Electronic containers with the ability to receive plant leaves and our air discharge position between the plant leaves and the container is an automatic press and a special place for batteries and modules.

Abstract

Regarding governments, since the cost of converting salt water into fresh water is expensive and since users also consume a lot of fresh water, especially in washing dishes, there is a need for a change in consumption. We must consider that global warming is increasing every year and to convert salt water into drinking and fresh water, apart from the economic costs to the process and global warming, this type of conversion requires a lot of heating. For example, salt water must be heated intensely to evaporate and then the water vapor must be cooled to turn into salt-free water and then minerals are added to the distilled water so that it can be used. Since one of the most consumed uses of humans due to personal and social hygiene is washing dishes, humans need to pour a large amount of liters of fresh water into the sewer every day to wash dishes. 2. Here are some of the costs that the user must bear: First, the time spent washing dishes, which ranges from a quarter to an hour, which is an average of nearly 7 years during a day and night during a life of 80 years. Second, a gas or electric water heater is needed at different intervals. A water pump is needed. Electricity is consumed. In this case, it should be noted that apart from each individual and his personal consumption, the positions of various organizations such as government forces around the world, such as military forces, offices, hospitals, restaurants, hotels, etc. should be added to this type of consumption. The time spent washing dishes can vary from 15 minutes to an hour, which requires the use of gas or electricity, electric water heaters and water pumps that consume electricity. Other economic factors include the cost of dishwashing gloves, detergents, and various tools, which can be high for consumers. 3. In addition, as global warming worsens, it is important to consider the impact of using plants. Plant- based cellophane, which is made from tree sap (sap), corn, cotton, algae, and other sources, has been approved for use by the World Health Organization (WHO) for use in food and medicine. However, this situation will increase the demand for tree resources, since trees play a major role in slowing down global warming (absorbing carbon dioxide and releasing oxygen, and the position of trees helps to make plant-based cellophane from it). This situation makes it economically viable for farmers. 4. During that year, increasing the number of trees planted to meet human consumption needs can help reduce global warming and the environment, and this change in consumption can lead to reduced costs and ultimately economic profits and stability. The exploitation paths of this invention are: 5. It drastically reduces the time spent by users on cleaning and washing dishes. 6. Preventing global warming by promoting sustainable practices. 7. For ease of user access and use From the roll, a roll storage device is introduced next to the containers. 8. Design and adapt beautiful containers to encourage the use of expensive washable containers to low- cost containers. 9. Prevent food spoilage and maintain the temperature inside the containers with a safe lid with the ability to vacuum the air inside the container. 10. Simplifying the process of distributing vegetable cellophane on dishes. 11. Creating multi-purpose containers that save time and resources in various uses, including the design that makes the containers multi-purpose (multiple types of food in one container) and increases usability. 12. Creating heating and cooling situations and showing the weight of food along with music and lighting, etc., the purpose of these goals is not only to improve the comfort for users, but also to promote the forms of environmentally friendly practices. 13. Users often use a significant amount of fresh water, especially when washing dishes, which highlights this issue. 14. The need to change consumption habits due to global warming every year and addressing the economic and enviro

Description

[0001] Abstract

[0002] . Prior Art

[0003] . IRegarding governments, since the cost of converting salt water into fresh water is expensive and since users also consume a lot of fresh water, especially in washing dishes, there is a need for a change in consumption. We must consider that global warming is increasing every year and to convert salt water into drinking and fresh water, apart from the economic costs to the process and global warming, this type of conversion requires a lot of heating. For example, salt water must be heated intensely to evaporate and then the water vapor must be cooled to turn into salt-free water and then minerals are added to the distilled water so that it can be used. Since one of the most consumed uses of humans due to personal and social hygiene is washing dishes, humans need to pour a large amount of liters of fresh water into the sewer every day to wash dishes.

[0004] .2Here are some of the costs that the user must bear: First, the time spent washing dishes, which ranges from a quarter to an hour, which is an average of nearly 7 years during a day and night during a life of 80 years. Second, a gas or electric water heater is needed at different intervals. A water pump is needed. Electricity is consumed. In this case, it should be noted that apart from each individual and his personal consumption, the positions of various organizations such as government forces around the world, such as military forces, offices, hospitals, restaurants, hotels, etc. should be added to this type of consumption.

[0005] The time spent washing dishes can vary from 15 minutes to an hour, which requires the use of gas or electricity, electric water heaters and water pumps that consume electricity. Other economic factors include the cost of dishwashing gloves, detergents, and various tools, which can be high for consumers.

[0006] .31 n addition, as global warming worsens, it is important to consider the impact of using plants. Plant-based cellophane, which is made from tree sap (sap), corn, cotton, algae, and other sources, has been approved for use by the World Health Organization (WHO) for use in food and medicine. However, this situation will increase the demand for tree resources, since trees play a major role in slowing down global warming (absorbing carbon dioxide and releasing oxygen, and the position of trees helps to make plant-based cellophane from it). This situation makes it economically viable for farmers.

[0007] .4During that year, increasing the number of trees planted to meet human consumption needs can help reduce global warming and the environment, and this change in consumption can lead to reduced costs and ultimately economic profits and stability.

[0008] The exploitation paths of this invention are:

[0009] . Sit drastically reduces the time spent by users on cleaning and washing dishes.

[0010] .6Preventing global warming by promoting sustainable practices.

