TR2023010398T2 - INSTANT COOLER/ FREEZER USING THE SHAKE METHOD - Google Patents

Abstract

The invention subject to the application; It is about instant cooler/freezer with service-specific orbital shake/shaking method suitable for use for packaged beverages, foodstuffs and all kinds of similar packaged objects.

Description

DESCRIPTION INSTANT COOLER/ FREEZER USING THE SHAKE METHOD Technical Field to which the Invention Relates The invention subject to the application; Packaged beverages, foodstuffs and all similar Using a service-specific orbital shake method suitable for use with packaged objects It is related to the cooler/freezer.

Known Status of the Art Related to the Invention (Prior Art) Nowadays, packaged beverages, foodstuffs and all kinds of packaged products are Many systems and techniques are used to cool or freeze objects. This The techniques are as follows; 0 The most well-known of these techniques are standard vertical beverage cooling refrigerators. 0 Deep freezers o Cooling process by immersion in coolant and/or rotation 0 Cooling process by placing bottles in a case / cases filled with antifreeze Due to the design of vertical type refrigerators, every time the door is opened / used They cause the cold air they produce to escape. Also in They cool the drinks homogeneously despite the air circulation fans they contain. They cannot cool and are also slow. A 24 degree 500 ml drink will last approximately 8-9 minutes. They can only cool it in an hour. In addition, it reaches the desired coldness level. Because of their difficulty, they work 24 hours a day and cause serious electricity consumption.

Because deep freezers are very cold and the drinks inside remain stable. They cause freezing. Since there is no active movement, they are slow. It takes an average of 50 minutes to even get it.

In the technique of cooling by immersion in liquid, the product comes out wet and the user It requires someone to delete it. Also, direct contact with packaged beverages This liquid allows bacteria to live in it and the consumer is exposed to this liquid. is exposed directly through the lips. Since the liquid used is usually water It cannot be cooled very much so that it does not freeze, and therefore the time is not fast enough and They are not preferred by the industry. To what temperature should the drinks be cooled? They cannot control whether they will be cooled.

In the method of placing the coolant / antifreeze liquid in the case, antifreeze is used instead of water. is used. However, since there is no movement, the liquids in the package do not move quickly enough. It cannot cool. In addition, there are frequent failure problems with swords and serious They cause loss of antifreeze.

In the document numbered TR 2006/02045, which is in the state of the art, The invention relates to a fast cooling method and equipment. However, in this document orbital shake / There is no shaking method. The orbital shake method provides It cannot ensure homogeneous cooling. Because in the document orbital Thanks to the shake / shaking method, fast and homogeneous mixing, the liquid in the package is It constantly hits the inner wall of the package being cooled and the shaking continues. to achieve the most homogeneous work exchange possible by changing places inside. It provides. This feature is not available in the TR 2006/02045 document. Also TR In the document numbered 2006/ 02045, there is no cooling block where the bottles can be placed.

In the patent documents in the state of the art, in the coolant In the method placed in the case, antifreeze is used instead of water, but since there is no movement, the packaging The liquids inside cannot cool down fast enough. And these swords just make the bottle stop. and by literally wrapping the bottle, the cooling of the liquid results in homogeneous heat exchange. It cannot help you achieve this.

Another patent document in the state of the art is 2016/02858. It is the patent document no. In this method, the temperatures of packaged beverages can be measured. However, since the cooling system cannot control the drinks one by one, both the cooled drinks It may cause freezing and does not allow special temperature adjustment. this again Materials that can be used in multiple clays used in the technique have sufficient thermal conductivity. It is not at the level and causes significant energy consumption. In our current invention Each hall can be measured individually and the cooling system can be controlled and It completely eliminates the problems. In addition, the consumer can cool his beverage to the desired degree. and this is an important situation for beverage companies in terms of marketing and commercialization of the business. The effect is great. In addition, as seen in the patent document numbered 2016/02858, Orbital Because the eccentric bearing, which is stated to guide the shake movement, is single and in oscillating motion due to the fact that the entire cooling section is carried on castors. serious deviations are observed. Due to these deviations, the system experiences orbital shake movement. may not perform properly and may cause unpredictable changes in cooling performance.

