Patent Application
20230083786
The present invention generally relates to self-service tableware and more particularly, it pertains to a take-out cooking box that comprises a heating arrangement therein.
In modern times, people are ordering various food from various restaurants and various other food outlets such as but not limited to: pizza, pasta, curry, fried rice, noodles, meat slices, fish, and so on using multiple food ordering platforms such as mobile applications, websites, telephone calls and so on. Further, customers sometimes go to the restaurant and various other food outlets, and then, they place orders of the food and then take away ordered food for later consumption.
After placing an order for the food, generally food is delivered in a disposable food container or a food packaging tray. The disposable food container or a food packaging tray is made up of heat-blocking material such that the food inside the disposable food container or a food packaging tray remains heated for extended periods of time.
Often, food from the restaurant to the customer is delivered by a delivery personnel using various means of transport. Due to various factors such as but not limited to: traffic jams in road to delivery location, cold/rainy weather, and rush/high demand hours, the food delivery time is extended which could lead to food getting cold. Further, sometimes, restaurant worker packages cold food in the disposable food container or a food packaging tray for collection by the delivery personnel due to various factors such as: low temperature improper cooking, peak hour demand, human error and so on. Thus, the customer gets cold food (low-temperature food) which does not provide satisfaction and/or enjoyment to the customer who is planning to eat the food.
Generally, the cold food is heated by the customer depending on the taste of the customer. However, sometimes, the customer does not have a readily available heating arrangement such as a gas stove, an induction heater, a microwave oven etc. Thus, the customer has to eat cold food (low-temperature food) which does not provide satisfaction and/or enjoyment to the customer.
Further, some customers like to customize (prepare) their food by heating the food (raw food/ready to eat food) according to their own taste and style in their own location i.e at home, office, park, and on. For instance, many customers want to barbecue their food and further add their own spices and oil to make food more delicious. The pre-packaged disposable food container or a food packaging tray provided by the restaurant does not provide the option of customization of the food by heating the food at the customer's location.
Various types of cooking boxes attempting to solve the above problems are known in the prior art. For example, WO2008032135A1 discloses a battery-powered lunch box that includes an electric element extending about a food-receiving dish in the base and an evacuated heat insulating base-chamber surrounding the element, sides, and floor of the dish. A lid includes an evacuated heat insulating lid chamber with a plug portion which projects into the mouth of the dish for closing the dish and reducing heat losses. The configuration of the battery powered lunch box allows food to be heated in places remote from an electricity supply. However, the existing solution related to cooking boxes increases manufacturing complexities and costs related to the cooking boxes.
Thus, the existing prior art(s) do not provide a cost effective, simple, easy to operate and efficient solution and fail to provide a take-out cooking box that comprises a heating arrangement therein. Thus, there is a need for a system and method that allows the customer to heat the food at their own location.
Before the present systems and methods are described, it is to be understood that this application is not limited to the particular systems, and methodologies described, as there can be multiple possible embodiments that are not expressly illustrated in the present disclosures. It is also to be understood that the terminology used in the description is for the purpose of describing the particular versions or embodiments only, and is not intended to limit the scope of the present application.
Embodiments of the present invention disclose a self-service take-out cooking box comprising: a base; a plurality of sidewalls extending from the base; a cavity formed in the space between the base and the plurality of sidewalls; a lid cover configured to close the top of cavity of the plurality of sidewalls; wherein the lid cover could be selectively brought in an open position and/or a closed position. The cavity comprises a heating module and at least one food container to receive at least one food item. The heating module comprises a cooking grate configured to provide a cooking platform for at least one food item and a cooking fuel receiving chamber positioned substantially below the cooking grate. The cooking fuel receiving chamber is configured to receive at least one cooking fuel.
In an embodiment, the cavity comprises at least one cooking fuel ignition element.
In an embodiment, the cooking fuel ignition element is selected from group comprising of: a matchstick box, a gas lighter, an oil lighter and an electric lighter.
In an embodiment, the heating module is concealed inside self-service take-out cooking box when the lid cover is in a closed position.
In an embodiment, the cooking grate is detachable to allow placement and/or removal of the cooking fuel in/from the cooking fuel receiving chamber.
In an embodiment, the heating module comprises an insulating element to effectively block heat transfer from the heating module to the food containers.
In an embodiment, the cooking fuel receiving chamber receives cooking fuel selected from the group comprising of: charcoal, coal, Briquette, biomass, wood, kerosene and liquid propane and/or combinations thereof.
Embodiments of the present invention further disclose a self-service take-out cooking box comprising a base and plurality of sidewalls extending from the base, a cavity formed in the space between the base and the plurality of sidewalls. A lid cover is configured to close the top of cavity of the plurality of sidewalls. The lid cover could be selectively brought in either an open position and/or a closed position. The cavity comprises a heating module and at least one food container to receive at least one food item. The heating module comprises a cooking grate configured to provide a cooking platform for at least one food item, and an electric heater positioned substantially below the cooking grate to provide heat to at least one food item.
In an embodiment, the heating module comprises an electrical inlet to receive electric power from the surrounding.