[0011] .7For ease of user access and use From the roll, a roll storage device is introduced next to the containers.

[0012] .8Design and adapt beautiful containers to encourage the use of expensive washable containers to low-cost containers.

[0013] .9Prevent food spoilage and maintain the temperature inside the containers with a safe lid with the ability to vacuum the air inside the container.

[0014] .lOSimplifying the process of distributing vegetable cellophane on dishes.

[0015] .llCreating multi-purpose containers that save time and resources in various uses, including the design that makes the containers multi-purpose (multiple types of food in one container) and increases usability. .12Creating heating and cooling situations and showing the weight of food along with music and lighting, etc., the purpose of these goals is not only to improve the comfort for users, but also to promote the forms of environmentally friendly practices.

[0016] .13Users often use a significant amount of fresh water, especially when washing dishes, which highlights this issue.

[0017] .14The need to change consumption habits due to global warming every year and addressing the economic and environmental costs associated with desalination of fresh water is very important and expensive. The process of converting salt water into drinking water includes several steps. First, salt water must be heated to evaporate, and then the water vapor must be cooled to create salt-free water. After this, minerals are added to the distilled water to make it suitable for consumption. One of the biggest uses of fresh water for people is washing dishes, which leads to considerable daily wastage of water

[0018] .15ln addition, as global warming worsens, it is important to consider the impact of using plants like cellophane, which is made from tree sap, corn, cotton and other sources. It is approved for use in food by the World Health Organization. However, the demand for tree resources is contributing to deforestation concerns. Trees take about a year to mature and play a vital role in absorbing carbon dioxide and releasing oxygen.

[0019] .16During that year, increasing the number of trees planted to meet human needs can help reduce global warming. This change in consumption can lead to a reduction in costs and ultimately benefits the environment and economic stability.

[0020] .37ln the astronomical view of the Earth's rotation and that global warming has a direct effect on the Earth's core and that the Earth's core has a great effect on the magnetism around the Earth and also repels solar storms, this product aims to improve and replenish underground aquifers and another goal is to use plant leaves obtained from tree sap and other plants as a replacement for natural consumables instead of water, the Earth's and astronomical situations should not be ignored in this product.

[0021] .38Since the biggest enemy of the Earth and the Earth's core is the meteorite, and the Earth has several defense modes to repel and destroy meteorites, one of these steps is in line with the goals of this invention.

[0022] .39The first stage is a meteorite that enters the Earth's atmosphere and breaks into several pieces and burns up. The second stage is a meteorite that has passed the first stage and is still large but falls into the sea or ocean, and the enormous pressure of the meteorite neutralizes and destroys it. The third stage is a meteorite that has landed in the Earth's crust. In this stage, the deeper and wider the underground aquifers are, the less the effect of the meteorite. The fourth stage is when the meteorite has passed through the three stages and hits the Earth's mantle, causing the Earth's crust to press on the molten materials, which in turn press on the Earth's core. The molten materials under pressure from the craters of volcanoes begin to be expelled, as well as dust from the meteorite's impact, steam, and volcanic ash, which work together to prevent sunlight from reaching the Earth's surface. This factor prevents sunlight from heating the Earth's surface. These processes The stages are all for the purpose of preserving the Earth's core and its rotation, but there is also a stage that is outside the Earth's atmosphere. This stage was formed before life on Earth was formed, and that is the Moon. If we consider the Moon to be one of the Earth's defensive stages, then we must examine and pay attention to the direct and close connection between the Earth and the Moon. Here is a theory: If we combine the volume and weight of the Moon with the weight and volume of the Earth, a much larger Earth will be obtained. When this larger and heavier volume is placed due to the centrifugal field of the Earth's core, it is compared to the amount of weight and rotation resulting from the centrifugal force. The amount of excess material that was in the form of molten material at that time, and in fact, it is the Moon that is separated from the Earth's fleshy shell and thrown into space, this happened when the position of the Earth's continents and the Earth's outer shell were next to each other, in fact, the place of exit The moon as excess material and more than the Earth can bear and the centrifugal force of the Earth's core that has contributed to this event has occurred in the center of the continents and when the continents were connected to each other and were originally one continent, a huge event has occurred, this event has been taking into account the Earth being affected by the gravitational field of the Sun.

[0023] Data:

[0024] •G=6.674xl0-ll Nm2 / kg2G = 6.674 \times 1OA{-11} \, \text{Nm}A2 / \text{kg}A2

[0025] •Me=5.972x1024 kgM_e = 5.972 \times 10A{24}\, \text{kg}

[0026] •Mm=7.342x1022 kgM_m = 7.342 \times 10A{22}\, \text{kg}

[0027] •r=3.844x108 mr = 3.844 \times 10A{8 } \, \text{m} (distance between Earth and Moon)

[0028] Gravitational force (FgF_g):

[0029] Fg=G-Me-Mmr2F_g = \frac{G \cdot M_e \cdot M_m}{rA2}

[0030] Fg=(6.674xl0-ll)-(5.972xl024)-(7.342xl022)(3.844xl08)2F_g = \frac{(6.674 \times 1OA{-11}) \cdot (5.972 \times 10A{24}) \cdot (7.342 \times 10A{22})}{(3.844 \times 10A8)A2}

[0031] Calculation steps:

[0032] . ICalculate the expression:

