MOBILE PLUMBING TOOL FOR UNCLOGGING DRAIN PIPES WITH AIR-PRESSURIZED WATER

Abstract

A rigid body with a hollowed cavity is configured to intercept a drain line between a clogged portion and an unclogged portion. A first inlet on the body to receive pressurized water from a water line. A second inlet on the body to receive pressurized air from a mobile air source. The second inlet can have a smaller diameter than the first inlet. The pressurized air is mixed with the pressurized water in a chamber at an intersection of the T-shaped body to produce a pressurized air/water combination of air pressurized water droplets. A combined outlet for coupling to the clogged portion of the drain pipe to force the pressurized air/water combination to clear the clogged portion of the drain

Description

FIELD OF THE INVENTION

The invention relates generally to a plumbing tool, and more specifically, to a plumbing tool temporarily attached for unclogging water drains with air-pressurized water.

BACKGROUND

Plumbing systems in residential and commercial units including water lines to bring in treated water and drain lines to evacuate used discarded water to a sewer system. The drain lines collect water from sinks, showers, toilets, appliances, washing machines, rain and from other sources. From time to time a drain line can become clogged from solid objects put down the drain and build out that narrows openings within drains. As a result, water can back up throughout a drain system, and even flood a unit.

Conventional tools for unclogging drains include plungers and rodders. A plunger creates a vacuum with suction of negative force to pull on clogs. By contrast, a rodder creates a positive force to push on clogs. In other cases, chemicals are poured down the drain in an effort to dissolve clogs. Unfortunately, these conventional techniques often do not solve the problem. Rodders generate the most force by physically moving through the drain pipe, but are also large and messy, pulling sludgy debris out when recoiled. Additionally, many of these tools fail to leverage automated processes.

Therefore, what is needed is a robust plumbing tool for unclogging water drains with air-pressurized water.

SUMMARY

These shortcomings are addressed by the present disclosure of systems and methods for unclogging water drains with air-pressurized water.

In one embodiment, a rigid body with a hollowed cavity is configured to intercept a drain line between a clogged portion and an unclogged portion. A first inlet on the body to receive pressurized water from a water line. A second inlet on the body to receive pressurized air from a mobile air source. The second inlet can have a smaller diameter than the first inlet. The pressurized air is mixed with the pressurized water in a chamber at an intersection of the T-shaped body to produce a pressurized air/water combination of air pressurized water droplets.

In another embodiment, combined outlet for coupling to the clogged portion of the drain pipe to force the pressurized air/water combination to clear the clogged portion of the drain. Different screens at the combined outlet can be applied to generate different dispersion pattern for the pressurized water. In yet another embodiment, a controller automatically manages a ratio between water and air during the unclogging process. The ration can be wirelessly connected to an application.

Advantageously, clogs are more easily removed with additional force relative to water or a rodder alone.

BRIEF DESCRIPTION OF THE DRAWINGS

In the following drawings, like reference numbers are used to refer to like elements. Although the following figures depict various examples of the invention, the invention is not limited to the examples depicted in the figures.

FIG. 1A is a high-level perspective diagram illustrating a plumbing tool with a T-shaped cavity for unclogging water drains with air-pressurized water, according to one preferred embodiment.

FIG. 1B is a more detailed perspective diagram illustrating a T-shaped tool of the plumbing tool of FIG. 1, according to an embodiment.

FIG. 2A is a high-level perspective diagram illustrating another embodiment of a plumbing tool with a Y-shaped cavity, with wireless features, according to an embodiment. FIG. 2B is an exploded version of FIG. 2A, without wireless features, according to an embodiment.

FIG. 3 is a high-level flow diagram illustrating a method for unclogging water drains with air-pressurized water, according to some embodiments.

DETAILED DESCRIPTION

The description below provides systems and methods for a plumbing tool to unclog water drains with air-pressurized water. The techniques can be applied to residential and/or commercial water drains.

One of ordinary skill in the art will recognize many additional variations made possible by the succinct description of techniques below.

I. System for Unclogging Drains (FIGS. 1-2)

FIG. 1A is a high-level illustration of a plumbing system 100 for unclogging water drains with air-pressurized water, according to an embodiment. The plumbing tool 100 includes a T-shaped body 110, a water valve 120, an air valve 130, and a drain pipe connector. Many variations are possible. The system 100 can be a sub-system of a bigger unclogging tool in some cases.

