FORM2
THE PATENTS ACT, 1970 39 of 1970
COMPLETE SPECIFICATION
See section 10 and rule 13
Title of Invention: SOLAR DC INDUCTION COOKTOP SOLAR DC ELECTRIC STOVE
Name of the Applicant: Mr. MEHFOOZ ALAM
Address for communication:
House Number - 104-A Wing,
New Ponnam Plaza, Naya Nagar,
Mira Road, East Mumbai - 401107.
Maharastra, INDIA.
Nationality: INDIAN
Preamble of the Description:
The following specification particularly describes the invention and the manner in
which it is to be performed

DESCRIPTION
TITLE - SOLAR DC INDUCTION COOKTOP SOLAR DC ELECTRIC STOVE
FIELD OF THE INVENTION
The Present Invention is about an induction cooking system with a induction heating system,, a heating coil, cooling fan, temperature sensor, a power supply layer and a Induction board. Control keys are arranged on the panel. A cavity is arranged between the heat insulation clapboard and the power supply layer. A solar cell module is arranged inside the cavity. One side of a first cell board and one side of a second cell board are fixedly connected in a hinge mode to form a structure capable of being folded and unfolded. Cookware that has a target that is heated by induction cooking is widely used nowadays due to its high efficiency and safety. Induction cooking is derived from the principle of electromagnetic induction by inducing eddy currents in the coil that get excited in the ferromagnetic material to cause heating In this invention, solar energy is used as a supplementary source of power for the induction stove. According to the embodiment of the utility model, under the condition that a 3-100V low-voltage direct-current power supply supplies power, the power supply can be switched off; the heating appliance outputs more than 100W of power which can be used practically, modern cooking is realized in the vehicle-mounted field, the areas with unstable remote power supply and needing storage battery power supply, and the areas with solar energy fields, and the modern and convenient living standard is improved.
BACKGROUND OF THE INVENTION
Cooking is one of the important human activities as food is the basic necessity of life. Commonly used sources of energy for cooking in India are kerosene, LPG, biogas, and electricity etc. At the national level, LPG is one of the most widely used energy sources for cooking purposes. After LPG comes Kerosene second in the list. Similarly, electricity, Biogas and fuel wood follows the list in the decreasing order of their use for cooking.In case of rural area, people rely exclusively on traditional cooking using fuel wood and scarcely LPG. Their cooking method is very inefficient. The cooking process generates a lot of smoke causing indoor air pollution. Besides, people have to walk for miles to collect fuel woods. They cut trees in the forest, which is one of the main causes of deforestation and environmental hazards in the

country. In case of urban area, there is a lot of dependency on LPG for cooking purpose. From time to time there is shortage of LPG in the market. In the conditions like energy crisis, life of urban people becomes extremely hard. In India, there is not any proper quality monitoring in the imported LPG products. Also often the news of LPG cylinder explosion are heard.and the Rates for LPG cylinder has sky rocketed. Despite knowing about high efficiency and economy of using electric stoves, regular power cutoffs from national grid prevents People from using electric stoves for cooking purpose in a reliable way. Even when people managed to cook using induction cooker during the availability of grid electricity, excessive loading of 10 kVA distribution transformers caused several problems. Clearly an alternative to LPG and load shedding is needed. Being one of the most popular solar electricity is the most appropriate solution to the problems mentioned above..
Our Invention of Induction stove works on both Electric Current and also through Solar Energy. For Solar Energy, We have an inverter and this is one of the most important pieces of equipment in a solar energy system. It's a device that converts direct current (DC) electricity, which is what a solar panel generates, to alternating current (AC) electricity, which the induction stove uses.
OBJECT OF THE INVENTION
Accordingly, the primary object of the present invention is to provide a uninterrupted power supply for continuous cooking.
Another object ia to provide best cost effective energy source. Since the Stove also has Solar based energy source, this will drastically reduce the Cooking Cost for the users family. Solar energy is sourced from Sun.
Another object is to use Eco Friendly Energy Source. Using the Solar Energy Source is Completely Eco Friendly and Cost effective source.
Another important object is that this can be used both by people in Rural Area and also in Urban Area. This will be cost effective and will be an Initial investment only.
Yet another object is that the maintenance cost is 'much less and so, this can be the best source of Energy for Cooking.