[0033] \ 10376.674x2.924=1022x7.342-1024x5.972-11-10x6.674times 10A{-l 1} \cdot 5.972 \times 10A{24} \cdot 7.342 \times 10A{22} = 2.924 \times 10A{37}

[0034] .2Calculate the denominator:

[0035] 1017xl.477=2(108x3.844)(3.844 \times 10A8)A2 = 1.477 \times 10A{17}

[0036] .3Calculate the final:

[0037] Fg=2.924xl0371.477xl017=1.979xl020 NF_g = \frac{2.924 \times 10A{37}}{1.477 \times 10A{17}} = 1.979 \times 10A{20}\, \text{N}

[0038] Centrifugal force (FcF_c):

[0039] Fc=Mm-r-co2F_c = M_m \cdot r \cdot \omegaA2 co=2nT, T=27.3-24-3600 s\omega = \frac{2\pi}{T}, \quad T = 27.3 \cdot 24 \cdot 3600 \

[0040]

[0041] , \text{s}

[0042] . ICalculation of TT:

[0043] T=27.3-86400=2.36x106 sT = 27.3 \cdot 86400 = 2.36 \times 10A6 \, \text{s}

[0044] .2Calculation of co\omega:

[0045] co=2n2.36x106=2.66x10-6 rad / s\omega = \frac{2\pi}{2.36 \times 10A6} \approx 2.66 \times 10A{-6} \, \text{rad / s}.3Calculation of co2\omegaA2:

[0046] co2=(2.66x10-6)2=7.09xlO-12\omegaA2 = (2.66 \times 10A{-6})A2 \approx 7.09 \times 10A{-12}.4Calculation of FcF_c:

[0047] Fc=(7.342xlO22) (3.844xlO8) (7. O9xlO-12)«1.98xlO2O NF_c = (7.342 \times 10A{22}) \cdot (3.844 \times 10A8) \cdot (7.09 \times 10A{-12}) \approx 1.98 \times 10A{20}\, \text{N} Result:

[0048] •Gravitational force ( FgF_g): 1.979x1020 N1.979 \times 10A{20} \, \text{N}

[0049] •Centrifugal force (FcF_c): 1.98x1020 N1.98\times 10A{20}\, \text{N}

[0050] .40An objective of the present invention is to achieve a position from the product so that the user wastes much less time on hygiene and washing dishes. An objective of the present invention is to prevent the waste of salt water and other energies such as electricity, gas, etc. and also an attempt to prevent global warming. Another objective of the present invention is to have a roll storage device next to the dishes to facilitate the user as much as possible in order to pull the roll on the dishes.

[0051] .41Another objective of the present invention is to achieve better positions of the dishes and to encourage the user to use more than washable dishes.

[0052] .42Another objective of the present invention is to prevent food spoilage and also maintain the temperature inside the dish along with the dish lid.

[0053] .43And another object of the present invention is to speed up the process of stretching vegetable cellophane onto containers.

[0054] ..44Creating multi-purpose containers that save time and resources in various uses, including a multi-purpose design and food division that keeps food in one container and increases usability.

[0055] .45The aim of these objectives is not only to improve the convenience for users, but also to promote the conversion of natural consumables instead of costly water consumption. Eco-friendly methods in natural forms

[0056] Figures

[0057] .46Figure 1: Complete containers with a plant cellophane stretcher, UV box, storage tray

[0058] .47Figure 2: Exploding containers with a container holder and a container lid

[0059] .48Figure 3: The position of pulling the sheet on the containers and then sucking air between the sheet and the container surface

[0060] .49Figure 4: Another aspect of another example of a container that is mechanically similar to the container of the present invention

[0061] .50Figure 5: Speaker and display

[0062] .51Figure 6: Another aspect of the present invention without heating and cooling positions

[0063] .52Figure 7: The movement of the movable walls is to divide the food on the surface of the container.53Figure 8: The container with its lid from a side angle

[0064] .54Figure 9: The container with its battery and modules and how to charge it and the placement of the batteries on top of each other.

[0065] .55Figure 10: Electronic multi-purpose container that has a heating and cooling position

[0066] .56Figure 11: Another embodiment of the method of manually or automatically draining and sucking air from the motor .57Figure 12: Multi-purpose containers and types of containers that can receive roll sheets

[0067] .58Figure 13: An example of a fully automatic device for automatically spreading and draining vegetable cellophane

[0068] .59Figure 14: Two examples of container embodiments for manually and automatically spreading vegetable cellophane on the container

[0069] Description

[0070] .60Special cooking utensils such as pots, pans, slow cookers, etc., which are used according to Figure (12) to spread special cellophane, then press and evacuate the air between the container and the spread cellophane. It should be noted that each container can use special cellophane depending on the nature and functionality of the desired container. For example, for cooking utensils, special cellophane made for cooking at high temperatures is used.

[0071] .61(B) special storage containers such as: food, food at freezing temperature, food for hot temperature, food for microwave use, types of dry and fresh fruits, types of drinks, alcoholic drinks, drinks with The high temperature, which is shown in Figure (12), is an example of drinking water storage container and is used to expand and press the air in the container and cellophane for water storage, they get I

[0072] .62(C) Containers for eating which are divided into 2 categories in this present invention, the first category is single-purpose containers that are placed inside only for the purpose of one type of food content and used by the user, such as: soup container or a salad dish or a yogurt bowl of the second category: as shown in Figure (6), multi-purpose dishes that are in the form of a tray, but on its surface are divided into a number of dishes with the help of several walls for the purpose of using a variety of food are and the user needs one Cellophane is used instead of several sheets of cellophane for several dishes in one meal (in order to optimally use the cellophane itself and quick time for the user.

