BEVERAGE DISPENSING DEVICE

Abstract

A beverage dispensing device, comprising a cuboidal container 101 integrated with an insulating outer coating for storing a beverage and possessing a dual-layer walls, multiple springs 102 and a gel provided between the two layers for absorbing impact force on the container 101, two parallel sliders 201 attached on the container 101 and equipped with a cushioned strap 202 for a user to mount the container 101 on shoulders of the user, a speaker 103 provided on the container 101 to generate an audio warning for the user regarding refilling of beverage, an elongated cylindrical housing 104 stored with disposable glasses arranged on the container 101, an imaging unit 110 installed on the container 101 to determine the glass held by the user, an L-shaped telescopic arm 106 possessing a nozzle 107 connected to a pump 108 provided in the container 101 for dispensing the beverage.

Specification

Description:FIELD OF THE INVENTION

[0001] The present invention relates to a beverage dispensing device which is capable of providing a mean to a user to assist in carrying required beverage at a user-desired location by minimizing effect of the vibrations caused while transporting the beverage by carrying on user's back and also dispense the beverage according to the user's desire.

BACKGROUND OF THE INVENTION

[0002] A beverage is a liquid intended for human consumption. Beyond quenching thirst, beverages play significant roles in human culture. Some examples of beverages are plain drinking water, tea, coffee, milk and juice etcetera. Usually, people carries a bottle filled with water along them while travelling to other places. But sometimes due to an emergency or by mistake, they forget to carry a bottle. Also sometimes, the people wish to drink coffee, tea etcetera according to the place. To overcome the different problems, many people sells the beverages in public places and public transports for income purpose. To sell the beverages, they required to carry the beverages at different location which causes difficulty to the people. Then, the seller need to dispense the beverage in a glass, in which slippage causes a wastage of the beverage. In public transport mainly in buses and railways it is tough to carry traditional beverages due to many reasons and to dispense the beverages in a glass or anything.

[0003] Traditionally, the seller sells the beverage by carrying the beverage in a container equipped with a handle and has an opening for dispensing. Then, the seller pours the beverage in a glass held by the user. In buses and railways, the seller faces difficulty in pouring the beverage in the glass due to shocks and vibration. This leads to the spillage of the beverages outside the glass which causes wastage to the beverage. Also, in case the tea is to be dispensed which is hot, there are chances the seller may sustain injury due to hot tea. Also the seller required to carry the glasses separately that cause extra burden and difficulty in handling. There are several ways by which these problems are easily eliminated.

[0004] EP1243548A2 discloses about a beverage dispensing assembly comprising a beverage dispensing device and a container containing a beverage. The dispensing device comprises an opening at the top for receiving the container, a lid for closing off the opening and a dispensing handle with an actuator member. The container comprises at its top end a beer conduit connected on one end to said container and on the other end with the actuator for closing and opening of the conduit by operation of the dispensing handle, the container comprising near the top end suspension means projecting transversely from a center line of the container, the dispensing device comprising complementary suspension means for cooperating with the container suspension means, for supporting the container with a bottom end spaced at a distance from the bottom of the dispensing device. EP'8A2 discloses about a beverage dispensing assembly comprising a beverage dispensing device and a container containing a beverage used for storing and dispensing the beverage. However, the above mentioned invention lacks dispensing the beverage according to the user's requirement in automatic manner.

[0005] US20030168474A1 discloses about a beverage dispensing container includes a primary chamber for holding a first liquid and a fluid dispensing device coupled to the primary chamber. The fluid dispensing device is adapted to provide access to the primary chamber when in a first position, and is adapted to fluidly seal the primary chamber when in a second position. The primary chamber further defines a cavity adapted to receive a second container therein. The second container holds a second liquid in a second chamber, and has a fluid port adapted to be opened to provide fluid access to the second chamber. A sealing mechanism is adapted to fluidly seal the fluid port when the second container is disposed in the cavity. The sealing mechanism permits the removal of the second container from the cavity and the reinsertion of the second container into the cavity to fluidly reseal the open fluid port. In this manner, a second container, such as an energy drink container, can be opened and then stored in the sports fluid dispensing container of the present invention in a manner which reduces or eliminates spillage from the open second container. US'4A1 discloses about a beverage dispensing container used storing and dispensing the beverage. However, the above mentioned invention lacks in providing a mean to mount the device on the user's back stably without causing problem on the back.