SUMMARY OF THE INVENTION
According to the basic aspects of the invention, This induction stove works both on Electricity based and also words on Solar Energy. The embodiment of the present invention relates to an electric cooker that can use low-voltage direct current inverter and boost to increase electromagnetic heating power, Including: a housing; a heating panel is provided on the upper surface of the housing, and a housing cavity is provided in the housing; an inverter booster plate; the inverter booster plate is located in the housing cavity, and the inverter booster The pressure plate is connected to the main control board or directly forms a main control board with the main control board; the main control board, the main control board is located in the containing cavity, and the main control board is electrically connected with a cooking appliance Heating electrical components; the electrical components for heating the cooking appliance are arranged inside the heating panel;. The embodiment of the present invention provides a heating appliance that can output more than 100W of practically usable power under the condition of 3-100V low-voltage power supply
Utility model content:
The utility model provides an electric cooktop, which aims to solve the background technical problems
Low-voltage DC-powered electromagnetic heating appliances have low output voltage, which will cause the output power of the electromagnetic heating appliances to be too small. Taking 12VDC as an example, the power can only be around SOW, and taking 24VDC as an example, the power can only be around 160W Cooking requirements or the power required to meet different cooking needs. In view of the defects in the prior art, embodiments of the present invention provide an electric cooker that uses low-voltage direct current inverter to boost the electromagnetic heating power to meet the actual cooking needs. In a first aspect, an embodiment of the present invention provides an electric cooker, including:
• A housing, a heating panel is provided on the upper surface of the housing, and an accommodating cavity is provided in the housing;

• A main control board, the main control board is located in the accommodating cavity, and the main control board is electrically connected to electrical components that heat the cooking appliance; the electrical components that heat the cooking appliance are provided inside the heating panel;
• The inverter booster board is an inverter booster board added in front of the main plate of the induction cooker. The inverter circuit can boost 3 ~ 100V low voltage DC to 60 *-* 450V for output. Voltage is connected to the main control board of the heating appliance, thereby increasing the input voltage of the main control board, and can increase the actual power of the induction cooker to the power required for actual cooking;
• Different input voltage and current of the inverter booster board will cause different voltage and current of the inverter output, and heating appliances with different input and output specifications can be designed to meet the cooking needs of different occasions.
• The inverter boosting plate may be located in the accommodating cavity, the boosting inverting pressure plate is connected to the main control board, and the inverter boosting plate and the main board are disposed in the accommodating cavity in the heating appliance;
• The inverter booster board can also be designed separately as a booster module, and the
inverter booster board can also be disposed outside the heating appliance; the
electromagnetic heating appliance and the booster module are connected to work through
a power cord;
• The inverter boost board and the main control board are directly designed on one main control board, and the inverter boost board and the main control board are designed together; the inverter boost board and the main control board are designed together The main board can be set inside the electromagnetic heating shell,
• In the dual power supply mode of AC power supply and low voltage DC power supply, a power supply identification switching circuit needs to be designed. The identification switching circuit is selective, and can only be input from AC power supply or low voltage DC power input. The lead terminals and the heater shell meet the requirements of the national safety insulation standard. In the low-voltage DC input mode, the external mains connection terminals and the electromagnetic heater must meet the requirements of the national safety insulation standard;

• In the dual power supply mode of AC power supply and low voltage DC power supply, the heater has a power supply identification judgment detection function, which can realize the power supply power supply identification and judgment and detect the power supply voltage. The MCU reads the type and voltage of the detection power supply and makes the heater Enter the corresponding working mode;
• Low voltage DC input contains 3 ~ 100V low voltage DC voltage, different versions of heating appliances can be designed according to different uses;
• The input voltage display circuit can detect and display the input voltage in real time;
• The input current display circuit can detect and display the input current in real time;
• The output power display circuit can detect and display the output power in real time;
• A cooling fan electrically connected to the main control board, the cooling fan is located in the accommodating cavity and supplies air to the main control board;
• The casing further includes: a face casing and a bottom casing, the bottom casing forming the accommodating cavity with the face and the heating panel;
The electric stove is specifically a household induction cooker, a commercial induction cooker, a vehicle-mounted induction cooker, an emergency induction cooker, or an IH rice cooker with a low-voltage DC power supply feature. It can be seen from the above technical solutions that the electric cooker provided by the embodiment of the present utility model can use low-voltage direct current to boost the electromagnetic heating power through inverter boosting. By installing an inverter boosting plate inside or outside the casing, the electromagnetic heating The input voltage of the control board is increased, which can increase the output power and meet the actual cooking power. If necessary, the induction cooker can work in AC and DC compatible mode, and it can work with commercial power under the conditions of commercial power supply. Under the condition of voltage DC power supply, low voltage DC power can be realized to work, which greatly improves the application field of the electromagnetic oven.
BRIEF DESCRIPTION
In order to more clearly explain the technical solution for the implementation of the present invention, the following will briefly introduce the drawings required in the embodiments or the description of the prior art. Obviously, the drawings will give a clear picture of the invention

