Description:FIELD OF THE INVENTION

[0001] The present invention relates to an adaptable television holding and position management device that assist a user to easily position, manage, and maintain a television in view of ensuring optimal viewing conditions, safety, and protection along with cleanliness of the TV.

BACKGROUND OF THE INVENTION

[0002] As televisions (TV) have become larger and more integral to daily life, optimizing the viewing experience and ensuring user safety have become significant concerns. Traditional TV setups lack the flexibility to adapt to different user needs, environmental conditions, and health considerations. Issues such as improper viewing angles, glare from ambient light, prolonged screen exposure, and overheating are common challenges that hinder an ideal viewing experience. Additionally, static TV mounts do not accommodate easy adjustments for position, angle, or optimal health-related features. With increased screen time, especially for children, there is a growing need for an intelligent control that manages the viewing angles, control glare, track usage, and protect both the user’s health and the TV’s longevity.

[0003] Traditionally, several existing devices aim to provide TV positioning and management but fall short in terms of versatility, health monitoring, and seamless integration. For instance, fixed TV mounts offer a static solution, where the TV is mounted on a wall in a single, unchangeable position, leaving no room for adjustment based on user preferences, lighting conditions, or viewing distance. Products like anti-glare TV screen protectors or blue light filters address only specific problems but require manual intervention and do not offer an integrated, automated solution. Smart TV stands, such as those from Samsung may allow height adjustment but don’t consider individual user safety, screen glare, or time spent watching TV. Furthermore, none of these devices address temperature regulation or provide automatic cleaning features. As a result, users are left managing each of these factors separately, often compromising the overall experience in terms of comfort, health, and convenience.

[0004] CN102859253B discloses a mounting system for mounting a display device to a surface, the mounting system adjustable in multiple degrees of freedom to selectively position and orientate the attached device relative to the mounting surface and/or other collocated display devices. According to various embodiments, a surface bracket is configured to attach to a mounting surface and an arm assembly operatively couples the surface bracket with a mount carriage. A mount bracket is movably coupled to the mount carriage and is selectively movable in a plane substantially parallel to the surface. A plurality of device bracket assemblies is coupled to the mount bracket. Each of the device bracket assemblies is selectively movable to translate, pivot and tilt the attached device.

[0005] US7316379B1 discloses a mounting bracket apparatus for adjustably supporting a flat panel display from a wall. The mounting bracket includes a wall bracket, a display bracket and two traversing mounts. The traversing mounts are supportively disposed between the wall bracket and the display bracket, and driven along a pair of substantially parallel linear axes by a pair of actuators enabling vertical adjustment of the display bracket. The traversing mounts are flexibly coupled between the wall bracket and the display bracket, thereby enabling misalignment of the positions to adjust the skew of the display bracket relative to the wall bracket.

[0006] Conventionally, many devices for TV mounting and management, such as fixed mounts and motorized stands, offer limited flexibility and manual intervention. However, the cited art lacks certain limitations pertaining to the integration of real-time environmental adjustments, such as dynamic control of ambient light, temperature regulation, and user proximity monitoring. While some devices allow for angle adjustments or basic positioning, they do not incorporate health and safety features, such as automatic screen glare reduction, tracking of excessive screen time, or real-time monitoring of viewer distance to ensure optimal viewing conditions.

[0007] In order to overcome the aforementioned drawbacks, there exists a need in the art to develop a device that is adaptable for positioning and viewing angle and capable of integrating various health and safety features, such as automatic adjustment of the TV based on ambient light, user proximity, and screen time. Additionally, the device should provide real-time monitoring of the television’s temperature to prevent overheating, as well as an automatic cleaning mechanism to ensure the screen remains clean for enhanced viewing experience.

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 that provides an easy and secure positioning of a television, ensuring optimal engagement and viewing experience for users by adjusting the TV's position and orientation.

[0010] Another object of the present invention is to develop a device that automatically manages and controls the television’s environment, such as light, temperature, and user distance, to enhance comfort and safety during usage.

[0011] Another object of the present invention is to develop a device that is capable of protecting the television screen by controlling glare, filtering harmful blue light, and covering the screen after extended use based on pre-set viewing limits.