[0073] .63(D) Small containers such as spoons, forks, cards, and all types of materials such as metal, wood, or plastic. Containers D, number 634, are placed in the UV box number 220 after cleaning, to be sterilized and disinfected inside the power box as shown in figure (2).

[0074] .64Containers for receiving rolls have surfaces, number 2, and on each surface of the container, a number of air ducts are installed, number 648. In these holes, the ducts are transferred from level 2 to the bottom of container number 4. Directly or with the help of pipes No. 606, they are transferred to one side ducts with a valve No. 620, which is a one-way duct and is configured as No. 4 on the surface below the container, and has the duty to transfer air from the outside of container number 2 to the vacuum pump motor and not allow the air to return to the surface of container number 2. Basically, it is spread and stretched on the surface of container number 2 and it sucks and empties the amount of air that is located between the surface of container 2 and cellophane sheet 102.

[0075] .65As can be seen in Figure (3), the user connects the ring around the container number 8 to number 9 through a hinge with a round axis. It is installed and connected to the container number 4, causing the ring number 8 to move in the direction of the angle of the hinge number 9. This moving position of the ring number 8 causes the distance from the container number 644.

[0076] .66Following this movement, the user adjusts the movable walls number 614 to the food he wants to use, such as rice, stew, salad, etc., and then guides and moves the sheet ring number 615, which is in the center of the container, vertically upwards with the help of hose pipes number 76, and then spreads the cellophane sheet from the roll storage device number 100 onto the container number 2. .67ln the continuation of these movements, the user again returns the position of the ring around the container number 8 to its original position with the help of hinge number 9, so that the ring number 8 is placed at the same level as the container number 2.

[0077] .681 n one embodiment, a flexible gelatin ring is configured as a protective edge around the surface of the container in line with the part #2 of the surface of the container to cover the position of the round ring around the surface of the container #8 along with cellophane #102 and Keep it steady.

[0078] .69Next, the cellophane sheet No. 102, which was removed from the roll storage device, is cut with the help of the machine, and then by activating the vacuum motor No. 628, the air between the cellophane No. 102 and the surface of the container No. 2 is sucked and drained, the

[0079] .70With this process, the position of sheet 102 moves to the upper side of container number two, and the movement of cellophane number 102 causes the central ring 615 to move down with the help of hose pipes number 76, and they are placed in their first position.

[0080] In this embodiment, the ring number 8, which is well shown in Figures (3 and 14), is connected to the spring hinge number 9 on one side and is configured to the lock number 886 on the other side to keep the position of the round ring around the container number 8 fixed. If the visualization is like this, the locking clip number 886, which is located in the opposite part of the hinge and is configured as number 8 in the lower part of the round ring, will be adjusted to the number 888 clip by pressing the user's hand towards the locking box. to be placed in the clip holder number 884, the clip holder number 884 is shown in figure (3 and 14) and is supported by a spring number 880 And mechanical pressure is applied so that the clamp holder No. 884 can maintain the fixed position of the clamp No. 886.

[0081] Next, the locking box 888 is configured with a pressure position 882. The pressure position 882 provides the user with this position to press the spring 880 by pressing this part and causing the holder 884 to move to the clamp release position 886. This movement causes the round ring 8, which is influenced by the spring hinge 9, to be in an open position and away from the container. In this open position, the user can spread the vegetable sheet on the container 644 and in part 2 or collect the vegetable sheet from part 2.

[0082] In another embodiment of the present invention, the position of the round ring number 8 is manually adjusted. In this case, the user moves the round ring number 8 upward, changing the closed position of the round ring number 8 from the closed position to the open position, and the round ring number 8 moves from the surface of the container to the number 644 and at the angle of the hinge to the number 9. In this case, the hinge number 9 is installed without a spring.

[0083] In another embodiment, according to Figures 3 and 14 of the present invention, the position of the round ring number 8 is automatically movable with the help of a motor, a gear wheel, and a lever and guided by the CPU. This position causes the user to activate the CPU and then the motor to move the gears, and then the resulting force activated by the motor and the gear wheel is transferred to the round ring number 8, causing the ring number 8 to move upward from the surface of the container to the number 2 and also downward to the surface of the container to the number two.

[0084] In this embodiment of the present invention, the position of the hose pipes numbered 76 is automatically movable in a vertical upward and downward movement position with the help of a motor. In this embodiment of the present invention, a motor transfers the generated force to the hose hinges numbered 76 with the help of a gear and a lever, and through this force transmission, the hose pipes numbered 76 are moved and through this force transmission, the hose pipes numbered 76 are moved at an angle of the vertical axis of movement upward away from the surface of the container numbered 2 towards the downward side. If the present invention is in this form, according to figure (14), a motor with number 900 is located inside the container case with number 10, and a number of gears with number 901 perform the task of transmitting power from the motor 900 to the pressure lever with number 902, the power transmission causes the hose pipes with number 76 to move up and down at a vertical angle.

[0085] On the other side, the motor with number 904 is located inside the container case with number 10, the gears with number 905 create a driving force that is connected to the hinge with number 9 through the lever with number 906.