Which has a combination of Electric and Solar functionality combined in a Smart Induction
stove.
*
DETAILED DESCRIPTION
An embodiment of the present invention provides an embodiment of the present invention to provide an electromagnetic heating electric appliance that can be powered by low-voltage direct current, including: the housing includes a face shell, and the face A bottom shell, corresponding to the shell. The face shell includes a heating panel on the upper surface and a side wall surrounding the upper surface. A heating panel is provided on the upper surface of the face shell, and an accommodating cavity is provided in the housing , a main control board , the main control board is located in the accommodating cavity, and the main control board is connected to the inverter booster board, and the main control board is electrically connected to an electric appliance element for heating a cooking appliance; the electric appliance element for heating a cooking appliance is provided inside the heating panel; and The cooling fan is connected to the main control board;
It is a scheme that the low-voltage DC input inverter booster board and the main control board are designed separately and are built into the housing accommodating cavity. Specifically, the DC power is connected to the inverter booster board through the wire clamp through the wire On the upper side, the inverter booster board is connected to the electromagnetic main control board through wires, the main control circuit board is connected to the electromagnetic reel, and the cooling fan is optionally connected, and the control light board is connected to the main control board through the cable For operation by controlling the lamp board, it should be noted that the electromagnetic coil disk is located in the housing , in order to facilitate the drawing, the electromagnetic coil disk is drawn outside the housing and is the heating panel;
It is a mixed input of low-voltage DC and mains AC. The power switch board, inverter boost board and main control board are designed separately, and they are built into the housing cavity. Specifically, the DC power is controlled by the clamp The AC power is input to the power switch board through the plug, the power is selected and switched through the switch board, and the inverter boost board and the main control board are connected, and the main control circuit

board and the electromagnetic coil are connected. Optional connection to the cooling fan , the control light board is connected to the main control board through the cable, and the operation is controlled by the control light board. It should be noted that the electromagnetic coil plate is located in the housing , for convenience of viewing the picture, The electromagnetic coil disk is drawn out of the housing , is the heating panel;
As shown in Figure 1 it is a mixed input of low-voltage DC and AC power. The inverter booster board, power switching board and main control board are designed together, and the external cavity is designed.
Specifically, the direct current is input to the main control board through the plug through the clamp and the alternating current. The main control board includes a power switching circuit, an inverter boost circuit and an electromagnetic heating circuit, and the main control circuit board is connected to the electromagnetic coil , Optional connection to the cooling fan , the control light board is connected to the main control board through the cable, and the operation is controlled by the control light board, is the heating panel;
As it is a low-voltage DC input. The inverter boost board and the main control board are designed separately. The main control board is placed in the housing cavity, and the inverter boost circuit is external and placed in a new dedicated housing cavity. Specifically, the DC power is connected to the inverter booster board by the clamp through the power cord , the inverter booster board is connected to the main control board through a plug and a wire, and the main control circuit board and the electromagnetic coil Connect and connect the cooling fan , the control light board is connected to the main control board through the cable, and the operation is performed through the control light board. It should be noted that the electromagnetic coil plate is located in the housing , for easy viewing The electromagnetic coil disk is drawn out of the housing , is the heating panel,
In summary, the embodiments of the embodiments of the present utility model provide an electric cooker, which uses low-voltage DC inverter boost boosted electromagnetic heating electric appliances, and boosts the low-voltage DC power through the inverter boost circuit. The