[0006] Conventionally, many devices available which are capable of assisting a user in carrying a beverage after storing at different location and then dispense the beverage, but there are no features available by means of which the beverage is kept stable from the vibration and shocks generated due to the user's movement or transport's movement, also no devices available which stores the beverage and disposable glasses at one place. Additionally, no devices available which enables the user to dispense the beverage in a regulated manner and according to the user's requirement.

[0007] In order to overcome the aforementioned drawbacks, there exists a need in the art to develop a device which is capable of providing a mean to a user to assist in carrying required beverage at the user-desired location by minimizing effect of the vibrations caused while transporting the beverage by carrying on user's back. Also there exists a need in the art to develop a device which is capable of dispensing the beverage according to the user's desire and continuously monitor the level of beverage left to inform the user about refilling about a beverage.

OBJECTS OF THE INVENTION

[0008] The principal object of the present invention is to overcome the disadvantages of the prior art.

[0009] An object of the present invention is to develop a device which is capable of providing a mean to be worn by a user for storing and carrying a beverage as per the user's desired location by reducing the shocks or impacts generated due to transporting the beverage by carrying on user's back.

[0010] Another object of the present invention is to develop a device which is capable of storing a stack of disposable glasses and provides the glass to the user according to the user's requirement.

[0011] Another object of the present invention is to develop a device which is capable of enabling the user to provide input commands regarding dispensing the beverage in the glass and accordingly dispensed the beverage to allow the user to fill the glass with beverage.

[0012] Yet another object of the present invention is to develop a device which is reliable in nature and is capable of detecting amount of beverage remained and accordingly informs the user regarding a refilling of the beverage.

[0013] The foregoing and other objects, features, and advantages of the present invention will become readily apparent upon further review of the following detailed description of the preferred embodiment as illustrated in the accompanying drawings.

SUMMARY OF THE INVENTION

[0014] The present invention relates to a beverage dispensing device that is capable of assisting a user in storing and carrying a beverage on the user's desired location by reducing the shocks or impacts. Additionally, the proposed device also dispensed the beverage in a glass to assist the user in filling the glass with beverage.

[0015] According to an embodiment of the present invention, a beverage dispensing device comprises of a cuboidal container integrated with an insulating outer coating for storing a beverage and possessing dual-layer walls with multiple springs and a gel provided in between the two layers of the walls for absorbing an impact force on the container, two parallel sliders equipped with cushioned strap attached on a rear surface of the container for allowing a user to mount the container on shoulders of the user, a waist belt provided on a lower region of the container for fixing around a waist of the user, a gyroscopic sensor provided on the container for detecting an acceleration of the container, a microcontroller to actuate the sliding units as per the detected acceleration to translate the container to negate the detected acceleration, a level sensor provided in the container for detecting a level of the beverage in the container, a speaker provided on the container to generate an audio warning for the user regarding a refilling of beverage and an elongated cylindrical housing for storing a stack of disposable glasses attached vertically to a lateral surface of the container.

[0016] According to another embodiment of the present invention, the proposed device further comprises of a proximity sensor provided on the housing to detect a hand of the user near the bottom end of the housing, an iris lid at a bottom end of the housing to open and dispense one of the glasses, a microphone provided on the container for providing an audio command regarding dispensing the beverage, a wireless communication module linked with the microcontroller provided on the container for enabling the user to remotely trigger the microcontroller, by connecting with a computing unit, an imaging unit installed on the container and integrated with a processor for recording and processing images in a vicinity of the container to determine the glass held by the user, an L-shaped telescopic arm arranged on the container to position a nozzle arranged at the end of the nozzle on the near the glass, the nozzle connected to a pump provided in the container via a conduit for dispensing the beverage, a pushbutton provided on the nozzle to trigger the microcontroller to actuate an iris hole provided in the nozzle to dispense the beverage.

[0017] While the invention has been described and shown with particular reference to the preferred embodiment, it will be apparent that variations might be possible that would fall within the scope of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS

[0018] These and other features, aspects, and advantages of the present invention will become better understood with regard to the following description, appended claims, and accompanying drawings where:
Figure 1 illustrates an isometric view of a beverage dispensing device; and
Figure 2 illustrates a rear view of the proposed device.

