Abstract
A surface filter for aquarium water purification is placed on the bottom of the aquarium that sucks the waste out of the tank to the canister filter. Small plastic pieces make and connect the main stream channels. Each plastic piece is composed of a couple of inverted pyramids that acts like a funnel. Water flows through the main channels sucked by an external filter. In the base of each inverted pyramid a small hole opens to the drainage channel, which has a hollow inverted V shape. Water, particles and fish waste are passed through the channels to the external filter. At the end of the assembly a cross channel collects the drained water. Collected water is transferred to the external filter outside the aquarium. A hose connects the external filter with the collector. Another hose is connected to the same filter to return the filtered water back to the aquarium.
Claims
1. Undergravel filter for sucking water and other particles such as fish waste, leftovers, and dirt from an aquarium tank to an external filter, the undergravel filter provided a plurality of filter pieces, comprising: Each piece composed of two funnel shaped similar to an inverted pyramid (FIG. 2a (10)) linked by a drainage channel in the center, which feeds to a cross channel as a collector. Each funnel acts as a container and this design allows the water with waste to drain in the drainage channel. The drainage channel is designed similar to a hollow triangle shape (FIG. 3a (11)) and it is placed between the two funnels. Each side of the triangle composes a side of the funnel wall. The drainage channel will drain the waste from the funnels through a drain holes at the bottom of each funnel. A cross channel collects the drained water and waste (FIG. 5 no. (23)). Collected water is transfer to the external filter outside the aquarium. A hose connects the external filter with the cross channel. A mesh is placed and fitted (FIG. 4 (18)) on top the filter pieces, the mesh consists of small holes to allow tiny parts passing through, and prevent large parts like gravel to go inside the filter.
2. Undergravel filter according to claim 1, each filter piece has a dented side, which overlaps the opposite side of the next filter piece. This can prevent waste and other particles from falling to the base of the aquarium.
3. Undergravel filter according to claim 1, further the drainage channel is composed of four sides, which are parallel to each other, two top sides and two bottom ones. The top sides are the funnels wall. While the bottom sides are (FIG. 4 (21)) used to reduce the internal size of the channel and increase the water flow, which can more cleaning process for the tank. The triangle will help the waste and other particles to slide and rise up to the top of the channel because of its streamlined shape. Therefore, the friction caused by waste or other particles in the channel will reduce and make them not accumulate in the channel and go directly to the cross channel.
4. Undergravel filter according to claim 1, the cross channel collects the water and waste from the drainage channels into a suction tube and it is placed in the first filter. The cross channel is designed with an oblique corner to limit waste accumulation. In addition, it will reduce the internal size of the channel, which helps to increase water flow and helps to remove the waste from it. Also this cross channel helps to reduce power consumption by eliminating the use of elbow tubes to link the drainage channels to the cross channel.
Description
BRIEF DESCRIPTION OF THE DRAWINGS
[0009] FIG. 1 top view of three filter pieces connected together.
[0010] FIG. 2A drain hole at the bottom of the filter piece (10) and drainage channel (11).
[0011] FIG. 2B top view dimensions in centimeters of one piece filter.
[0012] FIG. 3A front view of the filter piece showing drain hole (10) and drainage channel location (11).
[0013] FIG. 3B front view dimensions in centimeters of the filter.
[0014] FIG. 4 two filter pieces connected together after installation.
[0015] FIG. 5 Side view of the filter piece containing the tube (22) for water suction, cross channel (collector) (23), drain hole (10), and drainage channel (11).
[0016] FIG. 6 filter dimensions similar to FIG. 5 but without tube.
[0017] FIG. 7 top view of the filter in FIG. 5.
[0018] FIG. 8 front view of the filter in FIG. 6.
[0019] FIG. 9 front view of two filter pieces installed together with the main suction tube.
[0020] FIG. 10 the final form for the filter after installation it in the aquarium and connected to the external filter.
