AU2021102874A4 - Remote Controlled Solar Assisted Intelligent Smart Chula - Google Patents

Abstract

Remote Controlled Solar Assisted Intelligent Smart Chula ABSTRACT Our Invention Remote Controlled Solar Assisted Intelligent Smart Chula is a work describes a remote controlled based smart Chula with intelligent abilities like sensing the temperature level and automatically controls the entire system. The major use of this automatic smart Chula is to stop the wastage ofupper part of the boiled milk which is usually been inflated and flowed down to the Chula and surrounding if it is not taken care of properly. So, implanting of sensors in it, do sense the temperature level of milk, when the temperature level of milk crosses the fixed limit, it automatically generates signal and then automatically stops the heat. In the automatic smart Chula, appropriate heat is provided which also controls the damaging of milk constituents like fat level, protein level, water level and other things. Here, the concept of renewable energy in terms of solar panel, has been used. TOTAL NO OF SHEET:03 NO OF FIG: 05 102 Intelligent system &L module Fiuro2lolraanl

Description

TOTAL NO OF SHEET:03 NO OF FIG: 05

102 Intelligent system &L module

Fiuro2lolraanl

Australian Government IP Australia Innovation Patent Australia

Remote Controlled Solar Assisted Intelligent Smart Chula

Name and address of patentees(s): Dr. Vaneet Kumar Vice Principal (CTIEMT) CT institute of Engineering, management and technology, Jalandhar, Punjab, India-144020 Dr.Varsha Associate Professor (CTIEMT) CT institute of Engineering, management and technology, Jalandhar, Punjab, India-144020 Dr. Vrajesh Sharma System Manager Panjab University Swami Sarvan and Giri Regional Center, Hoshiarpur, Punjab, India Pin Code:146001 Dr. Sarika Lohana Post-Doctoral Research Fellow State Bank Institute of Leadership, Kolkata, India. Dr. Niranjan Sahoo Associate Professor Xavier Institute of Social Service, Ranchi-834001, India. Dr. Parmod Kumar Associate Professor School of Energy and Electromechanical Engineering, Hunan University of Humanities, Science and Technology, Dixing Road, Loudi City, Hunan Province, China-417000 Dr. Sudesh Kumar Associate Professor Chemistry, Banasthali Vidyapith, Banasthali 304022, India. Dr. Anand Mohan Associate Professor Usha Niketan, Devipara, Telipara, Dhanbad (Jharkhand) -826001, India. Monalisa Pattanayak Ph. D Research Scholar in Management, Marketing (Full-time) Department of Business Management, KLU Business School, KL University (Deemed to be University), Green Fields, Vaddeswaram, Vijayawada, Guntur District, Andhra Pradesh, India, Pin Code: 522502 Prof. Sachin Kumar Assistant professor in Mechanical Engineering Department, Sat Kabir institute of technology and Management, Ladrawan, Bahadurgarh ,Haryana 124507, India. Dr Hemant Kumar Gianey Assistant professor, CSED Department, Thapar institute of engineering and technology, Patiala, Punjab, India. Dr. Rashmi Popli Assistant Professor Address: J.C. Bose University of Science and Technology, YMCA City: Faridabad State: Haryana, India-121006 Nisha Jha Research Scholar J.C. Bose University of Science and Technology, YMCA City: Faridabad, Haryana India-121006 RahulKar SACT-II TEACHER, DEPARTMENT OF MATHEMATICS, KALYANI MAHAVIDYALAYA College Address: KALYANI, NADIA, WEST BENGAL, INDIA Pincode: 741235 Ramesh Chandra Panda Dean Synergy Institute of Engineering & Technology, Dhenkanal, Odisha,759001 Complete Specification: Australian Government.

FIELD OF THE INVENTION Our Invention is related to a Remote-Controlled Solar Assisted Intelligent Smart Chula

BACKGROUND OF THE INVENTION

So unnecessary wastage of food product or the part of food which we consider here as milk, should be avoided. Basically, when we boil the milk, we have to stand near by the gas Chula, which is totally the wastage of time. In many homes, people turn on the gas, put milk for boiling and after some time they forget about the milk which is put on burner. And the part which usually come out of the pan is full of fat and proteins.

If someone put milk on gas and gas is at high flame, after complete boiling, the milk comes out from the burner and makes the gas off with milk content which is very dangerous. It will cause the gas leaking accidents and also reduces the life span of the gas chollas. On the other hand, if the gas is at low flame (usually called sim in homes) and people forget about the milk.

In consequence of that, after 2 to 3 hours the bottom of the pan burned having charred with proteins burning smell and it will cause to the denaturation of the proteins and causes curdling. After more and more heat, the taste changes and color changes due to Maillard reaction. So, if we can make an intelligent smart Chula which will be off when the milk will be at boiling point or boiling stage. We are using some temperature control sensors that sense the temperature of heating milk and will stop at 90degree centigrade as it is the boiling point of milk. And below this temperature, it will work as usual.