The plumbing system 100 is configured to connect by interrupting a water drain at a joint between a clogged portion and an unclogged portion. In other words, the T-shaped body 110 is temporarily installed to remove the clog. One alternative embodiment does not interrupt the water drain, but is installed permanently in-line with a water drain and is activated on an as-needed basis, either manually or automatically. Referring again to the T-shape, a water hose or other water supply is connected to the water valve 120. An air tank or other pressurized gas is connected to the air valve 130. In operation, a user sets the water and air levels as desired to clear a clog. The clogged drain pipe can be ½-inch in diameter, 2-inch, 6-inch, or other sizes. Pipes can be connected directly to an endpoint, such as a sink or bathtub, or connect downstream at a main sewer outlet. Pipes can be oriented vertically, horizontally or at any angle.

The body 110 provides a mixing chamber (or cavity) for water and air to combine and produce pressurized water. A hollowed chamber along a first axis with a first inlet provides a path for variable air pressure to enter the clogged portion of the pipe through a combined outlet. A hollowed chamber along a second axis with a second inlet provides a path for water to enter the clogged portion of the pipe, after mixing with and consequentially being pressurized by, the compressed air. In general, compressed air is air kept under a pressure that is greater than atmospheric pressure. In a different embodiment, the first inlet is used for water and the second inlet for introducing the pressurized air from the second axis. Additionally, the rigid body can be T-shape with 90 degree angles or different angles and shapes to generate different combining actions (e.g., a Y-shaped body or a K-shaped body with drain line in, water supply in, air supply in, and outlet). A Y-shaped body can have equal angle as shown in FIGS. 2A and 2B (i.e., 60/60/60 degrees) or non-equal angles (e.g., 180/45/135 degrees). One tool has adjustable angles. The body 110 can be composed from PVC material, plastic, rubber, metal, or a combination. In one embodiment, the body 110 is cast from a single molding.

Pressurized water droplets are ejected through the combined outlet. Rather than a singular force pushing through, force is distributed over different points for a multi-faceted attack on the clog. In some non-limiting embodiments, screen 105 can be added to the combined outlet to control a dispersion pattern. Different dispersion patterns may apply different types of force to the clog. In one case, a first screen is used to start dislodging the clog, and a second screen is used to complete dislodging. The screen can be moved up and down the combined outlet. The combined outlet can be stepped up or stepped down in size to match a pipe size.

The water supply can be from a water supply of a house, such as from a spigot for a water hose or a more powerful source. The hose connects to the water valve 120 via threads. The water supply can be, for example, 60 PSI to 80 PSI, as typically provided to residential homes or higher in commercial implementations. Hot water is applied in some cases, but cold water or warm water can also be used. In one case, the same water supply that provides water to a clogged sink can be used to clear the drain. The second inlet can be smaller in diameter for air than the first inlet for water.

Compressed gas or air can be supplied by, for example, a 6-gallon steel portable air compressor 135 that plugs into an electrical outlet or runs on gasoline. An outlet of the air compressor can be coupled to an air inlet using connector 130. For example, a 0.8 HP compressor may supply 150 psi to the plumbing system 100. In another example, a foot-actuated air pump provides compressed air. In one embodiment, an electronic controller adjusts air and/or water pressure automatically based on feedback during declogging.

A controller 140 can be added to the plumbing tool for automating processes as shown in FIG. 2A and the exploded version in FIG. 2B. The controller 140 can be attached to the plumbing tool or be a separate component. In one case, the controller 140 is coupled to both the water supply and the air compressor for adjusting pressures. The pressures can be set as absolutes, as a ratio, and can vary over time. In another case, the controller 140 includes a clog sensor for detecting and automatically actuating in response. In still another case, a wireless transmitter provides remote control for the controller 140, for example, through a user interface of a smart phone or other processor device. Wi-Fi, Bluetooth, or other wireless technologies can pass data upstream from the plumbing tool (e.g., from a camera, a clog sensor, or pressure sensors) and also downstream (e.g., instructions for the water supply and air condenser, repositioning of a screen, or sensor configuration).

A plumbing application 150 downloaded and installed on a smartphone, or the like, can allow a user to interact with the plumbing tool through a graphical user interface. The camera feed can be wirelessly viewed in real-time to see inside the drain. Pressure levels and screen dispersion and position can be adjusted vary forces leveraged upon clogs. A voice command prompt can receive user voice commands for translation into mechanical action at the plumbing tool. In one embodiment, artificial intelligence or machine learning is implemented to smartly identify clogs and automatically run remediations. Cloud resources can also be leveraged in real-time drain unclogging when the plumbing application 150 has access to the Internet.

II. Methods for Unclogging Drains (FIG. 3)

FIG. 3 is a high-level flow diagram illustrating a method for unclogging water drains with air-pressurized water, according to one embodiment. The method 300 can be implemented, for example, by the system 100 of FIG. 1A. The steps are merely representative groupings of functionality, as there can be more or fewer steps, and the steps can be performed in different orders. Many other variations of the method 300 are possible.