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS
[0021] FIG. 1, FIG. 2a, FIG. 2b, FIG. 3a, FIG. 3b, FIG. 4, FIG. 5, FIG. 6, FIG. 7, FIG. 8, FIG. 9, and FIG. 10 will explain the filter's operation as follow: In the beginning, the filter is composed of small filter pieces as explained. To install the filter into a single piece the piece shown in FIG. 5 will be the first piece. The next piece shown in FIG. 6 is connected to the first piece making a single piece as shown in FIG. 9. Then continue installing the rest of the filter pieces side by side until it covers the width of the tank. The last filter piece is sealed on its end side to allow the water passing through drain holes only. After completing the filter width each piece is attached by a series of filter pieces (FIG. 3A) covering the length of the aquarium tank. The drainage channel also should be sealed in the last piece side of the filter to allow the water passing through drain holes only. Filter pieces are locked with each other front to back (a click sound is heard between each two indicating they are locked). Then an external filter hose (FIG. 10) (32) is placed inside the aquarium tank 28 (outlet) while another hose (inlet) is connected to the external filter 30 with the suction tube (FIG. 5) (22).
[0022] Finally, a plastic mesh is placed and fitted (FIG. 4) (18) on top the filter pieces. The plastic mesh consists of small holes (about 2 mm) to allow tiny parts passing through, and prevent large parts like gravel to go inside the filter. Now the filter is installed in the aquarium tank (FIG. 10) (29). After assembling the filter in the aquarium and the external filter (31) will start to suck the water from the hose (30) through the drain holes (10). A stream is generated at each drain hole due to the location of each hole (at the bottom of the funnel) and the force generated from the external filter. Therefore, waste and other particles will smoothly pass through the drain holes. After that the water and waste will flow to the drainage channel (11) (FIG. 2A) (FIG. 3A). The drainage channel is designed to be shaped similar to a hollow inverted V shape (FIG. 4) (21). It is made for two reasons: 1) when waste passes to the drainage channel it slips and rises up to the top of the channel because of the narrow path. Also, the friction between the waste and channel will reduce since the surface area in the inverted V is small. Without the inverted V design the waste will be accumulate in the middle of the drainage channel since the flow will be reduced due to the large area of a normal channel (round or triangle shape).
[0023] In addition, the middle area of the drainage channel becomes closer to the streams coming from the drain holes due to the shape of the channel. 2) The inverted V tube is there to reduce the internal volume of the channel where the distance between the two internal walls is 1 cm (FIG. 3B) (17). This reduced volume works to increase the water flow, which helps to drag waste out of the drainage channel. Then water along with the waste falls into the cross channel (collector) (23) and then sucked by the section tube (22) as shown in (FIG. 5). In the cross channel there is an oblique corner (24) made to reduce the internal area for it. In addition, it increases the water flow which assists in taking the waste out from the cross channel to the external filter (31). As well, the cross channel is designed with an oblique corner to fit the side of the funnel piece (25) to not affect the funnel shape. There is another oblique corner (26) (FIG. 9) that helps the water and waste go to the external filter faster. This oblique corner exists only at the side of the filter that has the suction tube while other parts of the filter does not have oblique corner (27). In addition, this cross channel (collector) can decrease the power used by the external filter for water suction by eliminating multiple collection tubes into one collector tube.
[0024] This will let the water flow in one way to the suction tube instead of using traditional elbow for each drainage channel and connecting them together. The traditional elbows may slow down the water speed or flow because the water passing through each elbow may run into each other to cross to the suction tube. The outlet hose 30 that comes from the external filter 31 sucks the water and waste through section tube 22. Then hose 32 will return the filtered water back to the aquarium. Each filter piece has dented side 19, which overlaps the opposite side of the next filter piece 20. Both were created in two different heights to be able to fit one another and make it easy to install (FIG. 4). In addition, these two fitted sides will prevent waste and other particles from passing through to the base of the aquarium; hence the waste and particles will be forced to go to the drain holes. The process of making this filter can be made by a plastic manufacturer.
[0025] As a result, the ground filter can be achieved and used for filtering water in an aquarium tank by placing it on the bottom of the tank, which will drains the waste and moving it to the external filter.