DETAILED DESCRIPTION OF THE INVENTION

[0019] The following description includes the preferred best mode of one embodiment of the present invention. It will be clear from this description of the invention that the invention is not limited to these illustrated embodiments but that the invention also includes a variety of modifications and embodiments thereto. Therefore, the present description should be seen as illustrative and not limiting. While the invention is susceptible to various modifications and alternative constructions, it should be understood, that there is no intention to limit the invention to the specific form disclosed, but, on the contrary, the invention is to cover all modifications, alternative constructions, and equivalents falling within the spirit and scope of the invention as defined in the claims.

[0020] In any embodiment described herein, the open-ended terms "comprising," "comprises," and the like (which are synonymous with "including," "having" and "characterized by") may be replaced by the respective partially closed phrases "consisting essentially of," consists essentially of," and the like or the respective closed phrases "consisting of," "consists of, the like.

[0021] As used herein, the singular forms "a," "an," and "the" designate both the singular and the plural, unless expressly stated to designate the singular only.

[0022] The present invention relates to a beverage dispensing device which is capable of assisting a user in storing and carrying a beverage at a user-desired location by minimizing effect of the vibrations on the user's back caused while transporting the goods by carrying on back. In addition, the proposed device also dispensed the beverage according to the user's desire.

[0023] Referring to Figure 1 and Figure 2, an isometric view and a rear view of a beverage dispensing device are illustrated, respectively comprising a cuboidal container 101, multiple springs 102 between two layers of the walls of the container 101, two parallel sliders 201 attached on a rear surface of the container 101, a cushioned strap 202 on each of the slider 201, a speaker 103 provided on the container 101, an elongated cylindrical housing 104 attached vertically to a lateral surface of the container 101, an iris lid 105 at a bottom end of the housing 104, an L-shaped telescopic arm 106 possessing a nozzle 107 at the end configured on the container 101, the nozzle 107 connected to a pump 108 provided in the container 101 via a conduit 109, an imaging unit 110 installed on the container 101, a waist belt 203 provided on a lower region of the container 101 and a microphone 111 provided on the container 101.

[0024] The proposed device comprises of a cuboidal container 101 is equipped with an insulating outer coating and is used for storing a beverage. The container 101 is developed in order to store the beverage properly. The container 101 is in cuboidal shape which offers a large storage capacity for several mechanical and electrical units to be placed with the container 101. Also, the container 101 is light in weight and is casted with highly durable materials which are easy to be carried from one place to another as per the requirement of the user. Additionally, a waist belt 203 is provided on a lower region of the container 101 for fixing around a waist of the user to provide stability to the container 101 on the user's back.

[0025] The container 101 is possessing a dual-layer walls which are interconnected with each other by means of multiple springs 102. The springs 102 used herein are in the range of fifteen to twenty in number and are elastic element which deflects and retracts to absorb shocks produced in the container 101 due to an external force. The spring 102 deflects when the external load is applied on the container 101 and synchronously regains the original shape when the applied load is removed. Hence in this way, the spring 102 continuously extends and retracts for absorbing the shocks and stabilize the beverage present in the container 101.

[0026] Further, a gel is provided between the two layers of the walls for absorbing an impact force on the container 101, wherein the gel damps a movement of the springs 102. The gel works as a damper here. The gel continuously flows throughout the gel and creates resistance to the movement of the springs 102. This resistance dissipates the kinetic energy of the movement into heat energy and hence helps in effectively dampening the shock. By absorbing and dissipating energy, the gel damps the movement of the springs 102 and helps in properly absorbing the shocks generated in the container 101.

[0027] Also, a pair of parallel sliders 201 are attached on a rear surface of the container 101. Each of the slider 201 is equipped with a cushioned strap 202 for allowing a user to mount the container 101 on shoulders of the user. The cushioned strap 202 provides a cushion effect on the shoulder of the user that is referred to a softening or dampening of the impact or force of weight of the container 101 on the user's shoulders. Hence in this manner, the cushioned strap 202 allows the user to mount the container 101 on shoulders of the user without feeling uncomfortable.

[0028] Upon mounting the container 101 by the user on the shoulders of user, a gyroscopic sensor is provided on the container 101 for detecting an acceleration of the container 101. The gyroscopic sensor consists of a stator, vibrating drive arm 106s on one side of the stator, and two sensing arm 106s that run vertically. When the container 101 is moved due to user's movement, the sensor also rotates and this rotational motion is applied to the crystal element. Then, the Coriolis force acts on the drive arm 106s as a result of this vibration is generated in the vertical direction. Then, the stator bends, and the sensing arm 106s move. The motion of the two sensing arm 106s produces a potential difference from which acceleration is sensed and is sent to a microcontroller associated with the device after converting into an electrical signal. The microcontroller processed the acquired data and detects the acceleration of the container 101.