Considering the existing applications in the state of the art flash cooler using the invention orbital shake / shaking method when kept It seems that there is no application with the same features as the freezer.

Brief Description and Purposes of the Invention The present invention aims to eliminate the above-mentioned disadvantages and provide relevant technical Flash chiller using orbital shake method to bring new advantages to the field It's about the freezer.

By placing the packaged products to be cooled and using the orbital shake method. It allows it to cool quickly, practically and homogeneously and be served dry. It is about an economical flash cooler/freezer.

The purpose of the invention is to ensure that all the energy produced when requested is directly packaged. It is applied to the beverage to cool it and minimize energy loss. Each In the cooling process, the drink is taken at the temperature determined by the customer and the drink is served warm or warm. Drinking is prevented. In this way, the product is guaranteed to provide cold drinks.

Another purpose of the invention is for the customer to determine the degree he/she demands and is to eliminate unwanted freezing problems.

The purpose of the invention is to produce packaged beverages and packaged foods quickly and efficiently. It performs the cooling/freezing process in a way and ensures that the product comes out dry. To put forward a system that provides

Since the beverages packaged in this invention are not in contact with the cooling liquid, Packaged drinks are served dry. With liquids used for cooling The packaged beverage that the consumer handles never comes into contact with it. For this reason any There is no possibility of a bacterial problem. Depending on the liquid water used for cooling It can go down to much lower temperatures (-16 0C / -60 0C). Therefore it is much faster cooling is possible. The consumer decides to what degree the beverage will be cooled. can make decisions and guarantee customer satisfaction. Keep the cooling process too low It is very fast because it uses both the highest degree of cooling fluid and the Orbital shake movement.

Another purpose of the invention is to provide 24-hour active cooling like standard refrigerators. Instead, it provides much more efficient cooling by consuming electricity when needed.

The preferred embodiment of the invention is one that allows the customer to manage the invention. It has a touch screen.

The preferred embodiment of the invention is where the customer can place the drinks and It has cooler blocks that can be changed according to the packaged beverage shape.

The preferred embodiment of the invention is UVC LED that sterilizes packaged beverages. It has lamps.

The preferred embodiment of the invention is the cooler blocks and the packaged It has a Shaker Motor that makes the beverages orbital shake at the desired speed. is to be.

The preferred embodiment of the invention is the orbital shake. It has an eccentric gear that allows a special placement to dampen the oscillation. is to be.

The preferred embodiment of the invention protects the customer from movement and protection during the cooling process. It has a service cover that protects it from UVC LED rays.

The preferred embodiment of the invention is It stops the cooling process and UVC LED lamps in case the service cover is opened. It has a Service Cover Button.

The preferred embodiment of the invention is based on the moving mechanism while pouring the drinks. Concealment cover that prevents any object from falling or reaching the customer. is to have.

The preferred embodiment of the invention requires the cooling liquid to go to the cooling block. It has hoses that provide

The preferred embodiment of the invention is to apply separate cooling liquid to each cooling block. It has cooling pumps that provide cooling and control.

The preferred embodiment of the invention has a PU (Polyurethane) Main Insulation Case. is to be.

The preferred embodiment of the invention is the device that keeps packaged beverages ready for cooling. It has a coolant tank.

The preferred embodiment of the invention is the cooling of packaged beverages. It allows you to instantly see how many degrees it is and understand when it has reached the desired temperature. It has a thermocouple.

The preferred embodiment of the invention is the instantaneous distribution of packaged beverages in each hall. Compression and elevator servos that control and command operations according to their degrees controls the frequency of use, keeps records of cooling processes and, if requested, It has a PCT motherboard that allows it to be tracked by the manufacturer over the internet.

The preferred embodiment of the invention is located under each cooling block, It has a Mini PCB that processes the data coming from the thermocouple and the drink button and transfers it to the PCB. is to be.

The preferred embodiment of the invention is the packaged refrigerator placed in the cooling block. It brings the drinks down to the cooling hall and at the end of the process, it is brought back up to serve the customers. What makes it stand out is that it has an elevator servo.