[0012] Yet another object of the present invention is to develop a device that automates cleaning and maintenance of the television, allowing for efficient screen cleaning and the application of protective solutions without manual intervention.

[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 an adaptable television holding and management device that is developed to allow a user to position a television and automatically adjust position of a TV for comfortable viewing, protecting the screen from glare and harmful light.

[0015] According to an embodiment of the present invention, an adaptable television holding and position management device comprises of a rectangular plate developed to be positioned on a fixed surface of an enclosure, multiple suction units are installed on a back portion of said plate, dynamically actuated by an inbuilt microcontroller for affixing said plate with said surface, a pair of vertical strips pivoted with said plate for accommodating a TV (television), a pair of motorized pivot joints is assembled in between said plate and strips for providing an angular movement to said strips to allow a user to engage said television with said strips, an artificial intelligence-based imaging unit mounted on said plate and linked with a processor to determine dimension of television said user is holding, said microcontroller actuates a motorized slider provided on upper and bottom sides of said plate to position said strips at an optimum position, allowing said user to engage said television with multiple holes carved on said strips, an horizontal flap attached to top periphery of said plate via a first motorized hinge joint, a light sensor is integrated with said plate to detect angle and direction of ambient light incident on television screen, a vertical panel attached with lateral sides of said plate, each equipped with an integrated covering unit designed to move vertically to cover or uncover television screen, a shutter mechanism is integrated with said covering unit, enabling controlled movement of said covering unit between a retracted (open) and an extended (closed) position, when in case a timer module integrated with said microcontroller detects cumulative viewing time for individual users exceeds the designated viewing limit.

[0016] According to another embodiment of the present invention, the present device further includes a proximity sensor integrated with said plate to detect distance of between the user and the television screen in real-time, a speaker provided on said plate to emit audible alerts when user is detected within a predefined unsafe proximity range, along with generating an alert on a computing unit accessed by user’s parent or guardian to notify if the user continues to ignore the safety instructions after a specified time plate, a temperature sensor integrated with said plate to detect temperature of said television in real-time, a motorized roller arranged on said plate for rotating on its to unwind an anti-blue light film followed by actuation of multiple second motorized hinge joints arranged on said plate for providing movement to multiple inverted U-shaped links attached with each of said second hinge joints to deploy said film attached between said links, a telescopic L-shaped rod mounted on said plate via a motorized ball-and-socket joint, a free-end of said rod is attached with a cuboidal structure, plurality of electronic nozzles are provided on said structure, each connected to a chamber stored with cleaning solution provided on said housing to via plurality of conduits, said nozzles are actuated by said microcontroller for dispensing said cleaning solution over said screen, a microfiber cloth mounted on outer side of said structure for wiping said screen, a rotatable laser unit is attached to said plate, dynamically regulated by said microcontroller to direct beam accurately toward the user’s location, guiding the user to maintain a correct distance, a circuit breaker is electrically in line with television’s power cable, and a relay is coupled with said circuit breaker, triggered by said microcontroller to interrupt the power flow to TV in the event of abnormal conditions, an angle sensor is integrated with said plate and synced with said imaging unit to detect user’s position, distance, and angle relative to said TV, a motorized dual-axis slider is integrated between said plate and said rod, actuated by said microcontroller to provide multi-axis movement to said rod, and a battery is associated with said device for supplying power to electrical and electronically operated components associated with said device.

[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 an adaptable television holding and management device; and
Figure 2 illustrates an perspective view of an adaptable television holding and management 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] This invention relates to an adaptable television holding and management device that enhances the television viewing experience by automatically adjusting the TV’s position, protecting the screen from glare, managing the environment around the TV, and maintaining the TV's cleanliness and temperature, ensuring safety, comfort, and long-term usability for the user.