[0029] In accordance with the determined acceleration of the container 101, the microcontroller actuates the sliding units to translate the container 101 to negate the detected acceleration. The sliding unit consists of a pair of sliding rail fabricated with grooves in which the wheel of a slider 201 is positioned that is further connected with a bi-directional motor via a shaft. The microcontroller actuates the bi-directional motor to rotate in clockwise and anti-clockwise direction that aids in rotation of shaft, wherein the shaft converts the electrical energy into rotational energy for allowing movement of the wheel to translate over the sliding rail by a firm grip on the grooves. The movement of the sliding units result in translation of the container 101 to negate the detected acceleration.

[0030] Furthermore, a level sensor is provided in the container 101 for detecting a level of the beverage in the container 101. The level sensor comprises of an infrared (IR) emitter and a photodiode. The sensor detects the level of beverage in the container 101 by measuring the intensity of infrared light that is reflected back into the photodiode. The received intensity of the infrared light is then sent in the form of electrical signal to the microcontroller. The microcontroller processed and analysed the acquired data and detects the level of beverage present in the container 101.

[0031] In case the level is detected below a threshold level, the microcontroller actuates a speaker 103 provided on the container 101 to generate an audio warning for the user regarding a refilling of beverage. The speaker 103 converts the electrical signal into sound wave for producing sound. The part of the speaker 103 that converts electrical signal into mechanical energy is called a voice coil and also consists of a diaphragm. The motor upon getting actuation command from the microcontroller, vibrates the diaphragm that in turn vibrates the air in immediate contact with it according to specific pattern. This specific pattern's vibration produces the pre-fed audio signals providing the warning for the user regarding the refilling of beverage in the container 101.

[0032] Upon ensuring the proper amount of beverage in the container 101, an elongated cylindrical housing 104 is attached vertically to a lateral surface of the container 101 for storing a stack of disposable glasses. The housing 104 is possessing an iris lid 105 at a bottom end of the housing 104 to provide an opening and closing to the housing 104. Herein, a proximity sensor is provided on the housing 104 that detects a hand of the user near the bottom end of the housing 104.

[0033] The proximity sensor detects the presence or absence of the hand of the user near the bottom end of the housing 104. It works by emitting an electromagnetic field or beam of radiation in front and then detecting any changes in that field or beam as the hand of the user enters or exits the sensing area. When the hand of the user comes near the bottom end of the housing 104 then beam coming out from proximity sensor gets disturbed and hence proximity sensor sensed the presence of hand and this data is converted in electrical signal which sent to the microcontroller. The microcontroller processed the acquired data and detects the presence of hand of the user near the bottom end of the housing 104.

[0034] After detecting the presence of the user's hand near the bottom end of the housing 104, the microcontroller actuates the iris lid 105 to open and dispense one of the glasses. The iris lid 105 is the covering utilized for allowing the passage of glasses from the housing 104. The iris lid 105 includes an inner flat ring, an outer flat ring, and an even number of iris blades (upper and lower). Each iris blade is attached to the inner ring by a pivot assembly and to the outer ring by a roller/slider 201 assembly. The upper and lower rings are co-centered and are kept in sliding contact. The iris is opened by turning the outer ring around the center while holding the inner ring stationary to dispense one of the glasses to the user.

[0035] Upon getting the glass, the user accesses a microphone 111 that is linked with the microcontroller is provided on the container 101 for providing an audio command regarding dispensing the beverage. The microphone 111 converts sound of given voice command into electronic signal for further processing. The microphone 111 is constructed with a small magnet that oscillates inside a coil attached to the diaphragm. When user gives a voice command for dispensing the beverage, a sound wave produces and the waves causes the diaphragm of the microphone 111 to vibrate. The relative motion of the magnet and coil changes the given dispensing voice command in an electrical signal by magnetic induction which is sent to the microcontroller. The microcontroller processes the acquired signal and interprets the user's command.