The preferred embodiment of the invention is the packaged refrigerator placed in the cooling block. It has a compression servo that allows it to grasp the drinks tightly.

The preferred embodiment of the invention is the beverage packaged in the cooling block. It has a drink button that allows you to understand that it is not available.

The preferred embodiment of the invention has a heat exchanger that provides cooling of the cooling liquid. is to be.

The preferred embodiment of the invention controls the temperature of the coolant and automatically It has a Thermocouple that provides cooling.

The preferred embodiment of the invention is an electronic device that protects the electronic parts from moisture. It has a panel cover.

The preferred embodiment of the invention is the cooling blocks and packaged drinks It has eccentric hubs that enable it to make orbital shake movement.

The preferred embodiment of the invention is to cool chilled beverages with high efficiency. It has an insulated cold stock area to keep it.

The preferred embodiment of the invention is to measure the temperature in the cold stock area and It has a Radiator and Fan that provide cooling in case of damage.

Definitions of Drawings Explaining the Invention Instant cooler using orbital shake/shaking method developed with this invention The figures prepared to better explain the freezer are explained below.

Figure 1 - General view.

Figure 2 - General view with the service cover open.

Figure 3 - Main Cover open view.

Figure 4 - Main cover and Electrical Panel cover open view.

Figure 5 - View from the top and front section with the main cover open.

Figure 6 - Main cover open, Left and Front sections bare view.

Figure 7 - Top and front sectional view of the Main PU Insulation Case.

Figure 8 - Main cover is open, Front and Right sections are bare.

Figure 9 - Isometric view of Orbital Shaker and Cooling blocks.

Figure 10 - Top view of Orbital Shaker and Cooling blocks.

Figure 11 - Shaker Motor and Transfer box bare view.

Figure 12 - Shaker Motor and Transfer box closed view.

Figure 13 - Orbital Shake Transfer and Transport blog view.

Figure 14 - Cooling Block Base added to Orbital Shake Transfer and Transport block appearance.

Figure 15 - Upper cross and lower cross Blasting of Cooling Block and Compression Servo view

Figure 16 - Cooling block front view and sectioned top, while the beverage is being compressed appearance.

Figure 17 - Cooling block front view and sectioned top, when the beverage is not being compressed appearance.

Figure 18 - Cooling block front and top section views.

Figure 19 - Cooling Block Front and Bottom Section Views.

Figure 20 - Cooling block section, Lift servo ABOVE Compression servo Appearance when not squeezing.

Figure 21 - Cooling block section, Lift servo BELOW Compression servo Appearance when not squeezing.

Figure 22 - Cooling block section, Lift servo BELOW Compression servo Appearance while squeezing.

Figure 23 - Elevator mechanism and K type thermocouple and Beverage button right diagonal view.

Figure 24 - General view of the model with cold storage area.

Figure 25 - Open view of the Cold Stock area model covers.

Figure 26 - Model section with cold stock area. Front view.

