The present invention relates to adapting a flushing device to a drainpipe.
Drainpipes in sinks occasionally become blocked and require cleaning. Flushing devices have been designed to remove debris from the drainpipe when traditional cleaning methods do not work. The flushing device is inserted into a drainpipe. The flushing device is also connected to a water source, such as a hose. Water is sent through the flushing device and a valve creates a pulsing action to the water, which removes the debris from the drain. This type of flushing device should be inserted into the drainpipe several inches in order to operate correctly. However, to deter debris from entering the drainpipe crosshatches are located just inside the drainpipe entrance. The crosshatches restrict the insertion depth of the flushing device.
Adapters are used with the flushing devices to accommodate for the abbreviated insertion distance resulting from the crosshatches. For one style of adapter, a first end of the adapter is inserted into the sink drain while the other end receives the flushing device. The adapter increases the allowable insertion distance for the flushing device such that it is sufficient to allow proper operation.
During operation, water pressure builds between the blockage and the flushing device until the blockage is removed. For blockages that are difficult to remove, the increasing water pressure creates an upward force on the adapter pushing it from the pipe. Due to the short insertion distance of the adapter, it is difficult to retain the adapter in position. Additionally, when the flushing device and water source fill with fluid. The adapter becomes top heavy and may dislodge during operation. Thus, large amounts of physical exertion by the user are needed to retain the adapter in position. Also, because of the short sealing distance between the adapter and the pipe, the increasing water pressure may cause leaks to occur between the pipe and the adapter. Thus, an adapter which has enhanced sealing capability and that is easily retained in the drainpipe is needed.
The present invention provides an adapter for use between a flushing device and a drainpipe. The adapter has a main body. A first end of the main body has a first opening for receiving a flushing device. A second end of the main body has a second opening allowing fluid to exit the flushing device and the adapter, and enter a drainpipe.
An indent is included on the main body to correspond to recesses on the flushing device. During operation the flushing device expands within the adapter. The indent is received in one of the recesses and the expanding flushing device creates pressure against the adapter. Pressure between the flushing device walls and the indent retains the flushing device within the adapter.
The main body also includes an enlarged portion that is disposed between the indent and the second end. The enlarged portion is expandable under pressure. The size and location of the enlarged portion on the adapter corresponds to a recess in a sink bottom. The enlarged portion interacts with the sink recess to retain the adapter in an upright position during use. When water pressure builds in the pipe during operation the enlarged portion will expand from the water pressure and contact the sink recess to retain the adapter in the drainpipe. If additional pressure is needed to retain the adapter in the drainpipe the enlarged portion also provides a surface where downward pressure can be applied by the user. Thus, the adapter is retained within the drainpipe during operation with little or no exertion needed on the part of the user.
Concentric rings located on the second end of the adapter create an interference fit with the drainpipe to seal against any leaks. Any leaks that do occur are directed into a sink bottom by striations within the enlarged portion. Thus, back pressure is not created between the adapter and sink.
The various features and advantages of this invention will become apparent to those skilled in the art from the following detailed description of the currently preferred embodiment. The drawings that accompany the detailed description can be briefly described as follows:
A second end 22 is located at an opposing end of the main body 12 from the first end 14. The second end 22 has an insertion portion 24 to be inserted into a drainpipe 26 (shown in
An enlarged portion 32 is located on the main body 12 adjacent the insertion portion 24. The enlarged portion 32 has a larger diameter than the main body 12. The size and position of the enlarged portion 32 correspond to a sink recess 44 (shown in
Referring to
The second end 22 of the adapter 10 is inserted into a drainpipe 26. The rings 28 form an interference fit with the drainpipe 26. When the adapter 10 is inserted into the drainpipe 26 the enlarged portion 32 easily fits within a sink recess 44. During operation the enlarged portion 32 interacts with the sink recess 44 to hold the adapter 10 in an upright position, compensating for the weight of the flushing device 18, and the water source.
Occasionally pulsing of the water is not enough to clear the blockage and water will begin to back up in the drainpipe 26. The water will back up until it enters the adapter 10, through the second opening 30. As water is continuously pulsed out of the flushing device 18 the pressure of water in the drainpipe 26 and the adapter 10 increases. When this occurs the striations 34 allow the enlarged portion 32 to expand as a result of the pressure. The enlarged portion 32 will then contact sink recess 44. The contact pressure between the enlarged portion 32 and the sink recess 44 is proportional to the water pressure in the adapter 10. Thus, as the pressure in the adapter 10 increases the contact pressure between the enlarged portion 32 and the sink recess 44 will help to retain the adapter 10 in the drainpipe 26. If additional pressure is needed to retain the adapter in place the enlarged portion 32 provides a surface 45 on which downward pressure may easily be applied, reducing the efforts of the user.
If the increase of water pressure becomes great enough to cause leaks between the drainpipe 26 and the rings 28 then water may enter the sink recess 44. The striations 34 in the enlarged portion 32 allow this water to pass through to the sink bottom 50. Allowing any water leakage to pass through will prevent pressure from building between the enlarged portion 32 and the sink recess 44 that would force the adapter out of the drainpipe 26.
Eventually the water pressure will reach a high enough level to force the drainpipe clear. At this point the water pressure in the adapter 10, and flushing device 18 decreases. The water source may be shut off and the adapter 10 and flushing device 18 may be easily disassembled.
Although a preferred embodiment of this invention has been disclosed, a worker of ordinary skill in this art would recognize that certain modifications would come within the scope of this invention. For that reason, the following claims should be studied to determine the true scope and content of this invention.