[0086] The reciprocating motion position of the pyramids with number 906 causes the angle of the hinge with number 9 to be in an open and closed angle, in this case, the hinge with number 9, which is connected to the round ring with number 8, this position causes the round ring with number 8 to have a semicircular movement at the hinge angle from the surface of the container to the outside of the surface of the container.

[0087] It should be noted that this movement position from the power transmission side of the motor at numbers 900 and 904 can be implemented and controlled by a CPU, this control implementation can be controlled through the display screen at number 52 and the position of the keys at number 54 for the executive user. It should be noted that in this type of embodiment, mechanical positions can be implemented and designed either by the user's hand or by the motor with the positions of various gears and levers and the power transmission cable.

[0088] .82This process allows the cellophane 102 to be positioned without stretching or tearing, and to maintain good surface pressure on all surfaces, especially on the movable walls 614 and the upper surface of the container 2..83As can be clearly seen in Figure (7), the movable walls 614 have the ability to move left and right. This position is achieved with the help of female clamps 611, so that the end of the wall 614 is placed in the form of a male extension 610 inside the female clamp 611 (shown in Figures 2 and 6). Since clamp 611 is designed in a circular shape, this position allows the male extension 610 to move in a circular motion to the left or right or to completely exit clamp 611 if the user does not need it.

[0089] .84The position of the hollow space piece 611 for the proper movement of the appendage number 610 in the form of a smooth movement causes the user to consider the appropriate conditions for the selection of food in order to create the appropriate space, in which case the present invention allows the user to consider the variety of choices of different numbers of food items in the container 644 together, whether hot food or cold food, dessert and appetizer.

[0090] .85ln another embodiment of the present invention, this position is considered by the user to remove the movable food dividing walls 614 from the female ring number 615 to consider a more suitable space for a larger amount of food.

[0091] .86Clamp No. 611 has cylindrical hose tubes on top of each other. No. 76 has these tubes in the form of hoses that can move in each other. They move in a cylindrical manner in each other and are connected to the channels No. 622 on one side of the lower part and to the ring No. 615 on the other side of the upper part.

[0092] .87Tubes No. 76 help to place the ring 615 at the height of the container surface and its closure is done by cellophane No. 102. In the suction and discharge stage, which is done with the help of motor No. 628, the discharge pressure causes cellophane No. 102 to apply pressure to the ring No. 615 and then to the conical tubes No. 76. This pressure causes the conical tubes No. 76 to be compressed and closed.

[0093] .88As is well shown in Figure (4), it can be seen that in another aspect of the present invention, it is possible for the movable walls 614 to be connected to the ring 615 by a hinge 617. .89ln this aspect of the present invention, the user adjusts the movable walls 614 to the food consumption by adjusting the ring 615, and then the movable food dividing walls 614 also move upward with the help of the hinge 617, with the difference that one side of the walls 614 is directed towards the ring 615 and the other side of the movable walls 614 is directed towards the surface of the container 2.

[0094] Finally, in this aspect of the present invention, it is possible to allow the suction and discharge steps to be carried out more quickly, and also the position of the cellophane 102 is placed in the appropriate pressure conditions on the surface of the cellophane 102 by the suction side of the motor 628.

[0095] .91As shown in Figure (7), the ducts evacuate the desired air with the help of the air pump vacuum motor number 628, and in this way it moves through the openings 648 towards the valved pipe 626 and then reaches the duct pipe 620 and is finally connected with the help of the air pump vacuum motor 628 and the evacuation is done through the air pump vacuum motor.

[0096] .92ln the lower cover of container 644, there is another container-like cover with number 10, which is number 6 on the upper part and number 8 on its lower side, and it has the ability to cover the container like 10 and the container itself as They are integrally configured and made, or they are fastened together with screws, or they are fastened together with clips (male and female).

[0097] .93ln this embodiment of the present invention, the air pump vacuum motor along with the valved ducts and the battery module and source along with electronic elements such as speakers, etc., as well as the positions of the cooling elements and heating elements, the scale module and the electronic and telecommunication communication module, electronic memories such as RAM and CPU, speaker, or UV station (other than the UV box at number 220), and the battery electronic source, etc. are located in part 10, and part 10 itself sits on the tray at number 20.

[0098] .94ln the lower part of 10 at number 8 and in the center of it, there is an electronic socket at number 11 (red) and opposite it is another electronic socket at number (12) and apart from maintaining the position of the container 644 on the tray 20, it can enable positions such as battery charging and communication exchanges such as types of commands, as well as an air discharge duct, etc.

[0099] .95ln another embodiment according to Figure (2) of the present invention, in the lower part of the 10, there is a position numbered 13, and this position itself can be a special space for storing electronic elements such as modules, a battery electronic source, a vacuum pump motor, of course, cooling and heating elements, etc.

[0100] .96ln another embodiment of the present invention, the tray 20 itself can, in addition to storing and storing the uv box 220 with the roll storage and cutting device 100 and the containers 644, have positions such as having an electronic display or an electronic key for commanding and controlling the devices placed on it, a battery electronic source, an input and output of city electricity,

[0101] .97ln this case, from the above embodiment, the container 644 is movable with the air pump vacuum motor 628. A cover 10 sits under the container 644 and covers it, and on the upper side of the cover 10 are numbered 6 and on the lower side are numbered 8, which are screwed through the screw 608 which is configured on the outer surface of the container 644 at number 4 on the surface of the cover and is located at number 6 so that the container 644 and the cover 10 are integrated with the help of the screw.