At step 310, a plumbing tool is installed to a pipe with a clog. In one example, a J-channel is temporarily removed from under a sink at its joints. The plumbing tool is then temporarily screwed onto the end of the pipe leading to the clog. Hoses are connected to an air supply and a water supply.

At step 320, a water supply is combined with compressed air to generate pressurized water drops. One embodiment includes a controller that balances air and water to a set ratio or pressure.

At step 330, pressurized water drops are adjusted as needed to clear the clog. A camera at a combined outlet and pressure measurements can provide real-time feedback. A first screen can be changed to a second screen, or moved closer or further away from a combined outlet. Pressurized water can be gradually turned up or down, and temperature can be adjusted, during the unclogging process. In an embodiment, a controller automatically and intelligently adjusts the plumbing tool, as described above. In another embodiment, a plumber uses a plumbing application to wirelessly adjust the plumbing tool.

This description of the invention has been presented for the purposes of illustration and description. It is not intended to be exhaustive or to limit the invention to the precise form described, and many modifications and variations are possible in light of the teaching above. The embodiments were chosen and described in order to best explain the principles of the invention and its practical applications. This description will enable others skilled in the art to best utilize and practice the invention in various embodiments and with various modifications as are suited to a particular use. The scope of the invention is defined by the following claims.

Claims

1. A plumbing tool for unclogging water drains with air-pressurized water, the plumbing tool comprising: a rigid body with a hollowed cavity configured to intercept a drain line between a clogged portion and an unclogged portion;a first inlet on the rigid body configured to receive pressurized water directly from an external water line;a second inlet on the rigid body configured to receive pressurized air directly from an external mobile air source, the second inlet having a smaller diameter than the first inlet, wherein the pressurized air is mixed with the pressurized water in a chamber at an intersection of the body to produce a pressurized air/water combination of air pressurized water droplets; anda combined outlet with threading for coupling the rigid body directly to the clogged portion of the drain pipe using threading of the drain pipe, the combined outlet inline with the second inlet, to force the pressurized air/water combination directly into the clogged portion to clear the clogged portion of the drain, wherein the rigid body, the first inlet, the second inlet and the combined outlet are monolithic.

2. The plumbing tool of claim 1, wherein the rigid body comprises a Y-shape.

3. The plumbing tool of claim 1, wherein the combined outlet comprises a screen with a first pattern to generate a first dispersion pattern.

4. The plumbing tool of claim 1, wherein the first inlet and the combined outlet are centered around a common axis.

5. The plumbing tool of claim 1, wherein an axis of the second inlet is substantially perpendicular to a common axis of the first inlet and the combined outlet.

6. The plumbing tool of claim 1, further comprising a controller to set a ratio of air to water in the chamber.

7. The plumbing tool of claim 6, wherein the controller connects wirelessly to a user interface.

8. The plumbing tool of claim 7, wherein the air pressure and the water pressure are controlled wirelessly.

9. The plumbing tool of claim 7, wherein the controller operates responsive to voice commands.

10. The plumbing tool of claim 7, wherein the controller is wirelessly connected via Wi-Fi or Bluetooth.

11. The plumbing tool of claim 6, wherein the controller sets a temperature of the water from the first inlet.

12. The plumbing tool of claim 6, further comprising a clog sensor to automatically activate the controller upon detection of a clog.

13. The plumbing tool of claim 1, wherein the combined outlet comprises a screen having a position and or a dispersion pattern set wirelessly by input of the user interface.

14. The plumbing tool of claim 1, wherein the ratio controlled via artificial intelligence or machine learning.

15. The plumbing tool of claim 1, further comprising a camera proximate to the outlet to view the clogged portion of the drain on a user interface.

16. The plumbing tool of claim 1, further comprising a first valve to independently control water pressure at the first inlet and a second valve to independently control air pressure at the second inlet.

17. The plumbing tool of claim 1, wherein the plumbing tool is permanently affixed to the drain line.

18. The plumbing tool of claim 1, wherein the drain line is oriented horizontally.

19. The plumbing tool of claim 1, wherein the drain line is oriented vertically.

20. A method for unclogging water drains with air-pressurized water, the method comprising: providing a rigid body with a hollowed cavity configured to intercept a drain line between a clogged portion and an unclogged portion;receiving pressurized water from a water line at a first inlet on the rigid body;receiving pressurized air from a mobile air source at a second inlet on the rigid body, the second inlet having a smaller diameter than the first inlet, wherein the pressurized air is mixed with the pressurized water in a chamber at an intersection of the rigid body to produce a pressurized air/water combination of air pressurized water droplets; andforcing the pressurized air/water combination through a combined outlet coupled to the clogged portion of the drain to clear the clog.