Definitions of the Elements/Parts/Parts Constituting the Invention Instant cooler using orbital shake/shaking method developed with this invention In the figures prepared to better explain the freezer The parts/sections/elements are numbered separately and the explanation of each number is is given below. 1. Screen 2. Handle 3. Service cover 4. UVC Led Lamp . Service Cover Button 6. Concealment cover 7. Cooler block 8. Electrical Panel Cover 9. Hose . Cooling Block Head 11. PCB 12. Power Source 13. Orbital Table 14. Orbital Skeleton . Liquid Tank Cover Compressor Compressor Electrical Box condenser Liquid Tank evaporator Cooling Pumps Thermometer Main Pump Electrical Input Socket Block Insulation PU Block Base Compression Servo Center Gear Eccentric Gear thermocouple Compression Servo Arm Docking Slot Locating Pins PU Main Insulation Case Coolant Tank Shaker Engine Coupling Transfer Body Transfer Body Cover Engine Fixation Eccentric Hub Roller Block Hinge Shaft Clamping Lever Pin Block Base Insulation Beverage Button Thrust Shaft Elevator Body 50. Elevator Gear 51. Elevator Servo 52. Mini PCB 53. Inlet Hose 54. Outlet Hose 55. U Hose 56. Coolant 57. Main Cover 58. Insulated Glass 59. Insulated Stock area 60.Fan 61. Radiator Detailed Description of the Invention The subject of the invention is the production of packaged beverages and packaged foods in a very short time. with flash cooler/freezer using orbital shake/shaking method for cooling Flash cooler/freezer using orbital shake method; without freezing Cooling liquid (56) that can drop to -16°C and lower degrees while maintaining its fluidity, Main pump (23), which allows the coolant (56) to circulate in the system, coolant (56) Cooling pumps (21), which send the cooling liquid (56) to the cooling blocks (7). Hoses (9) carrying the coolant blocks (7), Cooling Liquid Tank (35) storing the coolant (56), PU Main Base, which prevents energy loss by insulating the coolant (56) and all other equipment Insulation Case (34) circulates the coolant liquid (56) through the channel structure inside. Cooling Blocks (7) that cool the beverage (41), Block that connects the cooling blocks to each other Block Insulation, which insulates the Hinge Shaft (44), Cooling Block (7) and prevents it from losing energy PU (25), which is used to compress the beverage (41) by pulling the cooling blocks (7) towards each other. Compression Servo (27), Compression Servo Arm, which is an extension of the Compression Servo (27) (31), Compression Arm Pin (45), which is used to fix the Compression Servo Arm (31), Short length Inlet Hose (53) through which the coolant fluid (56) is entered into the Coolant Block (7), Long Outlet Hose (54), through which the coolant liquid (56) exits from the cooling block (7), It is located above the cooling block (7) and allows various lighting or visual applications. and the Cooling Block Head (10), which also protects the mechanism, the Cooling Block (7) block Block Insulation Base (46), which provides thermal insulation while connecting to the base (26), Cooler block (7) Eccentric Hub with central deviation that enables orbital shake movement (42), serves as the base for connecting the centric core (42) and the cooling block (7). Block Base (26), which measures the current temperature of the drink (41) and reports it to the PCB (11). Thermocouple (30) determines which equipment will operate by processing the data it receives from the Thermocouple (30). decision making PCB (11), which helps to understand which cooler block (7) contains beverage (41). It processes the data received from the Beverage Button (47), Thermocouple (30) and the drink button (47) and sends it to the PCB. (11) Mini PCB (52), which constantly sends instantaneous data, drops down at the beginning of the cooling process. Elevator Servo (51), which goes down and at the end goes up and serves the Beverage (41), Elevator Elevator gear (50), which is an extension of the servo (51), provides thrust directed by the elevator gear (50). Elevator Body (49), which is the body of the shaft (48), elevator servo (51) and other equipment, U Hose (55), which helps to provide circulation between the cooling blocks (7), Screen (1), cooler blocks (7) and drinks (41) that allow the user to communicate with the machine Service Cover (3) that protects the vehicle, Handle (2) to facilitate opening the service cover (3), UVC LED Lamps (4) that sterilize the drinks being cooled (41), Cooling process Protects the customer from moving parts and UVC LED lamps (4) during service Service Cover Button (5), which stops the entire system if the cover (3) is opened, moves towards the system. The Power Supply (12), which provides electricity at 100 volts, protects the power supply (12), PCB (11) and screen (1) from moisture. and the Electrical Panel Cover (8), which protects it from liquid splashes, between the cooling blocks (7). In order to prevent the entry of similar objects and similar objects, the concealment cover (6) closes the entire mechanism. Main Cover (57), which protects and provides thermal insulation at the same time, blocks the orbital shake movement. Eccentric Gear (29), Eccentric gear (29) and eccentric hubs (42) that transmit to the base (26). Orbital Table (13) to which it is connected via bearings, Circular plate in moving mechanisms Bearings (43) that facilitate rotation, carrying cooling blocks (7) and orbital tray (13) Place the Orbital Skeleton (14) into the PU main insulation case and Locating Pins (33), which enable the Locating Pins (33) to enter Placement Slot (32), Shaker Motor (36) that powers the orbital shake movement, Shaker Transfer Body (38), which supports the transmission of the movement coming from the engine (36), Transfer Body Cover (39), which protects the gears inside the transfer body (38), Shaker Coupling (37), which will transfer the movement from the engine (36) to the central gear (28), Evaporator (20), which provides cooling of the liquid (56), Circulation of the cooling gas Compressor (16), Condenser (18) that cools the cooling gas, Coolant returning from the evaporator (20) The Liquid Tank (19), where the excess gas is stored in liquid form, supplies the electricity of the Compressor (16). Compressor Electrical Box (17), which regulates the 0C temperature of the refrigerant liquid (56) and It contains the Thermometer (22) elements that report to the PCB (11).