[0102] .98Also, in the continuation of the present invention, the vacuum motor of the air pump is placed in the position number 642. The position number 642 is a position and it prevents the movement of the vacuum motor of the air pump, which is placed on the surface of the inner part of the cover 10, number 6. .99ln this case, the core 642 of the present invention has a protruding protrusion, which is called the male part, 610. There is also a hole in the coated surface, which is called the female part, 604. In the male part 610, there is a tube 622 in its inner part, in which a needle is configured in the center of the tube 622. The tube 622 and the needle 652 are both configured to form an air duct and are connected to the air pump vacuum motor 628 through the air duct tube 626.

[0103] .lOOIn this case, from the present invention, a position number 642, which has a male part, has the position of receiving and sitting the container 644 with the cover, then when part 10 is sitting on the position 642, the needle 652 enters the one-way channels to number 620 It is possible that there is a bullet number 12 inside the one-way ducts, which is supported and directed to the lower part of the one-way ducts through a spring number 14 (oneway air valve).

[0104] .lOlNext, by sitting the container 644 together with the cover on the position 642, at first the male part 610 enters the 60th part of the cover and at the same time the needle 652 enters the one-way channels 620, which causes the bullet number 12 to move upwards. Pushing and pushing will make the spring 14 more compressed. One side of the spring 14 is towards the bullet and the other side is towards the end wall. There are 620 one-way ducts. 620 side in the cover part 644 to No. 4 is connected and also a gasket No. 612 is placed on the surface of the tube 622 and the lower surface 620 to provide a seal between 622 and 622 in terms of air penetration and since the holes in the surface of the container 644 can have multiple holes No. 648.

[0105] .102ln this case, in the embodiment of the present invention, each air hole 648 is connected to an air duct tube 606 and then the duct tubes 606 are connected to the one-way air ducts 620.

[0106] .103 It should be noted that in this type of connection process, any type of connection such as a pre-installed integral key washer or any type of connection can be designed and configured with any type of material. Finally, according to the present invention, after the container 644 with the cover is placed on the stand 642, the module located inside the stand 442 is activated by the button or on / off switch 624 installed on the stand 642, which is numbered 63, and the air pump vacuum motor 628 is activated by the module 630.

[0107] .104ln the stand 642 and at the upper end, there is a wall numbered 14, which is placed in the position 642 in order to place the container 644 with the cover in the appropriate place and prevents the cover from any additional slipping and slipping.

[0108] 644.105containers can be used in a variety of different colors, such as white, black, golden and various color ranges, etc. Such as: silver, aluminum, copper, gold, etc., as well as all kinds of wood and all kinds of disposable dishes or vegetable dishes, cookable dishes such as pots, pans, etc. and plastics, soft plastic or jelly, sanitary plastic for food eating At different temperatures, types of glass spectra (unbreakable) can be used in the type and material of containers 644 and also in the surface of containers number 2, this position is considered that the material of the upper surface is such that The roll does not stick on it or act as static electricity, so that the user does not have a problem to guide the sheet or to remove the sheet from the surface of the dish after eating.

[0109] 117. Also, 644 containers can be designed and manufactured in various dimensions, sizes and shapes such as round or circular, square, rectangular, triangular, or all kinds of square, rectangular, circular, triangular, etc. containers.

[0110] .118 In another embodiment, containers 644 can be designed and made as multi-purpose containers for easier convenience and less use of cellophane sheet 102. The upper part of the 644 No. 2 dishes divides the surface of the 644 dish into several eating parts, such as: rice dish, salad dish, stew dish, dish dish, glass, by means of walls numbered 614. Water etc. can be divided and designed.

[0111] .119Covering walls 614 can be configured as a fabric with the container 644 itself in its preparation and construction as a fabric, or the walls 614 can be prepared and made separately, in this case with the help of clips in the form of Male and female, which the female part in the upper side of the container number 2 and the male part in the lower part of the 614 parts in the design, construction and implementation, or magnetically this wall position. 614 was used in relation to the surface of the containers as number 2.

[0112] .120lid of dishes

[0113] .121According to figure (2), since the users may have brought a lot of food after using the 644 containers, or the temperature inside the food containers is very important in terms of health and not spoiling, or the number of covers of the 644 containers has There is a special door that has two covers.

[0114] .122As shown in Figure 1 and Figure 2, in the present invention, the container lid, numbered 658, has two upper and lower parts, the upper part is numbered 652 and the lower part is numbered 654.

[0115] .123The lid 658 is connected to a plastic washer, numbered 650, at the end edges of the lid, and a clamp is also connected to the upper part 652, numbered 656.

[0116] .124ln an embodiment of the present invention, just as the air between the container and the sheet can be evacuated, with the same mechanism (if the lid is closed on the container), the air between the lid and the container itself can be evacuated by means of an air pump vacuum motor.

[0117] .125ln this case, from the embodiment of the invention, a special piece of needle No. 647 is connected to No. 654 in the lower part of the container, the needle 647 has the ability to be folded on the lower surface of the door, and if necessary, the user can change this needle from folded to standing, converts

[0118] .126ln the standing state of the needle 647 and the closing of the container lid 658 on the container itself 644, the needle first pierces and passes through the surface of the sheet drawn on the container until it reaches the air duct space 648, and from there the needle 647 itself is a hollow needle-shaped duct and there are a number of air-emptying ducts on its longitudinal surface. By activating the vacuum motor of the air pump 628 and the valved tube 626 and with the help of the needle 647, the air between the container lid and the container itself is also evacuated and less oxygen remains around the food and prevents the late spoilage of any food.