electricity is connected with the electromagnetic heating plate, so as to increase the output power of the electromagnetic heating and meet the requirements of different use occasions.
The disclosed method should not be interpreted to reflect the intention that the claimed invention claims more features than those explicitly recited in each claim. Rather, as reflected in the claims, aspects of the utility model lie in less than all features of the single embodiment disclosed above. Therefore, the claims that follow the specific embodiment are hereby expressly incorporated into the specific embodiment, where each claim itself serves as a separate embodiment of the present invention. In this specification, the schematic expression of the above terms does not necessarily refer to the same embodiment or example. It should be noted that the embodiments in the present application and the specific features, structures, materials or characteristics described in the embodiments can be combined with each other without conflict or contradiction. All should be covered by the scope of the claims and the description of the present invention.
BRIEF DESCRIPTION OF THE ACCOMPANYING DRAWING - Figure 1
The above set forth and other features of the invention are made more apparent in the ensuring detailed description of the invention, when read in conjunction with the accompanying drawing, wherein:
Figure 1 Control panel
• A plate of insulating material having outer and inner panel surfaces separated by a
predetermined thickness. An LED display panel for you to read the values and monitor
your cooking temperatures, powers, timings, etc. This Panel helps to control the
conductive region comprises a layer of copper.
Item 2-Cooling Fan
• Internal cooling fan to help prevent damage to internal components, such as burners,
relay boards, and control boards from excessive heat. ... During extended use, the cooling
fan may continue to run even after the cooktop has been turned off This is normal
operation.

Item 3 = Heating Coil
• An induction coil inside the cook-top heats the iron base of cookware by magnetic
induction. Using induction cookers produces safety, efficiency (the induction cook-top is not heated itself) and speed
Item 4- Temperature Sensor
The temperature sensor measures the temperature of the underside of the glass, as being representative of the temperature of the base of the cooking vessel. In a known induction hob, the temperature sensor is provided as a safety measure to make sure that the pan does not overheat
Item 5-Control Panel Wire
This is the conneting wire with the panel and the system.
Item 6- 24 V +/- input
This is the battery power input source
Item 7- Power Supply
Cooking vessel is placed on top of a coil of copper wire with an alternating electric current passing through it. The resulting oscillating magnetic field wirelessly induces an electrical current in the vessel
Item 8- Induction Board
This is also a PCB board providing notable information to the User
Item 9- Battery
The battery charging through the solar DC and power control unit to control the output power at varying operating frequency chosen by the cooking setting.
Item 10- Solar Plate
Solar power is harnessed using Solar Photovoltaic (PV) technology that converts sunlight (Solar radiation) into electricity by using semiconductors. When the sun hits the semiconductor within the PV cell, electrons are freed and bus bars collect the running electrons which results in electric current .Solar Energy is received Solar energy presents a good, clean and a reliable source of

energy for the future. Item 11-Plastic Bottom
This is the outer cover for the induction stove. Item 12- Crystal Plate
Black Crystal Plate with Electromagnetic Heating Hot Pot Induction Cooker

STATEMENT OF CLAIMS TITLE - SOLAR DC INDUCTION COOKTOP SOLAR DC ELECTRIC STOVE
I Claim - This invention claims the followin2 by using I/We Claim
1. A smart cook-top induction stove having;
An induction cooking appliance comprising
A cook top having an upper surface and a lower surface,
a. A Heating Coil
b. A Control Panel
c. Electricity Source connected to Control Panel.
d. Solar Energy panel
e. Cooling Fan
f. Battery which has solar energy as input.
2. The embodiment of the present invention relates to An electric cooker according to Claim 1, that can use low-voltage direct current inverter and boost to increase electromagnetic heating power, Including; a housing; a heating panel is provided on the upper surface of the housing, and a housing cavity is provided in the housing;
3. An Electric Cooker according to Claim l,an inverter booster plate; the inverter booster plate is located in the housing cavity, and the inverter booster The pressure plate is connected to the main control board or
directly forms a main control board with the main control board; the main control board, the main control board is located in the containing cavity, and the main control board is electrically connected with a cooking appliance
4. The electric cooker according to claim 1, characterized in that the housing further
includes a power connection line connecting the main control board and the electrical
component that heats the coil and in turn the cooking appliance.

5. The embodiment of the present invention provides a heating appliance that can output
more than 100W of practically usable power under the condition of 3~100V low-
voltage DC power supply.
6. In the vehicle field, remote power supply is unstable and needs battery power supply,
and solar fields realize modern cooking and improve modern and convenient living
standards. For securing Solar Energy, The system has Solar Panels which receives
the solar energy that is transferred to a Battery and the Power is supplied to the
induction stove. Thus eco Friendly power is made available and is very cost effective.