[0023] Referring to Figure 1 and Figure 2, an isometric view of an adaptable television holding and management device and an perspective view of the present device is illustrated, respectively, comprises of a rectangular plate 101 developed to be positioned on a fixed surface of an enclosure, multiple suction units 102 are installed on a back portion of the plate 101, a pair of vertical strips 103 pivoted with the plate 101, an artificial intelligence-based imaging unit 104 mounted on the plate 101, actuates a motorized slider 105 provided on upper and bottom sides of the plate 101, multiple holes 106 carved on the strips 103, an horizontal flap 107 attached to top periphery of the plate 101 via a first motorized hinge joint 108, a speaker 109 installed on plate 101, a telescopic L-shaped rod 110 mounted on the plate 101 via a motorized ball-and-socket joint 111, a free-end of the rod 110 is attached with a cuboidal structure 112, plurality of electronic nozzles 113 are provided on the structure 112, a microfiber cloth 114 mounted on outer side of said structure 112, a motorized dual-axis slider 115 is integrated between said plate 101 and said rod 110, a vertical panel 201 attached with lateral sides of the plate 101, each equipped with an integrated covering unit incorporated with a shutter arrangement 202 is integrated with the covering unit, a motorized roller 203 arranged on the plate 101, multiple second motorized hinge joints 204 arranged on the plate 101, and multiple inverted U-shaped links 205 attached with each of the second hinge joints 204.

[0024] The present invention herein includes a rectangular plate 101 that is designed to be positioned on a fixed surface of an enclosure, such as a wall or furniture for holding a television (TV). A user access and presses a switch button arranged on the plate 101 to activate the device for associated processes of the device. The switch button when pressed by the user, opens up an electrical circuit and allows currents to flow for powering an associated microcontroller of the device for operating of all the linked components for performing their respective functions upon actuation. The microcontroller, mentioned herein, is preferably an Arduino microcontroller. The Arduino microcontroller used herein controls the overall functionality of the components linked to it.

[0025] The plate 101 is installed with multiple suction units 102 on back portion, that are actuated by the microcontroller, enabling the device to affix securely to the fixed surface. The suction units 102 operates by creating negative pressure to draw in air or fluid through a suction inlet. It works on concept of a vacuum pump that generates the necessary suction force. When activated by the microcontrollers, the pump evacuates air from the suction units 102, creating a vacuum that causes atmospheric pressure to push the plate 101 towards the surface for affixing. The suction units 102 ensure that the plate 101 stays in place without any external mounting hardware, providing ease of installation and removal.

[0026] The plate 101 is configured with a pair of vertical strips 103 to hold the television securely. The strips 103 are connected to the plate 101 via a pair of motorized pivot joints, actuated by the microcontroller to provide angular movement to strips 103, which is allowing users to adjust the television's orientation according to their preference. The pivot joint comprises of a ring and cylindrical portion that are linked with each other to provide rotational movement to the strips 103. The ring is powered by a motor that is activated by the microcontroller to the rotate the ring to move the cylindrical portion due to which the strips 103 tilts. The motor is typically controlled by an electronic control unit that regulates its speed and direction. The joint consists of a hinge mechanism that enables rotation of the shaft that results in the rotational motion of the strips 103.

[0027] The microcontroller activates an angle sensor integrated with the plate 101 and synchronized with an artificial intelligence-based imaging unit 104 mounted on the plate 101 to detect the user’s position, distance, and angle relative to the television. The angle sensor used herein is preferably an optical angle sensor (not shown in figure) that use light beams and optical detectors to measure changes in light reflection or transmission caused by the angle of the user’s position. As the angle changes, the amount of light reflected or transmitted varies, allowing the sensor to calculate the angle. The angle sensor provides an output signal that represents the detected angle of the user and transmits the signal to the microcontroller.

[0028] Upon receiving of the user command from the microcontroller, the artificial intelligence-based imaging unit 104 starts capturing multiple images in a vicinity of the plate 101. The imaging unit 104 incorporates a processor that is encrypted with an artificial intelligence protocol to analyze and interpret the captured images. The processor of the imaging unit 104 via the artificial intelligence protocol processes the captured images and sent the signal to the microcontroller. Based on this information, the microcontroller regulates the motorized pivot joints, ensuring an optimal viewing angle for the user.

[0029] The imaging unit 104 further determines dimension of television the user is holding in the same way as mentioned earlier. Based on the captured data, the microcontroller automatically adjusts the position of the vertical strips 103 using a motorized slider 105 provided on upper and bottom sides of the plate 101 to position the strips 103 at an optimum position.