[0119] .127The door gasket 650 is placed between the door and the container itself and prevents air from entering from outside the container. In such a situation, to open the door, the user first opens the holes by pressing or twisting or both. Since the air inside the container has already been evacuated, when these holes are opened, air from outside the container enters the container again and also helps to open the door as easily as possible.

[0120] .128ln this case, the air pump vacuum motor operates through the CPU 200 at a specified time to evacuate the air between the container door and the container itself.

[0121] .129UV section

[0122] .130ln this section, due to hygiene and the fact that users need tools such as spoons, forks, knives, straws, scissors, etc., a UV-capable drawer is installed in the box 220.

[0123] .131ln this case, the box 220 is placed on the tray 20 and under the device 100. .132ln another embodiment, the UV location can be placed in the form of a drawer in the body 10 of the container 644

[0124] .133lf the embodiment of the present invention is as follows, according to Figure 4, a drawer is configured in the body of the walls of the cover 10 at number seven, which the user can use to open or close the cover of the walls, which has special clips for spoons and forks, straws, knives, etc., in a sliding manner, so that the spoons, forks, knives, straws, scissors are accessible.

[0125] .134lnside the covers, there are parallel layers of UV LEDs at numbers 11 and 13, which, by placing the drawer between the UV plates 11 and 13, cause the spoons, forks, knives, straws, and scissors to be surrounded by UV LED radiation from the top and bottom.

[0126] .153ln this case, a sensor detects whether the drawer is open or closed, and another sensor detects the items inside the country, and with the help of module 630, the number and time of UV LEDs are activated to properly perform the sterilization process.

[0127] .154ln such a situation, the embodiment of the present invention can be considered from the types of ABC UV spectrum, which is used in this invention for better sterilization than UV.

[0128] .155lt can also be used from the LED or light sample, it should be noted that in the UV sliding mechanism, types of sensors and switches can be used better, and the country can also be prepared and manufactured with different types of mechanism structures such as automatic drawer, rail drawer, spring drawer, etc....

[0129] .156ln part 10 and its internal cover at number 6, it is possible to use electronic elements to increase or decrease the temperature. Such as: a heater or a cooling fan, in this embodiment causes the electronic elements (increasing or decreasing the temperature) to increase or decrease the temperature of the covers 4 and 2, respectively, to heat or cool the food with them.

[0130] .157ln such an embodiment, different gases can be used for different purposes and purposes, and for example, different gases can be transferred from the channels 646 to the channels 647 and then to the division of the channels 656 so that both the covers of the container lid 658 are filled with gas and the air between the door 658 and the container 644 or only one of the doors or inside the container is used.

[0131] .158ln another embodiment, liquids can be used as heaters and coolers for different parts of the containers and the door.

[0132] .159ln another embodiment, the air inside the two door covers and the air between the door 658 and the container 644 can be evacuated and then the desired gas can be evacuated and discharged instead of the suction air.

[0133] .160ln this embodiment, the position of the containers can be used for the desired storage materials or objects, such as storing books or precious objects or antiques or medicines, fruits or grains or cases, etc.

[0134] Containers with electronic elements

[0135] .161ln one embodiment, it can be considered that the containers 644 are used from a display screen along with a Bluetooth speaker, a memory module or a memory-consuming module, a telecommunication or satellite communication receiving and payment module, a GPS module, a security code module, a heating and cooling module, and a battery, a battery charging module of various other models.

[0136] .162ln this case, from the embodiment of the present invention, the screen number 52 is placed on cover 2 of container 644 in the end part. According to Figure 5, this position can be considered for the user who has a touch screen display or a keyboard display by controlling the display 52. .1630r an electronic pen can be used to better control the positions of the container. In the speaker section, number 56, one or more speakers 56 can be configured in the side walls of the cover 7 in the container 644, and the modules and battery are also placed inside the cover piece 10.

[0137] .164ln the present invention, a cover piece number 10 that contains a battery and various Bluetooth modules, and an electronic socket and can be operated, designed and manufactured in a movable or fixed manner.

[0138] .165Another electronic element is the heating and cooling position, which is well shown in Figure 10. This position helps the user to use these heating and cooling elements in situations that require heating food or cooling food.

[0139] .166ln Figure (5) of the present invention, the cover piece 10 and the lower part 604, apart from mechanical connections, electronic connections can also be used. The cover piece 10 contains a Bluetooth module, an internal memory module or a memory card receiver, a telecommunication or satellite communication receiving and payment module, a GPS module, a security code module, a heating and cooling module, a battery, a direct and wireless battery charging module, etc. 167. In Figure (5), as shown, a male socket numbered 616 is located in the center of the cover piece 10, and a female socket numbered 617 is located in the lower part of the piece 10, and another socket numbered 618 is located on the side of the wall cover of the piece numbered 10. These sockets (616, 617, 618) are the electronic input and output positions for the purpose of charging the battery and also exchanging electronic information, and also in the sockets 616 and 617, which are located in the upper and lower parts of the piece numbered 10, it is possible to exchange mechanical and electronic communication..183ln this embodiment of the present invention, a socket position 619 is located in the lower part of the case of the part 644 to allow the insertion or removal of the part. No. 10 has been made possible through socket No. 616, which is on the upper part of part 10, to have the position of exchanging electronic and mechanical communication.

