopper assembly of the disclosure has a simpler installation process. Moreover, water leakage from the pipe member 2 can be avoided.
While the disclosure has been described in connection with what is considered the exemplary embodiment, it is understood that this disclosure is not limited to the disclosed embodiment but is intended to cover various arrangements included within the spirit and scope of the broadest interpretation so as to encompass all such modifications and equivalent arrangements.
Number | Date | Country | Kind |
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104211462 | Jul 2015 | TW | national |