The screen (1) used in an embodiment of the invention is a touch screen.

Chilled Beverage Insulated Stock area (59), where chilled beverages (41) are stored, Radiator (61) that can provide cold air to the Insulated Stock area (59) when necessary, Fan (60) elements that direct the cold in the radiator (61) to the Insulated Stock area (59). It is characterized by containing

Flash cooler/freezer system using orbital shake method The packaged beverage to be cooled (41) is made of materials with high thermal conductivity. by gripping the blocks (7) and tightening by the compression servo (27), the cooler The energy of the liquid (56) is transmitted to the packaged beverage (41) by direct contact. Cooler If deemed necessary, the blocks (7) can be made with flexible materials and placed inside them. It can cause the beverage packaging (41) to take its shape, and the aim of this process is to It transmits heat by direct contact to the packaging (41). While this compression and holding process is carried out At the same time, the coolant (56) starts to be sent to the cooling blocks (7) and orbital shake begins.

Orbital shake movement, without opening the packaging of packaged drinks (41) It is the most efficient and fastest method of mixing. Thanks to the orbital shake method The cold energy coming from the cooling blocks (7) by contact, enters the beverage (41) as much as possible. It is transferred in the fastest and most homogeneous way. Cooling Blocks (7) It can be changed according to the size and shape of the packaging of the beverage (41). In this way, pet, plastic, glass, aluminum, cardboard etc. Cooling is done in all packages, regardless of size. The product is designed to cool 1 or more drinks at the same time. Each In the center of the cooler block (7), there is the Beverage Button (47) and Thermocouple (30) belonging to the block 0.

When a drink is placed in the cooling block, the machine detects this and starts it at the same time and instantaneously. It starts measuring the 0C degree of the beverage in the block (41). This process applies to any drink containing beverage (41). It is done simultaneously in a cooling block (7). Which Cooler blog does the user run to? It determines whether it has poured milliliters of drink using the screen (1). Which drink will the user choose? It also determines the degree of cooling it wants via the screen. oC in each block The machine, which has degree and milliliter data, determines which cooling block for how many seconds and which time. It calculates how to send coolant (56) in turn. User drinks (41) After placing it in the cooler halls and closing the Service cover (3) gives the Start command on the screen. Following the start command, UVC LED lamps (4) turn on and The disinfection process begins, the elevator servos (51) the drinks (41) are placed in the pre-determined, cooler lowers it to the positions where it can be grasped by the blocks in the best way, following this process Compression servos (27) compress the drinks (41) inside the cooling blocks (7). This process followed by the heatsink blocks (7) directed by the PCB (11) for the calculated period. Coolant liquid (56) is sent. At the same time, the orbital shake movement begins.

Orbital Shake/shaking movement as known causes vibration, therefore This problem is prevented with the special layouts and deviations we have developed. Method water It is as follows, each cooling block is in the same direction as another cooling block but 180 degrees It starts to rotate with deviation. 2 blocks of approximately equal weight absorb each other with an oscillation. is returned. In this way, emissions are reduced.

To elaborate, in the X,Y coordinate plane, with a diameter of 1 unit, the center is (0,0). A circle with a point is drawn. Let's assume that he completes one revolution of the circle in 4 seconds. at zero instant from cooling blocks At the 0th second, block A is at (-1,0) point, while block B is at (1,0). In the 1st second, block A comes to point (0,1), while block B comes to point (0,-1). In the 2nd second, block A reaches the point (1,0), while block B reaches the point (-1,0). In the 3rd second, block A comes to point (0,-1), while block B comes to point (0,1). In the 4th second, block A returns to point (-1,0), and block B returns to point (1,0).