[0030] The slider 105 is associated with a pair of sliding rails fabricated with grooves in which the wheel of the slider 105 is positioned that is further connected with a bi-directional motor via a shaft. The microcontroller actuates the bi-directional motor to rotate in a clockwise and anti-clockwise direction that aids in the rotation of the 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 slider 105 results in the translation of the strips 103 at optimum position. This ensures the television is securely held in place and correctly aligned with the user’s line of sight. The user then engages the television with multiple holes 106 carved on the strips 103 in view of securely receiving and holding the television in place once positioned.

[0031] The microcontroller then activates a light sensor integrated with the plate 101 to detect the direction and angle of ambient light. The light sensor used herein is a photodiode that detects the presence and intensity of light falling on it. It works by converting light into an electrical signal. The sensor’s sensitivity to light allows it to register the ambient light level in the environment around it. As light strikes the sensor, it generates a change in electrical properties (such as voltage or current). The amount of light hitting the sensor determines the strength of the electrical signal produced. To detect the direction and angle of the light, the sensor may be placed on a rotating or adjustable plate 101, or it might use a special array of sensors. The electrical signals from the light sensor are sent to the microcontroller. The microcontroller processes these signals to determine both the intensity and the direction of the incoming light.

[0032] Based on the detected direction and angle of ambient light, the microcontroller actuates a first motorized hinge joint 108 to provide movement to a horizontal flap 107 attached to the top periphery of the plate 101 deploy the flap 107 above the television. The first motorized hinge joint 108 used herein, is a piece of metal that joins two the flap 107 with the plate 101 and allows it to be opened or closed by revolving along the longitudinal axis whose operation is governed by a DC motor.

[0033] The device includes a feature to cover or uncover television screen for controlling the view time of the user. A timer module is integrated with the microcontroller to detect cumulative viewing time for individual users. The timer module includes a RTC (real time clock) comprises of a controller, oscillator and an embedded quartz crystal resonator. The function of RTC (real time clock) is to keep accurate track of time even when a power supply is turned off or the device is placed in low power mode.

[0034] The plate 101 is attached with a vertical panel 201 on the lateral sides, and each panel 201 is equipped with an integrated covering unit designed to move vertically to cover or uncover television screen. If the cumulative viewing time exceeds a designated limit, the microcontroller triggers a shutter arrangement 202 integrated with the covering unit, ensuring that the screen is covered when excessive viewing time is detected.

[0035] The shutter arrangement 202 is powered by an electric motor, activated by the microcontroller that control the vertical movement of the covering units. These motors allow precise control over the shutter's position (from side to side). Upon receiving the activation signal from the microcontroller, the motor drives the shutters to move along vertical tracks that are positioned along the lateral sides of the television. The shutter movement is typically slow and smooth to avoid damaging the screen or the motorized mechanism. Once the shutters are fully deployed, they remain in position, fully covering the screen.

[0036] The device also monitors distance of between the user and the television screen in real-time via a proximity sensor integrated with the plate 101, activated by the microcontroller. The proximity sensor detects the presence or absence of the user within its vicinity without physical contact. The proximity sensor used herein is a capacitive proximity sensor that detect changes in capacitance caused by the presence of the user near the sensor's surface. Capacitive proximity sensor operates by generating an electrostatic field from an electrode. When the user comes in contact with this field, causing the alteration in the capacitance of the sensor due to differences in the dielectric constants of materials. The sensor detects the change in capacitance and determines the presence or absence of the user.

[0037] When the user comes too close to the screen, the microcontroller triggers a speaker to emit audible alerts, warning the user to maintain a safe distance. The speaker works by converting the electrical signal into the audio signal. The speaker consists of a cone known as a diaphragm attached to a coil-shaped wire placed between two magnets. When the electric signal is passed through the voice coil, generating a varying magnetic field that interacts with the magnet causing the diaphragm to move back and forth. This movement pushes and pulls air creating sound waves just like the electrical signal received and used to notify the user.