In an embodiment, the heating module comprises at least one battery to act as electrical power source for the electric heater.
In an embodiment, the heating module is concealed inside self-service take-out cooking box when the lid cover is in a closed position.
In an embodiment, the heating module comprises an insulating element to effectively block heat transfer from the heating module to the food containers.
In an embodiment, the cooking grate and the electric heater of the heating module are integrally connected to each other.
Embodiments of the present invention further disclose a meal preparation method that enables a customer to prepare a customized meal comprising the steps of providing a self-service take-out cooking box; wherein the self-service take-out cooking box comprises a heating module and at least one food container; packaging at least one food item in the food containers of the self-service take-out cooking box; transporting the self-service take-out cooking box to the customer; placing of the food items of the food containers onto a cooking grate of the heating module by customer, and customized heating of the food items using the heating module by the customer; thereby preparing a customized meal.
In an embodiment, the food item packaged in the food containers is initially raw uncooked food.
In an embodiment, the food item packaged in the food containers is ready-to-eat meal.
In an embodiment, an additional step of meal preparation method comprises placing at least one cooking fuel inside a cooking fuel receiving chamber of the heating module; and igniting the cooking fuels to produce heat for the food items.
In an embodiment, an additional step of meal preparation method comprises detaching the cooking grate to allow placement and/or removal of the cooking fuel in/from the cooking fuel receiving chamber.
Various objects, features, aspects and advantages of the present invention will become more apparent from the following detailed description of the embodiments of the invention, along with the accompanying drawings in which like numerals represent like components.
The foregoing summary, as well as the following detailed description of preferred embodiments, is better understood when read in conjunction with the appended drawings. There is shown in the drawings example embodiments, however, the application is not limited to the specific system and method disclosed in the drawings.
Some embodiments, illustrating its features, will now be discussed in detail. The words “comprising,” “having,” “containing,” and “including,” And other forms thereof, are intended to be equivalent in meaning and be open-ended in that an item or items following any one of these words is not meant to be an exhaustive listing of such item or items, or meant to be limited to only the listed item or items. It must also be noted that as used herein and in the appended claims, the singular forms “a,” “an,” And “the” Include plural references unless the context clearly dictates otherwise. Although any methods and systems similar or equivalent to those described herein can be used in the practice or testing of embodiments, the preferred methods, and systems are now described. The disclosed embodiments are merely exemplary.
The various features and embodiments of the present invention for a self-service Take-out cooking system and method involving use of the self-service take-out cooking box (100, 200) will now be described in conjunction with the accompanying figures, namely
In another embodiment (not shown in figures), the lid cover 114 is not connected to any of sidewalls 112. The lid cover 114 is completely detached from the plurality of sidewalls 112 when the self-service take-out cooking box 100 is in the open position. To bring the self-service take-out cooking box 100 in the closed position, the lid cover 114 is manually placed on top of the plurality of sidewalls 112 and locked in place and vice versa.
In another embodiment (not shown in figures), the lid cover 114 is made of a tearable material. The tearable material could include but is not limited to: plastic film, aluminium foil, paper, plastic sheet, and so on. The self-service take-out cooking box 100 is initially at closed position such that the lid cover 114 is connected to the sidewalls 112. In the closed position, the lid cover 114 could be glued or tape bonded to the plurality of sidewalls 112. Afterward, the lid cover 114 is manually torn (ripped) to allow access to the contents (food items 10) of the self-service take-out cooking box 100, thereby bringing the self-service take-out cooking box 100 in the open position.
To effectively lock the lid cover 114 with the plurality of sidewalls 112, thereby bringing the self-service take-out cooking box 100 in the closed position, a locking mechanism (not shown in figures) is provided on at least one of the sidewalls 112 and/or lid cover 114. The locking mechanism (not shown in figures) could include any conventional means already known in art and it could include but not be limited to: self-locking flaps, self-locking tabs, velcro lock, magnetic lock, origami, snap fit lock, zipper, paper cutting/folding, adhesives, tapes, heat-sealing and so on.
In various embodiments, the food item 10 placed in food container(s) 150 could be any substance capable of being eaten and/or swallowed and/or providing nutritional support to the consumer/customer. The food item 10 could be in form of solid, liquid, or liquid-solid mixture and the food item 10 could include any edible and/or drinkable product such as but not limited to: pizza, pasta, curry, fried rice, noodles, coffee drink, soup, hamburger, meat, fish, corn, omelette, sauce, ketchup, oils, herbs, spices and so on. Further, the food container(s) 150 could be made of any food grade material such as but not limited to: food grade polyethylene, paper, styrofoam, pulp, polystyrene, wood, eco-friendly alternatives such as biodegradable plastics and so on and could have any shape such as but not limited to: square, rectangle, circle, hexagon, triangle and so on. The food item 10 could be in form of solid, liquid, or liquid-solid mixture and the food item 10 could include but not limited to: pizza, pasta, curry, Fried rice, noodles, coffee drink, soup, hamburger, meat, fish, corn, omelette and so on.