In such a complete revolution, both blocks move forward thanks to their own weight and equal speed. It dampens oscillation and prevents machine vibration.

In order to dampen the oscillation in a model planned to cool a single drink (41), block B An opposing weight can also be used instead.

If desired, a QR code reader or barcode reader can be added to each cooler block. Counting of cooled drinks can also be done. This counting information is sent to the internet by PCB (11). It is transmitted to the desired points via .

The area where the Cooling Blocks (7) are located is located inside the PU Main Insulation Case (34). It is thermally isolated from the external environment and is kept at temperatures between 2°C and 10°C on average. is kept. If this area gets heated, even if there is no drink inside, the PCB (l 1) will give out With the command, cold liquid is sent to the cooling blocks (7) and this area is cooled. The purpose of this process is to By keeping the cooler blocks (7) cold, the next beverage is ready to be cooled. Cooler Cooling liquid tank (35) inside the PU main insulation case (34) It is located in the section and has a thicker insulation layer. electrical insulation of thermal insulation It has a very high impact on consumption.

Thanks to all these insulations and direct contact with beverages (41), only cooling Energy is used as much as is transferred to the processed beverage (41). Energy loss is minimized and thus, electricity consumption and carbon emissions are reduced compared to standard cabinets and those in the current market.

Claims (13)