[0038] Additionally, if the proximity threshold is ignored for a specific duration, the microcontroller sends an alert to a computing unit (such as a parent’s or guardian’s mobile phone or computer) to notify them of the unsafe proximity. The computing unit is linked with the microcontroller via a communication module to facilitate wireless communication. The communication module facilitates data exchange between computing unit and microcontroller by encoding and sending information over various channels, such as Wireless Fidelity (Wi-Fi), Bluetooth, or cellular networks. The communication module, such as a Wireless Fidelity (Wi-Fi) module connects to the microcontroller to wirelessly transfer data to the computing unit, like a smartphone or server, over a Wi-Fi network. The microcontroller sends the data via the Wi-Fi module to a remote server or cloud service using standard communication protocols (such as HTTP (Hypertext Transfer Protocol) or MQTT (Message Queuing Telemetry Transport)). The microcontroller sends the alert to the computing unit.

[0039] A rotatable laser unit is dynamically regulated by the microcontroller to direct a laser beam toward the user’s location, guiding them to maintain the correct distance from the television. The microcontroller monitors the distance between the user and the television via the imaging unit 104 and calculate the distance based on the time it takes for a signal to return after bouncing off the user or the surrounding environment. When the microcontroller detects that the user is too close or too far from the television, the microcontroller takes action. If the user is too close or too far from the optimal viewing distance, the microcontroller dynamically adjusts the laser unit’s direction.

[0040] The microcontroller then activates the laser unit to point a laser beam toward the user. The laser beam serves as a visual cue, guiding the user to adjust their position. If the user is too close to the television, the laser may be directed toward the floor or to a position indicating that the user needs to step back. If the user is too far from the television, the laser might be directed towards the user’s location, signalling that they should move closer. This feature enhances user interaction with the device by visually marking the ideal viewing distance.

[0041] While the TV is in on mode, a temperature sensor integrated with the plate 101, activated by the microcontroller to monitor the temperature of the television in real-time. The temperature sensor uses a thermistor that changes its electrical resistance in response to temperature variations. As the temperature of the TV increases or decreases, the sensor detects this change by measuring the resistance or voltage change in the thermistor. The data collected is then transmitted to the microcontroller, which processes the information.

[0042] If the temperature exceeds a predefined threshold, the microcontroller actuates plurality of rotatable motorized fan units installed on the plate 101 to blow air towards the television. Upon receiving the signal, an electric motor connected to the fan blades starts spinning. This rotation creates airflow, which helps dissipate the heat around the area. The fan blades are typically angled to direct the airflow in a specific direction, which in this case, is towards the television. This helps to cool the TV by moving hot air away from it and improving overall cooling efficiency. The microcontroller also adjust the speed of the fan based on the temperature reading to maintain optimal temperature levels, thereby preventing overheating and ensuring the television’s longevity.

[0043] Further, a motorized roller 203 is mounted on the plate 101, actuated by the microcontroller to unwind an anti-blue light film and deploy in front of the television screen. The microcontroller then actuates a direct current (DC) motor associated with the roller 203 such that rotates an integrated hub of the roller 203. The rotation of the hub of the roller 203 consequently results in rotation of the roller 203 to deploy the film.

[0044] The film is supported via multiple second motorized hinge joints 204 and inverted U-shaped links 205 attached with each of the second hinge joints, actuated by the microcontroller in sync with the roller 203 to hold the anti-blue light film in place. The second motorized hinge joints 204 work in the same manner as first motorized hinge joint 108 described earlier to effectively filter the harmful blue light and reduce eye strain for the user. The links 205 support the deployment of the film over the TV.

[0045] The device incorporates a telescopic L-shaped rod mounted on the rectangular plate 101 via a motorized ball-and-socket joint 111 to position rod in a required manner. The joint has a ball-shaped component fits into a socket, allowing free rotational movement along multiple axes. The ball rotates in any direction, providing flexibility for the joint to orient the rod. A motor is attached to the ball or the socket, activated by the microcontroller for providing controlled rotation. The motor applies torque to rotate the ball within the socket, which in turn rotates the attached rod.