OBJECTIVES OF THE INVENTION 1. The objective of the invention is to a renewable energy in terms of solar panel, has been used as energy source and also an intelligent smart challah has been developed which is affordable. 2. The other objective of the invention is to a Temperature control sensor will stop the Chula when it reaches the particular temperature (boiling point of milk). 3. The other objective of the invention is to a a remote-control system is attached to the Chula to control the functioning (ON, OFF etc.) remotely and also It will be used in kitchen or big Dhanat fulfil the societal needs.

SUMMARY OF THE INVENTION The resource depletion has prompted many countries to push the usage of renewable energy, like underground heat. In USA, Singapore Japan, underground Intelligent heat pump technology has begun to be used in distinctive large-scale workplace buildings; within the starting, Radio management merely called the RC system is employed to regulate a tool through radio signals.

This RC term is additionally typically accustomed management a vehicle employing a hand-held transmitter. A mobile device with the supply situated outside of the device that's supervised employing a method that doesn't limit its movement is characterised as a remote-control automotive utilizing RC. associate degree RC controlled automotive means that there's a regulator device victimization the radio with infrared or cable affiliation amid the device and also the vehicle.

The invention we tend to propose a style a remote-control system for a automotive victimization the GSM network via the operator's movable. Since GSM doesn't use the radio wave and is accessible to most over the globe, it will simply overcome the issues that are visaged victimization the RC system. GSM network-based controller system beside renewable power supply, that is very suggested these days because of energy crisis, permits this movable operated sensible Chula style a big development in- sensible Chula device system. BRIEF DESCRIPTION OF THE DIAGRAM

Figure 1. Block diagram of the system model of the smart Chula concept.

Figure 2. Solar Panel. Figure 3. Circuit diagram for remote control system

Figure 4. Positive Thermistor.

Figure 5. Positive Thermistor DESCRIPTION OF THE INVENTION Solar panel

Solar electrical phenomenon (PV) panels remodel daylight into usable electricity. it's because of the electrical phenomenon effect; the flexibility of pertain emit electrons once bathed in light-weight.

Basic Steps in alternative energy Generation and Transmission. 1. Sunlight hits the solar panels, and creates an electric field.

2. The electricity generated flows to the edge of the panel, and into a conductive wire.

3. The conductive wire brings the electricity to the inverter, where it is transformed from DC electricity to AC, which is used to power our Chula.

4. Another wire transports the AC electricity from the inverter to the electric panel on the property (also called a breaker box), which distributes the electricity.

5. Any electricity not needed upon generation flows through the utility meter and into the utility electrical grid. As the electricity flows through the meter, it causes the meter to run backwards, crediting your property for excess generation.

This is the basic idea of the generation and flow of solar electricity, let's take a deeper dive into the science behind the solar photovoltaic panel.

The Science Behind Solar PV Cells

Step 1: star PV panels square measure comprised of the many little electrical phenomenon cells - electrical phenomenon which means they will convert daylight into electricity. These cells square measure manufactured from semi-conductive materials, most frequently semiconducting material, a fabric which will conduct electricity whereas maintaining the electrical imbalance required to make an electrical field.

Step 2: once daylight hits the semiconductor within the star PV cell (step one in our high level review) the energy from the sunshine, within the style of photons, is absorbed, knock loose variety of electrons, that then drift freely within the cell. The photovoltaic cell is specifically designed with completely and charged semiconductors sandwiched along to make an electrical field. This field of force forces the drifting electrons to flow in a very bound direction- towards the semiconducting metal plates that line the cell. This flow is thought as associate energy current, and therefore the strength of the present determines what proportion electricity every cell will manufacture. Once the loose electrons hit metal plates, the present is then directed into wires, permitting the electrons to flow like they might in the other supply of electrical generation.

Step 3: because the solar array generates an electrical current, the energy flows through a series of wires to associate electrical converter (see step three above). whereas star panels generate electrical energy (DC) electricity, most electricity customers want electricity (AC) electricity to power their product. The inverters operate is to show the electricity from DC to AC, creating it accessible for everyday use.

Step 4: when the electricity is remodelled into a usable state (AC power), it's sent from the electrical converter to the electrical panel (also referred to as a breaker box) and distributed throughout the building pro re nata. The electricity is currently promptly accessible to power lights, appliances, and alternative electrical devices with solar power.

Step 5: Any electricity that's not consumed via the breaker box is shipped to the utility grid through the utility meter. The utility meter measures the flow of electricity from the grid to your property and the other way around. once your solar power system is manufacturing additional electricity than your mistreatment on website, this meter really runs backwards, and you're attributable for the surplus electricity generated through the method of web metering.

When you square measure mistreatment additional electricity than your solar panel is generating, you pull supplemental electricity from the grid through this meter, creating it run usually. Unless you've got gone fully off-grid through a storage answer, you'll ought to pull some energy from the grid, particularly in the dark, once your solar panel isn't manufacturing. However, abundant of this grid energy are offset from the surplus solar power you generate throughout the day and in periods of lower usage.

Remote control:

The appliance will currently be management led by a foreign control performing at the selected frequency. The circuit are often activated from up to ten metres.