STEMS 1. It is an instant cooler/freezer that uses the orbital shake method and its features are; Coolant that can drop from -16°C to -60°C while maintaining its fluidity without freezing. Main pump (23) that circulates the coolant (56) in the system. Cooling pumps (21) that send the coolant (56) to the cooling blocks (7). Hoses (9) that carry the coolant (56) to the cooling blocks (7), Coolant Tank (35) that stores the coolant (56), PU Main Insulation Case (34), which prevents energy loss by insulating the coolant (56) and all other equipment, Cooling Blocks (7), which cool the Beverage (41) by circulating the coolant liquid (56) in the channel structure inside, Block Hinge Shaft (44), which connects the cooling blocks to each other, Compression Servo (which serves to compress the Beverage (41) by pulling the cooling blocks (7) towards each other. 27), Compression Servo Arm (31), which is an extension of the Compression Servo (27), Short Inlet Hose (53) through which the coolant fluid (56) is entered into the Coolant Block (7), Coolant Liquid (56) exits from the Coolant Block (7). Long Outlet Hose (54), Cooling Block Head (10), which is located on top of the Cooling Block (7), allowing various lighting or visual application and at the same time protecting the mechanism, Central deviation that allows the Cooling Block (7) to perform orbital shake movement. Eccentric Hub (42), base for connecting the eccentric hub (42) and the cooling block (7), Thermocouple (30), which measures the instantaneous temperature of the drink (41) and reports it to the PCB (1 l), transmits the data it receives from the Thermocouple (30). PCB (1 l), which decides which equipment will operate by processing, Beverage Button (47), which helps to understand which cooler block (7) contains beverage (41), Processes the data received from the thermocouple (30) and beverage button (47) and sends it to the PCB (11). Mini PCB (52), which continuously sends instant data, Elevator Servo (51), which goes down at the beginning of the cooling process and rises at the end to serve the Beverage (41), Elevator gear (50), which is an extension of the elevator servo (51), Elevator gear (50). ) to the Push Shaft (48), the Elevator Body (49), which is the body of the Elevator servo (51) and other equipment, the U Hose (55), which helps to provide circulation between the cooling blocks (7), the screen (1), which allows the user to communicate with the machine. , Service Cover (3) that protects the cooler blocks (7) and beverages (41), Service Cover Button (5), which protects the customer from the moving parts during the cooling process and stops the entire system if the Service cover (3) is opened, Power Supply that provides electricity to the system at the correct voltage. (12), Power supply (12), Electrical Panel Cover (8), which protects the PCB (11) and the screen (1) from moisture and liquid splashes, Concealment cover (6), which prevents hands and similar objects from entering between the cooler blocks (7), Entire mechanisms. Eccentric Gear (29), which transmits the Main Orbital shake movement to the block base (26), which protects and at the same time provides heat insulation, Orbital Table (13), to which the eccentric gear (29) and eccentric hubs (42) are connected through bearings, Bearings that facilitate circular rotation in moving mechanisms. (43), Orbital Skeleton (14), which carries the cooling blocks (7) and orbital tray (13), Shaker Engine (36), which powers the orbital shake movement, Transfer Body (38), which supports the transfer of the movement coming from the Shaker Engine (36), Transfer Transfer Body Cover (39), which protects the gears inside the body (38), Coupling (37), which transfers the movement from the Shaker engine (36) to the Central gear (28), Evaporator (20), which provides cooling of the cooling liquid (56), o Circulate the cooling gas. Compressor (16), o Condenser (18), which cools the refrigerant gas, o Liquid, where the excess refrigerant gas returning from the evaporator (20) is stored in liquid form, o Compressor Electrical Box (17), which regulates the electricity of the compressor (16), o Measures the temperature of the refrigerant liquid (56) ( OC) and PCBaye (11) reporting Thermometer elements. . It is a cooler/freezer according to claim 1 and its feature is; It contains Block Insulation PU (25) which insulates the cooler block (7) and prevents it from losing energy. . It is a cooler/freezer according to claim 1 and its feature is; It contains the Compression Arm Pin (45) used to fix the Compression Servo Arm (31). . It is a cooler/freezer according to claim 1 and its feature is; It contains a Block Insulation Base (46) that provides thermal insulation while connecting the cooler block (7) to the block base (26). . It is a cooler/freezer according to claim 1 and its feature is; It contains a handle (2) to facilitate opening the service cover (3). . It is a cooler/freezer according to claim 1 and its feature is; It contains Locating Pins (33) that enable the Orbital Skeleton (14) to be placed and fixed on the PU main insulation case. . It is a cooler/freezer according to claim 6 and its feature is; It contains a Placement Slot (32) into which the Placement Pins (33) will fit. . It is an instant cooler/freezer with an orbital shake method as in claim 1, and its feature is; It contains a Chilled Beverage Insulated Stock area (59) where chilled beverages are stocked. . It is a cooler/freezer according to claim 8 and its feature is; The insulated stock area (5 9) contains a Radiator (61) that can provide cold air when necessary. 10. It is a cooler/freezer according to claim 9 and its feature is; It contains a fan (60) that directs the cold in the radiator (61) to the insulated stock area (59). 11. It is a cooler/freezer according to claim 1 and its feature is; The screen (1) is a touch screen. 12. It is a cooler/freezer according to claim 1 and its feature is; It contains UVC LED Lamps (4) that sterilize the drinks being cooled (41). 13. Orbital shake method feature; Placing the beverage (41) into the cooler block (7), making the instant cooler/freezer machine understand that the beverage is placed in the cooler block, instantaneous cooler/freezer instantly measuring the temperature of the beverage (41) in that block, determining the temperature of the beverage in each cooler block (7) containing the beverage (41). ) simultaneously measuring, The user determines how many milliliters of drinks he has placed in which cooling block using the screen (1), The user determines which beverage he wants to cool to what degree using the screen (1), The machine has Degree (OC) and milliliter data in each block, Calculating how many seconds and in what order to send coolant (56) to which cooling block, After placing the drinks (41) in the cooling chambers and closing the service cover (3), the user gives the start command on the touch screen, Following the start command, the UVC LED lamps (4) turn on. and the start of the disinfection process, Elevator servos (51) lowering the beverages to predetermined positions where they can be grasped by the cooling blocks in the best way, Compression servos (27) compressing the beverages (41) inside the cooling blocks (7), o Cooling directed by the PCB (1 1). Sending coolant to the blocks (7) for a calculated period of time, o Starting the orbital shake movement, 0 Each cooling block starting to rotate in the same direction as another cooling block but with a deviation of 180 degrees, It includes the process steps.