[0140] .184ln another embodiment of the present invention, the position of piece number 10 inside the container 644 is placed at number 220 and it is not placed in the outer and outer part of the container 644, this position makes the piece number 10 to be used permanently. Inside container 644.

[0141] .185lf the embodiment of the present invention is in this form, one side of the container can be used with heating elements and the other part with cooling elements, or in another embodiment, the entire screen can be used with heating or cooling elements, put to use

[0142] .186ln this case, in the embodiment of the present invention in the cooling position: a special cooling tube numbered 660 is connected to the lower part of the container at number 4, and then a plate tube numbered 668 has a special alloy for faster cooling of the liquid or gel inside the tube, as well as a fan located in front of the plate 668 at number 662, all of which are located in the cover 10.

[0143] .187As shown in Figure 8, the heat generated from the surface of the container 2 is transferred to the lower cover 4, and through it, with the help of the cooling elements, the temperature of the food is reduced.

[0144] .188Also, in the heating section, a heater filament wire numbered 664 is connected to the cover 4 to create heat and transfer this temperature from the surface of the cover 4 to the surface of the cover 2, and then this temperature is transferred to the food.

[0145] .189lt should be noted that in this embodiment of the present invention, the position of the container 644 is specifically for the cooling and heating position, and special insulators are also used to prevent the interference of heating and cooling temperatures between the container 644 and the heating and cooling elements, all of which are adjustable and quality controlled through the CPU200. .190And when spreading the sheet on the container, the user can empty the air between the container and cellophane faster with the help of the press lever with the help of the vacuum motor of the air pump.

[0146] .191ln another embodiment of the present invention, in the sixth and seventh covers, in the tenth part, a light slot is configured at number 3 for aesthetic purposes or other purposes such as receiving battery charge, etc. In this embodiment, in the sixth cover part, several lights or LEDs are configured in different light spectra.

[0147] .192ln another embodiment, instead of the pump motor and the air pump vacuum motor, a hand pump or blower can be used with various types of mechanisms that exist, such as lever pumps, accordion airbag pumps, and any mechanism that can transfer suction or air pumping can be used in the device 100 on the tray 20 in the container position section 642 in section 10 or even as a bootable pump.

[0148] 193ln another embodiment of the present invention, it is possible to use various batteries, switches, and sensors for different purposes and purposes in the device 100, tray 20, container position 10, container 644, etc., via the CPU 200, and it can also be used instead of the battery, or in addition to the battery, in all elements of these sets.. As is clearly shown in Figure 9, various types of containers that can receive roll sheets are shown. These types of containers can be designed and visualized with different mechanical positions to receive the sheet. The importance of this invention is the method and manner of receiving and spreading the sheet on the containers, as well as the air pressure and vacuum between the roll sheet and the container.

Claims

1. A multifunctional device for reducing water and energy consumption and promoting environmentally friendly practices, comprising® A main container body with a customizable design featuring movable walls for dividing and storing multiple types of food within a single container• A vacuum mechanism including a vacuum pump motor for evacuating air between a biodegradable cellophane sheet and the surface of the container and one-way valves to prevent air return® A lid system consisting of a dual-layered lid with an airtight gasket and a needle mechanism for reducing oxygen inside the container to extend food preservationHeating and cooling elements integrated into the lid to regulate the internal temperature of the container, controlled by a central processing unit (CPU)A cellophane roll dispenser device including an automated mechanism for dispensing, stretching, and cutting biodegradable cellophane sheets and a movable ring with manual or automatic adjustment for fixing the sheet onto the containerA UV sterilization system comprising a UV chamber equipped with ABC spectrum UV lamps for sterilizing small tools such as spoons, forks, and containers, and sensors for detecting the drawer's status and optimizing sterilization timeElectronic components including a touchscreen display with Bluetooth speaker connectivity and communication modules such as GPS, NFC, or WiFi, and a rechargeable battery with ports for power management and data exchangeStructural materials made from eco-friendly and recyclable options such as biodegradable plastics, aluminum, heat-resistant sanitary plastics, or unbreakable glass2 The device of claim 1, wherein the cellophane roll dispenser includes an automated vacuum mechanism for uniform air evacuation and consistent sheet stretching3 The device of claim 1, wherein the UV sterilization chamber has adjustable light intensity and sterilization timing based on the type and number of tools placed insideThe device of claim 1, wherein the UV sterilization drawer includes dual-layered UV LED panels for simultaneous sterilization from above and below5 The device of claim 1, wherein the cellophane roll dispenser features a movable ring with a spring- loaded lock for fixing the sheet in place6 The device of claim 1, wherein the cellophane roll dispenser is equipped with separate motors for guiding the stretching and fixing mechanisms7 The device of claim 1, wherein the vacuum mechanism and sterilization system are manually operable using hand pumps or lever-based mechanisms8 The device of claim 1, wherein the system supports the use of biodegradable cellophane sheets suitable for various applications, including cooking, refrigeration, and storage at low temperatures 9 The device of claim 1, wherein the electronic components are integrated with smart functionalities, includi app-based controls for adjusting temperature, vacuumre, and sterilization

Images