Working Basics

The 38kHz infrared (IR) rays generated by the device area unit received by IR receiver module TSOP1738 of the circuit. Pin one of TSOP1738 is connected to ground, pin two is connected to the facility offer through resistance R5 and also the output is taken from pin three. The signal is amplified by junction transistor TI (BC558). The amplified signal is fed to clock pin fourteen of decade counter IC CD4017 (IC1). Pin eight of ICI is grounded, pin sixteen is connected to Vic and pin three is connected to LEDI (red), that glows to point that the appliance is 'off.

The output of ICi is taken from its pin two. LED2 (green) connected to pin two is employed to point the 'on' state of the appliance. junction transistor T2 (BC548) connected to pin two of IC Idrives relay RL1. Diode 1N4007 (D1) acts as a freewheeling diode. The appliance to be controlled is connected between the pole of the relay and neutral terminal of mains.

Temperature sensor:

The basic principle of operating of the temperature sensors is that the voltage across the diode terminals. If the voltage will increase, the temperature conjointly rises, followed by a drop between the junction transistor terminals of base and electrode during a diode.

Besides this, Cardio-Rite features a moving wire temperature detector that works on the principle of stress amendment because of natural process. The moving wire temperature meter is meant on the principle that dissimilar metals have a special linear constant of enlargement with temperature variation.

It primarily consists of a magnetic, high strength stretched wire, the 2 ends of that area unit fastened to any dissimilar metal during a manner that any amendment in temperature directly affects the stress within the wire and, thus, its natural frequency of vibration.

The dissimilar metal, within the case of the Cardio-Rite temperature meter, is metallic element Aluminium features a larger constant of thermal enlargement than steel. because the temperature signal is reborn into frequency, an equivalent read-out unit that is employed for alternative moving wire sensors be used for observation temperature also.

The amendment in temperature is detected by the specially designed Cardio-rite moving wire detector associated is reborn to an electrical signal that is transmitted as a frequency to the read-out unit.

The frequency, that is proportional to the temperature and successively to the stress the stress the wire, is determined as follows:

f = 1/2 [ go /p] / 21 Hz

Thermistors (as shown in Figure four and Figure 5) or thermally sensitive resistors square measure those that modification their physical look once subjected to alter within the temperature. The thermistors square measure created of ceramic material like oxides of nickel, metal or Co coated in glass that permits them to deform simply.

Most of the thermistors have a negative temperature constant (NTC) which suggests their resistance decreases with a rise within the temperature. however there square measure many thermistors that have a positive temperature constant (PTC) and, their resistance will increase with an increase within the temperature.

Negative Temperature Coefficient (NTC) Thermistor

A semiconductor device is essentially a sensitive temperature detector that reacts exactly to even the minute temperature changes. It provides an enormous resistance at terribly low temperatures. This means, as presently because the temperature starts increasing, the resistance starts dropping quickly.

Due to the massive resistance modification per C, even little activity is displayed accurately by the Negative Temperature constant (NTC) semiconductor device. thanks to this exponential rule, it needs linearization. they typically add the vary of -50 to 250 °C.

Electric heaters:

Electric heaters are around for many years as a supply heat in homes to supply warmth to United States of America. one amongst the explanations for his or her quality is thanks to lower price to buy and straightforward maintenance compared to different sources of warmth.

They work by changing electricity into heat victimization metals as heating components. The metals have high resistance that allow a particular quantity of current to flow through them to supply the desired heat. power is modified into heat and therefore the relationship between the electric power and Btu/hr is:

1 Watt = 3.415 Btu/hr.

Conclusion

This innovation will help the society a lot.

WE CLAIMS

1. Our Invention Remote Controlled Solar Assisted Intelligent Smart Chula is a work describes a remote controlled based smart Chula with intelligent abilities like sensing the temperature level and automatically controls the entire system. The major use of this automatic smart Chula is to stop the wastage of upper part of the boiled milk which is usually been inflated and flowed down to the Chula and surrounding if it is not taken care of properly. So, implanting of sensors in it, do sense the temperature level of milk, when the temperature level of milk crosses the fixed limit, it automatically generates signal and then automatically stops the heat. In the automatic smart Chula, appropriate heat is provided which also controls the damaging of milk constituents like fat level, protein level, water level and other things. Here, the concept of renewable energy in terms of solar panel, has been used. 2. According to clain1# The Invention is to a Renewable energy in terms of solar panel, has been used as energy source and also an intelligent smart challah has been developed which is affordable. 3. According to clainl,2# The Invention is to a Temperature control sensor will stop the Chula when it reaches the particular temperature (boiling point of milk). 4. According to clain1,3# The Invention is to a A remote control system is attached to the Chula to control the functioning (ON, OFF etc.) remotely and also It will be used in kitchen or big Dhanat fulfil the societal needs.

TOTAL NO OF SHEET:03 NO OF FIG: 05 26 May 2021 2021102874

Figure 1. Block diagram of the system model of the smart chula concept.

Figure 2. Solar Panel.

TOTAL NO OF SHEET:03 NO OF FIG: 05 26 May 2021 2021102874

Figure 3. Circuit diagram for remote control system

Figure 4. Positive Thermistor.

TOTAL NO OF SHEET:03 NO OF FIG: 05 26 May 2021 2021102874

Figure 5. Positive Thermistor