PATENT CLAIM ANALYSIS

Application Number: 15770324
Application Type: Utility
Filing Date: 2018-04
Publication Date: 2018-11
Patent Classification: ["202", "185100"]

Abstract:
The invention includes: 1. One or more stainless boiling chambers 2. Mechanisms for low cost heat production, 3. Mechanisms channeling air molecules flow into the non potable water chambers or mechanisms absorbing air from the drinking water chambers and other chambers and mechanisms of the system, through folded long and spacious tube in a grid shape or in the form of cyclic coil, thus reducing water vapor pressure [BERNOULLI], lowering boiling temperature and increasing evaporation rate, 4. An intermediate chamber to separate water vapor from the droplets of non-drinking water, 5. A tank to feed boiling chambers 6. A single or dual function thermostat or a system of two thermostats, 7. Ion trapping mechanism, 8. Mechanisms for cooling, refrigeration, compression, ice packs and fans to condense water vapor, 9. An electromagnetic valve, or a tubular electropump, when the feed of water is incapable, level limit sensors, electromagnetic switch, electrical relays, timer, power supply switch, optical isolators, power amplifier, 10. Mechanism with a diode (single passage) valve and float (floater) 11. Water vapor transport mechanisms, 12. Collection chambers for drinking water, 13. Expansion (discharge-relief) and non-return valves, 14. Mechanism adding magnesium, potassium and other elements, 15. Mechanism for exit (extraction) of the brine 16. A microprocessor or microcontroller that coordinates the operation of the system. Generally (overall), this device that converts non potable water into ecological potable (drinking) water presents (displays) great potential, (outlook) which can be done in order to be environmentally friendly with less thermal pollution and waste, without using any filters or membranes, since whatsoever, it can produce potable water, respecting (abiding) all hygienic conditions and requirements.

Claim (Index 11):
The device for the conversion of non potable water into ecological drinking water, according to the present invention, is characterized in that the conversion device includes: a water boiling chamber at temperature <100\u00b0 C. in which a flow of atmospheric air stream, inlet into the chamber through an aperture. by the help of an air absorbing mechanism, where this air stream is moving parallel to the surface of water inside the boiling chamber sweeping vapors to a second chamber into which the water droplets are separated from the vapor and the vapor is moving to a freezing mechanism, comprising a serpentine with adjustable opening at the beginning with one-way non-return valve, for the condensation of water vapor and the water of the droplets in the second chamber returns to the first chamber or out of the system, a tank to supply the boiling chamber with non potable water, various mechanisms which flow air stream into and aut of the device, reducing the pressure exerted by the water vapor on the surface of non-potable water, as a result is the lowering of the water boiling temperature and the increase of the evaporation rate, one-way non-return valves, an ion trapping mechanism providing DC or AC to an electrical coil, generating magnetic fields, also supplying two metal plates, generating vertical electric field to the movement of vapor, thereby preventing the escape of ions, level control mechanisms with sensors and electromagnetic valves for water supply, a a current amplifier Am, to amplify the weak current due to the high electrical resistance of the water and an electromagnetic valve or a solinoid electrovalve comprising of a coil with an armature, a ring and a spring, to open the water flow to boiling chamber or to close the water flow when voltage is not applied, a sensor that detects the level of the water surface at the upper and lower limit of boiling chamber, a thermostat, with two levers and a rod, whose length is increased, by the temperature of water, thus interrupting the heating so that the flow of water is released towards the boiling chamber which lasts until the water surface comes in contact with the two pins of the sensor, two circuits which separately receive commands from the thermostat for supplying or stopping applied electrical power supply and when the first circuit is activated to fill the boiling chamber the second circuit for boiling remains inactive, wherein during the interruption power supply, controlled by a timer the filling of boiling chamber is performed automatically from various sources, while by the same thermostat a command is given to apply voltage releasing the flow of water to fill boiling chamber up to the upper limit, wherein the surface of non-potable water, meets the two sensors, wherein a command is given to the sensor to stop power supply two thermostats where the first with a lever and rod whose length is further increased, by water temperature, above the limit of boiling temperature, wherein the second is set to stop heating in temperatures <100\u00b0 C., so that the temperature to stop electrical power supply for boiling, is adjusted by means of the first wherein during the interruption of power supply,at the same time the boiling chamber is filled with water from tank, by means of the second thermostat, receiving commands from a microprocessor in cooperation with a timer, where the function and all device settings are coordinated by a microcontroller and microprocessor, setting any preferred operating time for the mechanisms and valves, a single and dual functionality thermostats to stop operation at >100\u00b0 C. and turn off power supply at threshold level and after a time period is ordered to descent floater in cooperation with the timer and one sensor, releasing the flow of water, mechanisms of air flow into boiling chamber, mechanisms of air flow free of oil channeling, air and water vapor into boiling chamber, chambers of separation of water droplets from vapor, a pressure gauge, water vapor cooling mechanisms, the freezing mechanism with its inner space filled with ice packs of high heat capacity, for the condensation of water vapor, through which space passes the pipeline with water vapor long and spacious with folds, double, grid-shaped,(streamers), on a horizontal surface or in the form of of cyclic coil, serpentines, spiral-shaped with vertical axis, (coil), surrounded by ice packs, so as to prevent the accumulation of water, the electrically heated resistances both internally and externally along the pipeline to avoid (prevent) ice development, fans that channeling cool air at a minimum distance from the pipeline below or above it, to accelerate the condensation of water vapor, which extracts heat transferred outside of the freezer, a sensor to interrupt the operation of the freezer in case of overheating, a compression mechanisms via which passes the pipeline with water vapor, mechanisms channeling air to layers with magnesium, potassium etc, In a container with water connected to the outlet pipe of the drinking water a water vapor is produced due to the vacuum, which passes through layers of magnesium, potassium and the like, which are transported to the chambers of drinking water, air cooling mechanisms with fans towards piping, a control mechanism for potable water levels, compression mechanisms and mechanisms transporting vapor water to boiling chamber, potable water release mechanism and brine release mechanism, a thermometer and a microprocessor or a microcontroller , the system which may be controlled by three timers, i) for the heating device, ii) for the suction pump and the fan that delivers cold air to serpentine tubes (pipes), iii) for the water vapor condensing system which may be a freezer and iv) by a sensor with an electromagnetic switch as a relay and a current amplifier (Am) that detects the level of the water surface at the upper and lower limit of boiling chamber, where no necessary by opening the tap of the chamber during operation of the device a stream of ambient air passes through the water so that the water is enriched in oxygen and others from the ambient air.

Metadata:
- Claim Count in Document: 29.0
- Percentile: 91.0
- Lexical Diversity: 1.85326
- Patent Class: 202.0
- Transitional Phrase Type: open
- Component Type: 1
- Foreign Priority: True
- Related Applications: ['14916497', '10358149', '10857648', '15149084', '13923254']

Analysis Scores:
- 35 USC 101 Eligibility (BERT): 0.6264373364439635
- 35 USC 102 Novelty (BERT): 0.496654753329945
- Combined Prediction Score: 0.6134590781325616
- Mean Citation Score: 163.88365600000003
- Max Citation Score: 182.47734
- Similarity Product: 141.67642370236877

Labels:
- Claim Label 101: 1
- Claim Label 102: 1
- Claim Label 103: 1
- Claim Label 112: 0
- Combined Label: 1
- Label 101 Adjusted: 1

Dataset: test