In another embodiment as shown in
The heating module 130 of the self-service take-out cooking box 100, according to an embodiment of the present invention will now be described with reference to
As shown in
In an embodiment, as shown in
In various embodiments (not shown in Figures), the insulating element 134 could include but not limited to aluminium foil, urethane foam, styrofoam, expanded polystyrene, cotton, food grade polyethylene, or polypropylene, vacuum insulation, tin foil, plastic wrap and so on.
In an embodiment, as shown in
In an embodiment, as shown in
As shown in
In an embodiment (not shown in figures), the heating module 130 comprises a storage slot (not shown in figures) to receive the cooking fuel 162 and/or the cooking fuel ignition element 150.
The self-service take-out cooking box 200 comprises a base 110, and a plurality of sidewalls 112 extending from the base 110. A cavity 120 is formed in the space between the base 110 and the plurality of sidewalls 112. A lid cover 114 (
As shown in
In an embodiment (not shown in figures), the heating module 230 comprises an electrical inlet (not shown in figures) to receive electric power from the surroundings. Further, the heating module 230 could also include electrical components/circuitry (not shown in figures) that are capable of collecting electric power from the electrical inlet (not shown in figures) and transmitting electric power to the electric heater 250 and the electrical components/circuitry (not shown in figures) could include but not limited to: wires, resistors, Printed circuit board, capacitor, transformer, amplifier and so on. Similarly, a trigger switch (not shown in figures) could be provided to start/stop the operation of the electric heater 250.
In another embodiment (not shown in figures), the heating module 230 comprises at least one battery (not shown in figures) to act as electrical power source for the electric heater 250. The battery (not shown in figures) could be rechargeable or for one-time use only. Further, the heating module 230 could also include electrical components/circuitry (not shown in figures) that are capable of collecting electric power from battery(s) (not shown in figures) and transmitting electric power to the electric heater 250 and the electrical components/circuitry could include but not limited to: wires, resistors, Printed circuit boards, capacitors, transformer, amplifier and so on. Similarly, a trigger switch (not shown in the figures) could be provided to start/stop the operation of the electric heater 250.
In another embodiment (not shown in figures), the cooking grate 140 and the electric heater 250 of the heating module 230 are integrally connected to each other during the manufacturing of the heating module 230. This configuration enables a solid and rigid connection between the cooking grate 140 and the electric heater 250 of the heating module 230. In another embodiment (not shown in figures), the cooking grate 140 and the electric heater 250 of the heating module 230 are detachably connected to each other to enable easy cleaning/maintenance of the electric heater 250 and/or cooking grate 140.
In an embodiment, as shown in
An exemplary meal preparation method that enables a customer to prepare a customized meal will now be described in detail in reference to
Firstly, at least one food item 10 (
Afterwards, the customer opens the lid 114 of the self-service take-out cooking box (100, 200) and then access the food item(s) 10 of the food container(s) 150. Afterwards, the food item(s) 10 of the food containers 150 are placed onto a cooking grate 140 of the heating module (130, 230) by the customer. Depending on the type of heating module 130, the customer proceeds to heat up the food item(s) 10 placed on the cooking grate 140. For instance, for the heating module 230 (
It should be well understood that the Customer can use tableware including but not limited to: plates, cup, bowl and so on for heating some specific food item(s) 10 placed on the cooking grate 140. For instance, the customer can first place the food item(s) 10 (rice, for instance) in a bowl (not shown in figures) and then the customer can place the bowl (not shown in figures) comprising food item(s) 10 (rice) on the cooking grate 140 for heating purpose. The tableware could be provided in the self-service take-out cooking box (100, 200) itself, or alternatively, the customer can use their tableware already available to them.
It should be understood that the term “customer” is a broad term and could include any person who either wishes to eat food or prepare food/meal for another person at a location different from the restaurant or any food outlet. The customer could include but not limited to: food eater, food ordering personnel, food preparation personnel such as homemaker and so on. The different location could include but not limited to: home, office, park, lecture hall, trekking route, gym and so on. Broadly speaking, the term “customer” could be any person who intends to use the self-service take-out cooking box (100, 200) for customized heating of the food item(s) 10.
The self-service take-out cooking box (100, 200) of the present invention includes various components, parts thereof may be configured in many different shapes, sizes and using different kinds of food-grade materials, including but not limited to metals, plastics, paper, ceramics, wood, composites, polymers, rubber and one should not construed these aspects to be a limiting factor for the invention disclosed herein. The self-service take-out cooking box (100, 200) of the present invention has the potential application to the fields of food customization technology, beverage preparation and customer friendly food preparation.
It should be understood that the various components and assemblies of the various embodiments of the self-service take-out cooking box (100, 200) of the present invention are similar and interchangeable. For instance, a non-limiting example, the terms “food”, “food item(s)” and “meal” are similar in meaning and are interchangeably used to better suit the embodiments of the present invention. It is obvious to the one skilled in the art that the various components and assemblies of the self-service take-out cooking box (100, 200) of one embodiment of the present invention could be considered for other embodiments with little or no variation.
It should be understood according to the preceding description of the present invention that the same is susceptible to changes, modifications and adaptations, and that the said changes, modifications and adaptations fall within scope of the appended claims.