[0046] The free end of the rod is connected to a cuboidal structure 112 equipped with electronic nozzles 113 to dispense a cleaning solution over the television screen. The nozzle 113 disclosed herein is a short tube with a taper for constriction used (as on a hose) to regulate the flow of the nutrients. The nozzles 113is designed to control the amount of cleaning solution over the screen. The other side of the structure 112 is configured with a microfiber 114 cloth mounted on outer side of the structure 112 that work in sync with extension/retraction of rod for wiping the screen, ensuring the screen is thoroughly cleaned.

[0047] The motorized dual-axes slider 115 is integrated between the rectangular plate 101 and the telescopic L-shaped rod, providing multi-axis movement. The microcontroller actuates this slider 115 to precisely position the cleaning structure 112 over the television screen for effective cleaning. The dual-axis motorized slider 115 operates by moving the rod along two perpendicular axes, typically using motors and linear actuators. The dual-axes slider 115 consists of two motors: one controls movement along the X-axis (horizontal), and the other along the Y-axis (vertical). These motors are synchronized to allow precise positioning of the rod in any direction on the plane for cutting operation of the turf. The motors are usually connected to the microcontroller, which receives commands and adjusts the rod’s position accordingly.

[0048] In addition, to enhance the safety during the usage of TV, a circuit breaker is electrically in line with the television's power cable, and a relay is coupled with the circuit breaker. The microcontroller triggers the relay to interrupt the power flow to the television in the event of abnormal conditions, such as excessive proximity or overheating, ensuring the safety of both the device and the user.

[0049] The circuit breaker is installed in the power supply line of the television, serving as a protective device that automatically interrupts the flow of electricity if there is a fault or abnormal condition, such as an electrical overload, short circuit, or excessive current. The relay is an electrically controlled switch that connects or disconnects electrical circuits. The relay herein is coupled with the circuit breaker and controlled by the microcontroller. When the microcontroller detects that a safety threshold has been crossed (e.g., the user is too close to the TV or the temperature exceeds a predefined limit), it sends a signal to activate the relay. The relay, in turn, triggers the circuit breaker to cut off the power supply to the television, thus protecting both the device and the user from potential harm.

[0050] Moreover, a battery (not shown in figure) 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 known as a cathode and an anode. A voltage is generated between the anode and cathode via oxidation/reduction and thus produces the electrical energy to provide to the device.

[0051] The present invention works best in the following manner, where the rectangular plate 101, securely affixed to the fixed surface using multiple suction units 102 actuated by the microcontroller, serves as the foundation of the device. The vertical strips 103, pivoted to the plate 101, are equipped with motorized pivot joints that allow users to adjust the television’s angle, ensuring it is securely held and positioned according to the user’s preference. The AI-based imaging unit 104, connected to the processor, captures the user’s dimensions, allowing the microcontroller to adjust the strips’ 103 position automatically using the motorized slider 105 for a perfect fit. The horizontal flap 107, mounted on a first motorized hinge joint 108 with an integrated light sensor, adjusts its position to block ambient glare, providing an optimal viewing experience. The vertical panel 201 with the shutter mechanism covers the screen when the user exceeds the predefined viewing limit, which is monitored by the timer module. The proximity sensor continuously tracks the user's distance from the screen and triggers audible alerts via the speaker, sending notifications to a computing unit if the user enters an unsafe range. The temperature sensor monitors the television’s heat levels and activates motorized fans to prevent overheating. The motorized roller 203 and hinge joints deploy an anti-blue light film to reduce eye strain from prolonged viewing. The telescopic L-shaped rod, mounted on a motorized ball-and-socket joint 111, is used for automatic cleaning by dispensing a cleaning solution through electronic nozzles 113 and wiping the screen with a microfiber 114 cloth. Additionally, the rotatable laser unit guides the user’s distance and a circuit breaker to protect the television from electrical faults.

