Not Applicable.
Not Applicable.
The present invention generally relates to an air sterilization device for plumbing air ventilating piping. The present invention further relates to an air sterilization device for plumbing air ventilation with sensors, network connectivity, monitoring and control. The air sterilization device is installed coaxially with a plumbing ventilating pipe, acting as an anti-siphonage pipe, of a plumbing system to ensure air escaping out from the ventilating pipe has been sterilized.
The present invention yet further relates to a control system that, via communication means, ensures application of optimal amount of sterilization energy by the air sterilization device based on meteorological conditions at the location where the air sterilization device is installed.
The present invention yet further relates to a control system that, manages the utilization of sterilization elements within the air sterilization device to maximize their usage before replacement and to ensure the device's maintenance is conducted in a timely manner to ensure a fully continuous operational air sterilization device.
Plumbing systems are essential for modern civilization. Within a plumbing system, ventilating pipes or anti-siphonage pipes are critical for smooth flow of effluents, providing pressure equalization function within the plumbing system. In densely populated urban areas, with high-rise buildings constructed, ventilating pipes will likely service multiple facilities aligned vertically. The multi-connections to a single pipe, though simplifies the plumbing system construction, may or could, sometime, create unexpected consequences. From various studies and researches, it was found that some viruses and/or some pathogens may be shed from the human body via waste. The shed viruses and pathogen particles may travel through the plumbing pipes and could attach to droplets and/or aerosols inside the sewer and ventilating pipe systems. Subsequently, the virus and/or pathogens could traverse various piping systems with air movements within the piping systems.
Of particular concern is emergent virus, like the Severe Acute Respiratory Syndrome Coronavirus 2, SAR-Cov-2 (or COVID19). It was found that the virus also shed as it infects the human host. Once the shed virus enters into the sewage plumbing system, the sewage and ventilating pipes may/would harbor the virus contaminated particles and particulate matters.
In order for plumbing ventilating pipes to provide pressure equalization or release of sewer gas within a plumbing/sewage system, plumbing ventilating pipes are exposed to the outside environment to draw in air/to exhaust sewer gas. Typically, one end is raised to the rooftop of a building and vented to outside air via roof vent. In normal operations, the air is typically vented through a roof vent and equalizes pressure as water traverse down the plumbing or sewage pipes. However, with steady wind flowing across the roof, negative pressure may develop atop the ventilating pipe or about the roof vent. This negative pressure will cause air inside the ventilating pipes to move out from the opening of the roof vent. Recent studies in Hong Kong have confirmed that COVID19 virus traces were found on the rooftops of a number of buildings around their roof vents of the sewage system serving residential units with residents infected with the virus.
In view of the large number of ventilating and sewage pipes in an urban environment, the probability of spreading of a disease-causing virus and/or pathogen via plumbing/sewage ventilating piping can be very high. Ensuring air escaping from the top of the ventilating pipes is free from pathogens is of high importance. Applying appropriate techniques and technologies to inactivate pathogens coming out of the ventilating pipes without affecting the operation of a plumbing system is eminently required.
Ultraviolet light in the C-band wavelength (or UVC) has been shown to be highly effective in inactivating pathogens, including various viruses. Laboratory studies showed that, depending on the length of the ventilating pipe and the speed of the wind blowing about the vent opening, the speed of air moving out therefrom can be very high. Accordingly, not only its direction of the air flowing into or out from the vent opening, but also the speed of the air flow through the vent opening would vary significantly over a time period.
Taking energy consumption and carbon emission into consideration, a sterilization system for inactivating pathogens in a ventilating or anti-siphoning pipe should also be energized judiciously. The ideal inactivation system should be designed in such a way that, when the wind in the environment is gentle and not likely to generate significant low pressure at the top of the pipe, the inactivation power can be reduced to save energy. Should the wind across the pipe be more significant, the system should provide higher power for inactivation. Furthermore, given the critical nature of the sterilization device, ultraviolet light source should be monitored to ensure that the device stand ready for any sterilization need. The system should be able to indicate when elements within the system are to be replaced. Due to the damaging nature of UVC to the human body, care must be given to the maintenance personnel. The sterilization system should remotely notify maintenance personnel the time at which service is required.
Various attempts have been made and proposed previously for using UVC for sterilization. For example, CN patent No. 203898790 to Gao, contents of which is incorporated herein by reference, relates to sterilization of air within a pipe utilizing UVC within a pipe; however, the device is for medical use only and require additional glass or transparent tubing.