[0036] Simultaneously, a wireless communication module linked with the microcontroller is provided on the container 101 for enabling the user to remotely trigger the microcontroller, by connecting with a computing unit. The microcontroller is wirelessly linked with the computing unit via the communication module which includes, but not limited to Wi-Fi (Wireless Fidelity) module, Bluetooth module, GSM (Global System for Mobile Communication) module. The communication module employed herein acts as an intermediate between the computing unit and the microcontroller. The customized Global System for Mobile communication (GSM) module is designed for establishing a wireless connection between computing unit and the microcontroller. This module is able to receive serial data from radiation monitoring devices such as computing unit and transmit the data to the microcontroller for further processing.

[0037] Upon processing the user's input, the microcontroller activates an artificial intelligence-based imaging unit 110 installed on the container 101 and integrated with a processor for recording and processing images in a vicinity of the container 101 to determine the glass held by the user. The artificial intelligence-based imaging unit 110 used herein incorporates AI protocols to enhance its functionality and capabilities to enables immediate responses and faster decision-making. The imaging unit 110 captures images or records videos of surrounding of the container 101 by the help of specialized lenses. The captured data is pre-processed and is fed into AI protocols for analysis which utilizes machine learning techniques, such as deep learning neural networks, to extract meaningful information from the visual data. This acquired data is processed by the processor and then the microcontroller analysed the processed the data to determine the glass held by the user.

[0038] Moreover, an L-shaped telescopic arm 106 possessing a nozzle 107 at the end is integrated on the container 101. The nozzle 107 is further connected to a pump 108 provided in the container 101, via a conduit 109, for dispensing the beverage. Based on the detection of the glass held by the user, the microcontroller actuates the telescopic arm 106 to position the nozzle 107 near the glass. The arm 106 is powered by a pneumatic unit which includes an air compressor, air cylinder, air valves and piston. The air compressor used herein extract the air from surrounding and increases the pressure of the air by reducing the volume of the air. The air compressor draws atmospheric air and compress to elevated pressure. The compressed air is then sent through a discharge tube into the cylinder across the valve. The compressed air in the cylinder tends to pushes out the piston to extend which extends the arm 106 that positions the nozzle 107 near the glass, for enabling the user to dispense the beverage in the glass.

[0039] Upon positioning the nozzle 107 near the glass by the arm 106, the user actuates a pushbutton provided on the nozzle 107 to trigger the microcontroller to actuate an iris hole provided in the nozzle 107 to dispense the beverage. The push button consists of a spring 102 attached with a sensing module, when the user presses the button for actuating the iris hole, the springs 102 gets compressed and synchronically the sensing module senses the compressed and released state of the spring. Based on the spring 102 state, the sensing module transmits the acquired data in the form of digital bits to the microcontroller. The microcontroller upon receiving the signal compares the received signal with the pre-fed data stored in a database and constantly determines whether the button is pressed by the user or not.

[0040] In case the microcontroller determines that the button is pressed, then the microcontroller actuate the iris hole to dispense the beverage. The iris hole consists of an iris diaphragm configured with multiple blades overlapping with each other and powered by a bi-directional motor. When the blades are rotated in the clockwise direction it closed the surface of the lids. Similarly, the blades are rotated in the anticlockwise direction the surface of the lids are open. On actuation, the motor controller generates the command to actuate the DC motor to rotate the blades of the lids in an anticlockwise direction to open the iris hole that results in dispensing the beverage in the glass held by the user.

[0041] Lastly, a battery is associated with the device to supply power to electrically powered components which are employed herein. The battery is comprised of a pair of electrodes named as a cathode and an anode. The battery uses a chemical reaction of oxidation/reduction to do work on charge and produce a voltage between their anode and cathode and thus produces electrical energy that is used to do work in the device.