[0052] 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) An adaptable television holding and position management device, comprising:

i) a rectangular plate 101 developed to be positioned on a fixed surface of an enclosure, wherein multiple suction units 102 are installed on a back portion of said plate 101, which are dynamically actuated by an inbuilt microcontroller for affixing said plate 101 with said surface;

ii) a pair of vertical strips 103 pivoted with said plate 101 for accommodating a TV (television), wherein a pair of motorized pivot joints is assembled in between said plate 101 and strips 103 for providing an angular movement to said strips 103 in order to allow a user to engage said television with said strips 103;

iii) an artificial intelligence-based imaging unit 104 mounted on said plate 101 and linked with a processor for capturing and processing multiple images of said user, respectively to determine dimension of television said user is holding, said microcontroller actuates a motorized slider 105 provided on upper and bottom sides of said plate 101 to position said strips 103 at an optimum position, allowing said user to engage said television with multiple holes 106 carved on said strips 103, securely receiving and holding the television in place once positioned;

iv) an horizontal flap 107 attached to top periphery of said plate 101 via a first motorized hinge joint, wherein a light sensor is integrated with said plate 101 to detect angle and direction of ambient light incident on television screen, said microcontroller actuates said first hinge joint to tilt and deploy said flap 107 above said television, ensuring that television screen remains free from glare and provides an optimal viewing experience;

v) a vertical panel 201 attached with lateral sides of said plate 101, each equipped with an integrated covering unit designed to move vertically to cover or uncover television screen, wherein a shutter arrangement 202 is integrated with said covering unit, enabling controlled movement of said covering unit between a retracted (open) and an extended (closed) position, when in case a timer module integrated with said microcontroller detects cumulative viewing time for individual users exceeds the designated viewing limit;

vi) a proximity sensor integrated with said plate 101 to detect distance of between the user and the television screen in real-time, wherein said microcontroller triggers a speaker provided on said plate 101 to emit audible alerts when user is detected within a predefined unsafe proximity range, along with generating an alert on a computing unit accessed by user’s parent or guardian to notify if the user continues to ignore the safety instructions after a specified time plate 101;

vii) a temperature sensor integrated with said plate 101 to detect temperature of said television in real-time, wherein said detected temperature value exceeds a threshold value, said microcontroller actuates plurality of rotatable motorized fan units provided on said plate 101 to blow stream of air towards said television, in view of maintaining optimal temperature levels and prevent overheating of said television;

viii) a motorized roller 203 arranged on said plate 101 for rotating on its to unwind an anti-blue light film followed by actuation of multiple second motorized hinge joints 204 arranged on said plate 101 for providing movement to multiple inverted U-shaped links 205 attached with each of said second hinge joints in order to deploy said film attached between said links in front of said screen, thereby reducing eye strain by filtering harmful blue light from the TV screen; and

ix) a telescopic L-shaped rod mounted on said plate 101 via a motorized ball-and-socket joint 111, a free-end of said rod is attached with a cuboidal structure 112, wherein plurality of electronic nozzles 113 are provided on said structure 112, each connected to a chamber stored with cleaning solution provided on said plate 101 to via plurality of conduits, said nozzles 113 are actuated by said microcontroller for dispensing said cleaning solution over said screen, followed by controller extension and retraction of said rod for wiping said screen via a microfiber 114 cloth mounted on outer side of said structure 112.

2) The device as claimed in claim 1, wherein a rotatable laser unit is attached to said plate 101, dynamically regulated by said microcontroller to direct beam accurately toward the user’s location, guiding the user to maintain a correct distance.

3) The device as claimed in claim 1, wherein a circuit breaker is electrically in line with television’s power cable, and a relay is coupled with said circuit breaker, triggered by said microcontroller to interrupt the power flow to TV in the event of abnormal conditions.

4) The device as claimed in claim 1, wherein an angle sensor is integrated with said plate 101 and synced with said imaging unit 104 to detect user’s position, distance, and angle relative to said TV, in accordance to which said microcontroller regulates actuation of said pivot joints for optimal viewing experience.

5) The device as claimed in claim 1, wherein a motorized dual-axis slider 115 is integrated between said plate 101 and said rod, which is actuated by said microcontroller to provide multi-axis movement to said rod, facilitating precise and accurate positioning said cuboidal structure 112 over said screen.

6) The device as claimed in claim 1, wherein a battery is associated with said device for supplying power to electrical and electronically operated components associated with said device.