CN patent application CN 105999352 A to Hua Dong, contents of which is incorporated herein by reference, discloses a device utilizing UVC to sterilize air from a ventilating pipe, while ensuring barriers are placed in the path of air flow; however, the barrier restricts and reduces air flow for the ventilating pipe and does not account for maintenance and efficacy of the device.
CN patent application CN 111256243 A to Si Ping, contents of which is incorporated herein by reference, discloses a system utilizing UVC LED to sterilize air within a ventilation system and utilizes controls to notify users.
There are, at least, for example, three major shortcomings in the prior attempts.
Firstly, air flow of the ventilating pipe is restricted in the described teachings of the prior arts. The air within the pipe is diverted to increase travel time. However, for a ventilating pipe, the anti-siphonage application requires air flow as unrestricted as possible.
Secondly, the control system in the described teachings does not take into account of external environmental conditions under various wind conditions. For a ventilating pipe, the wind speed near the sterilization device will greatly affect the sterilization energy required.
Thirdly, the control system in the described teachings does not proactively provide maintenance schedule and guidelines based on the utilization and intensity required for the sterilization of the air within the ventilating pipe. For sterilization purposes, failure of the sterilization elements unnoticed would defeat the purpose of the device, thus maintenance should be conducted proactively but in a targeted manner to reduce cost.
Accordingly, there is a long-felt but urgent need to develop an air sterilization device that can sterilize air moving within existing plumbing/swage ventilating pipes, provide connectivity to manage the power utilized and capture potential savings and leverage the connectivity to provide timely maintenance and servicing to the device.
An object of the present patent application is to provide an air sterilization system for ventilating pipes; the air sterilization system that utilizes ultraviolet-C (or UV-C) light/radiation emitter in the spectrum frequency between 200 nm to 280 nm.
Another object of the present patent application is to provide a sensors system to capture various information within the air sterilization system; the information can be retained in the air sterilization system or sent to a computation system for optimization and control.
Yet another object of the present patent application is to provide a wireless and/or wired communication system for communication with a computation system that monitor and control the air sterilization system.
Yet another object of the present patent application is to provide a computation system that stores and process the data from the air sterilization system, the computation system also provides control signals to the sterilization system to activate or deactivate individual sterilization element.
Yet another object of the present patent application is to use meteorological data to determine the most probable air speed within the air sterilization system due to local wind conditions; the computation system will control the sterilization system to provide sufficient amount of ultraviolet sterilization energy to deactivate pathogens while minimizing energy consumption.
Yet another object of the present patent application is to use sensors external to the device to capture wind speed data and provide said wind speed data to the computation system to ensure sufficient amount of ultraviolet sterilization energy is radiated to deactivate pathogens.
Yet another object of the present patent application is to combine sensor data and other meteorological conditions to form long term forecast of the sterilization energy requirements.
Yet another object of the present patent application is to ensure the air speed within the air sterilization system is reduced, by design and mechanical means, to ensure sufficient time for pathogen inactivation, while maintaining opening sizes in compliance with ordinances and regulations.
Yet another object of the present patent application is to ensure each individual sterilization element is utilized at the same rate; in addition to uniform utilization, based on the reported utilization, maintenance can be scheduled to replace the sterilization element before failure.
According to one embodiment of the present patent application, it provides an air sterilization system with remote monitoring and control. The remote monitoring and control system collects internal sterilization system data from temperature, intensity of radiation from sterilization elements, energy consumption, internal air speed and other relevant information. In addition to the internal system information, the monitoring and control system collect current meteorological information where the device is installed. External sensors for weather and meteorological information near the sterilization system can also transmit the information to the remote monitoring and control system.
The remote monitoring and control system, based on sensors and meteorological data, will determine the appropriate amount of sterilization energy required for inactivation of pathogens in the air coming out from the ventilating pipe. With the collected usage data from the sterilization system, the control system can select sterilization elements based on usage history or elements that are located at positions where replacement work can be done easier.
With the utilization data stored in the remote monitoring and control system, the system can predict when maintenance should be conducted and notify maintenance personnel to conduct periodic or emergency maintenance based on utilization and status of the sterilization system.
The present invention may be best understood and will become apparent from the following description with referencing to the accompanying drawings.
As previously stated, the air sterilization devices 100 can be connected via a network (via wired and/or wireless network(s)). A number of air sterilization devices 100 may be remotely monitored and controlled by one or more remote monitoring and control systems 1100.
The present application claims priority to U.S. Provisional Application No. 63/151,816, filed on Feb. 22, 2021, the contents of which are incorporated herein by reference in its entirety.
Filing Document | Filing Date | Country | Kind |
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PCT/CA2022/050222 | 2/16/2022 | WO |
Number | Date | Country | |
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63151816 | Feb 2021 | US |