[0042] The present invention works best in the following manner, where the cuboidal container 101 as disclosed in the invention is integrated with the insulating outer coating and is used for storing a beverage. Additionally, the waist belt 203 is provided on the lower region of the container 101 for fixing around the waist of the user to provide stability to the container 101 on the user's back. Further, multiple springs 102 and the gel is provided between the two layers of the walls of the container 101 for absorbing the impact force on the container 101, wherein the gel damps the movement of the springs 102. Then, the user worn the cushioned strap 202 for mounting the container 101 on shoulders of the user. Upon mounting the container 101 by the user on the shoulders of user, the gyroscopic sensor detects the acceleration of the container 101. In accordance to this acceleration, the microcontroller actuates the sliding units to translate the container 101 to negate the detected acceleration. Thereafter, the level sensor detects the level of the beverage present in the container 101. In case the detected level is below a threshold level, the microcontroller actuates the speaker 103 to generate the audio warning for the user regarding refilling of beverage. Upon ensuring the proper amount of beverage in the container 101, the proximity sensor detects presence of the hand of the user near the bottom end of the housing 104. In case the user's hand is detected near the bottom end of the container 101, the microcontroller actuates the iris lid 105 to open and dispense one of the glasses to the user. Upon getting the glass, the user accesses the microphone 111 or the computing unit wirelessly linked with the microcontroller via the communication module to provide an audio command regarding dispensing the beverage. Upon processing the user's input, the microcontroller activates the imaging unit 110 for recording and processing images in the vicinity of the container 101 to determine the glass held by the user. Based on the detection of the glass held by the user, the microcontroller actuates the telescopic arm 106 to position the nozzle 107 near the glass. Upon positioning the nozzle 107 near the glass by the arm 106, the user actuates the pushbutton to trigger the microcontroller that actuates the iris hole to dispense the beverage in the glass held by the user.

[0043] Although the field of the invention has been described herein with limited reference to specific embodiments, this description is not meant to be construed in a limiting sense. Various modifications of the disclosed embodiments, as well as alternate embodiments of the invention, will become apparent to persons skilled in the art upon reference to the description of the invention. , Claims:1) A beverage dispensing device, comprising:

i) a cuboidal container 101, with an insulating outer coating, for storing a beverage, said container 101 having dual-layer walls, with plurality of springs 102 and a gel provided between said two layers of said walls for absorbing an impact force on said container 101, wherein said gel damps a movement of said springs 102;

ii) a pair of parallel sliders 201 attached on a rear surface of said container 101, each said slider 201 having a cushioned strap 202 for a user to mount said container 101 on shoulders of said user;

iii) a gyroscopic sensor provided on said container 101, for detecting an acceleration of said container 101 to trigger a microcontroller to actuate said sliding units to translate said container 101 to negate said detected acceleration;

iv) a level sensor provided in said container 101 for detecting a level of said beverage in said container 101, to trigger said microcontroller to actuate a speaker 103 provided on said container 101 to generate an audio warning for said user regarding a refilling of beverage, if said detected level is below a threshold level;

v) an elongated cylindrical housing 104, for storing a stack of disposable glasses, attached vertically to a lateral surface of said container 101, said housing 104 having an iris lid 105 at a bottom end of said housing 104, wherein a proximity sensor provided on said housing 104, detects a hand of said user near said bottom end of said housing 104 to trigger said microcontroller to actuate said iris lid 105 to open and dispense one of said glasses;

vi) an L-shaped telescopic arm 106 having a nozzle 107 at the end, said nozzle 107 connected to a pump 108 provided in said container 101, via a conduit 109, for dispensing said beverage;

vii) an iris hole provided in said nozzle 107, wherein user actuates a pushbutton provided on said nozzle 107, to trigger said microcontroller to actuate said iris hole to dispense said beverage; and

viii) an artificial intelligence-based imaging unit 110, installed on said container 101 and integrated with a processor for recording and processing images in a vicinity of said container 101, to determine said glass held by said user to trigger said microcontroller to accordingly actuate said telescopic arm 106 to position said nozzle 107 near said glass.

2) The device as claimed in claim 1, wherein a waist belt 203 is provided on a lower region of said container 101 for fixing around a waist of said user.

3) The device as claimed in claim 1, wherein a microphone 111, linked with said microcontroller, provided on said container 101 for receiving an audio command from said user regarding dispensing said beverage to trigger said microcontroller to actuate said imaging unit 110 to determine said glass held by said user to accordingly actuate said telescopic arm 106 to position said nozzle 107 near said glass.

4) The device as claimed in claim 1, wherein a wireless communication module, linked with said microcontroller, is provided on said container 101 for enabling said user to remotely trigger said microcontroller, by connecting with a computing unit, to actuate said imaging unit 110 to determine said glass held by said user to accordingly actuate said telescopic arm 106 to position said nozzle 107 near said glass, for enabling said user to dispense said beverage in said glass.

5) The device as claimed in claim 1, wherein a battery is associated with said device for powering up electrical and electronically operated components associated with said device.

Documents