WO2024009121A1 - Intelligent building ceramic system with oxygen detection and energy consumption - Google Patents

Abstract

This intelligent system detects and measures the point oxygen of the house (which is installed in ceramics) and the amount of electricity consumption (which is installed in the power outlets of consumers) and sends all the information online to the software. Intelligent ceramics on which the oxygen sensor is installed, if the oxygen is less than the standard amount, start the air conditioning system. And the purpose of the second part is to determine the amount of electricity consumed by all building systems to know the time of death of the systems. That is, any system that needs to be repaired, for example from friction created in heating or cooling systems that increase its power consumption, this system according to the intelligent program that is written for the device relative to the brand of equipment, Analyzes its consumption and compares and controls it compared to the previous year or month. The building system should be repaired before the final death of the system. This is how all the outputs of the room are connected to the central server. The servers benefit from the ability to measure the amount of electricity consumed according to the set standards. If these devices use more than the specified amount, the built-in application on the mobile will warn users. Using this system allows consumers to be aware of the problem in the most consumed equipment. This software also has the advantage of reporting the amount of electricity consumed in specific time periods, thus the possibility of comparing the amount of electricity consumed for years and before to ensure the optimal performance of electrical appliances and in the shortest possible time any Solve the problem. These sockets and ceramics are also equipped with an oxygen measuring system that measures the amount of oxygen in the space and automatically turns on the ventilation system in case of harmful gases or lack of oxygen.

Description

Intelligent building ceramic system with oxygen detection and energy consumption

This invention relates to Building oxygen detection system that command to ventilation systems and doors and windows of the building when oxygen decreased .More ever ,this invention is applied to calculate amount of electricity consuming in domestic equipments to inform owners about the range of energy consuming.

  Several sensor devices are known which are useful for measuring oxygen and pH content in human and animal tissues. For example, U.S. Patent No. 4,758,814 describes such a device which is composed of an elongated flexible optical fiber containing a light sensing or light emitting end, and a light collecting and processing end. The light sensing end, which is adapted to be inserted into a human or animal body, i.e. a blood vessel, is composed of a portion of the optical fiber which is covered with a membrane, and which senses and returns light through the optical fiber to the light collecting and processing end which is, for example, a detector comprising photosensitive equipment such as a photomultiplier.
U.S. Patent No. 4,200,110 discloses a fiber optic pH probe employing an ion-permeable membrane envelope enclosing the ends of a pair of optical fibers, with a pH sensitive dye indicator composition disposed within the envelope.
U.S. Patent No. 3,814,081 describes another variant of an optical measuring catheter for measuring the degree of oxygen saturation in blood using an illuminating fiber optical system and a light receiving fiber optical system, both of which are arranged along side of each of other, and both having forward ends adapted to be inserted together into the organ of a living body to detect illumination of from 600 to 750 nm to measure blood oxygen concentration. This method does not rely on oxygen quenchable phosphor/fluorphor compounds, but instead employs direct measurement of light absorption of Hb vs. HbO 2 at specific wave lengths.
In another example, U.S. Patent No. 3,787,119 describes a multiple photometer device mounted in a catheter, which utilizes at least two associated photosensitive cells to measure physical and chemical characteristics of blood in vivo.
Summary of Invention

This disclosure presents a smart multifunctional system to detect the reduction of oxygen in the interior space .The system is also able to measure the amount of consuming electricity in the output of electrical devices embedded in ceramics and send to an online software panel. It is so helpful to detect the problematic devices and repair them as soon as possible .Even if a device consumes more than the determined standard ,this system let the consumers to be informed .This small-sized, high sensitivity seismograph comprises smart detecting sensors, programmed boarding system ,software ,application ,screen.

Technical Problem

Reduction of oxygen causes a lot of problems for residents ,sometimes shortage of oxygen and lack of ventilation may lead to Suffocation and silent death .On the other hand, being uninformed about extreme consumption of electrical devices may impose high expenses on consumers .Most of the time ,this matter is due to malfunction of the device which leads to the device failure .

Solution to Problem

To solve the mentioned deflects ,this invention is advanced with smart detecting sensors embedded in ceramics of different parts of the building .The device is able to detect and measure the amount of oxygen and control them on the board system, The resulted data are analyzed and displayed on the screener. The amount of monthly consumption would be analyzed during a determined period according to analytical diagrams to inform the consumers to be aware of their electrical devices excessive consumption.

Advantageous Effects of Invention

This smart device contains an oxygen detecting and commanding system to ventilate the interior space .This device is advanced with managing sensors to measure and analyze the consuming electricity on the basis of the standard template and prevents excessive electricity consumption .To reach this aim ,the device benefits from the ability to disrupt the electricity channel to inform the users and stops unordinary energy consumption.

Fig.1.It shows the view of the device.

Fig2.It shows the board.

Fig.3.It shows the place of application on the mobile.

Fig4.It shows the screen wherein electricity consumption is displayed by analyzed diagrams.

Disclosure presents a smart oxygen detector device ,which is able to measure the level of oxygen in the environment and alarm the users if diminished .This process is completed through ceramics devised in different parts of the building .The related application(Fig.3)can easily be installed on the consumer mobile .Applying this device is really convenient,what is need is to enter the device logo to reach the analyzed data displayed on the screen(Fig4).The said device benefits from the ability to calculate amount of electricity consumption through the output segments and send them on the software .The smart sensors(Fig.1) embedded in the system, receive and send the data on the software to be analyzed and then be compared with the prior intervals.

 Beside the domestic applicability ,the ability to reliably measure oxygen concentration or partial pressure, and provide a warning concerning the abnormal conditions is a critical requirement in the industrial safety environments, such as mines, oil production facilities, and chemical plants.

Claims (9)

1. This invention presents a utility model to detect and measure the amount of consuming energy in the electrical devices and alarm the excessive consumption during the determined time periods ,this device is able to detect shortage of oxygen due to its smart sensors and prevents silent death of the residents .This device is really practical to manage the energy consumption due to the standard template by entering the device logo on the mobile. This effective device comprises :detective sensors ,application ,programmed board ,software ,screen.
2. According to claim1,the device is equipped with smart oxygen detective sensors to measure amount of the oxygen.
3. According to claims 1,2,this smart system directly detects the amount of oxygen consumption through ceramics embedded in different parts of the building.
4. According to claim1,the seismometer systems measure all the output electricity currency of the building devices.
5. According to claim1,the received data are sent to the control board to be displayed.
6. According to claims1,5, the programmed software analyze the data and display them on the monitor on the basis of standard template.
7. According to claims 1,5,6 the system is able to report the data analysis in determined intervals through comprehendable charts.
8. According to the said claims, this economical device prevents excessive electricity consumption and informs the residents the situation of their equipments .
9. According to the said claims ,this utility model informs the consumers the defects of the device and repair or develop them before any failure which may result in crisis .Hence ,this accessible device prevents extra expenses.