TAPE MARKING ASSISTIVE DEVICE

Abstract

A tape marking assistive device, comprising an inverted U-shaped frame 101 positioned over a ground surface, Omni-directional wheels 102 configured underneath the frame 101 to maneuver the frame 101, an artificial intelligence based imaging unit 104 installed over body evaluates a 3-Dimensional mapping of surface, a touch interactive display panel 105 installed over frame 101 to display evaluated 3-D mapping, an extendable shaft 201 installed over inner periphery of frame 101 to hold tape roll in a secured manner, expandable pulley arrangements 202 installed in shaft 201 to regulate diameter of shaft 201, a robotic arm 106 installed with frame 101 to apply tape over user-specified area, an hydraulic bar 107 installed with frame 101 position an inverted T-shaped member 108 to apply pressure over tape and a motorized brush 110 is installed with chamber 109 to apply a paint of user-specified area.

Specification

Description:FIELD OF THE INVENTION

[0001] The present invention relates to a tape marking assistive device that is capable of evaluating a 3-Dimensional mapping of the surface and accordingly apply tape over the user-specified area in order to mark the surface precisely.

BACKGROUND OF THE INVENTION

[0002] The tape marking is used to create visible lines or marks on various surfaces to indicate boundaries, measurements and guidelines. This is commonly used in construction, painting, and crafting to ensure accuracy and precision. Tape marking on highways increase night time visibility. Well maintained tape markings contributes overall aesthetic of the road, enhance its appearance and assist in guiding traffic flow.

[0003] Traditionally, tape marking is performed manually with the help of skilled labor and some traditional tools. The road surface is cleaned manually before tape marking. Paint is applied manually using spray equipment or brushes. While these traditional methods offer some benefits but they also poses several challenges and drawbacks. Traditional methods relies heavily on manual labor for taping, painting, and maintenance. This becomes time-consuming and costly, especially for large road networks. Also human error may lead to inaccuracies in tape marking such as uneven lines or less finished borders while painting may affect the overall look of the roads.

[0004] GB2448490A discloses about an invention that includes a marking device, primarily for forming road markings, comprises an agglomeration of retroreflective pieces held together by an adhesive which is gray. The adhesive preferably includes reflective elements which may be metallic flakes, e.g. formed from aluminum. The reflective elements are preferably less than 2 microns in length. Also claimed is a marking arrangement, a method of marking and a method of using a road marking arrangement. Although, GB'490 is capable of tapping over the surface. However the above mentioned device lacks in tapping on the user specified area in a precise and an automated manner.

[0005] US3587415A discloses about an invention that relates to the a marked road having a roadway surface for vehicles and one or more strips of marking tape joined to the upper face of the surface. The marking tape consists, in its parts adjacent to its upper face, of a composition ensuring optimum daylight visibility and traffic endurance, forming the greatly prevailing part of the marked surface area. a plurality of spaced located elements is evenly arranged on and partly embedded in a base strip of the composition, and consisting of a composition including a substantial amount and preferably over 20 percent and as high or even higher than 80 percent by weight of transparent glass micro spheroids ensuring high light reflection efficiency to the elements when viewed at night. Although, US'415 is capable of tapping over the surface. However the above mentioned device lacks determined user apply user choice paint over the tapping.

[0006] Conventionally, many devices have been developed that are capable of assisting user tape marking. However, these devices are incapable evaluating 3-dimensional mapping of the surface and accordingly apply tape over the user specified surface. Additionally, also failed in detect dust over the surface and clean automatically, thereby affix the tape with the user-specified surface properly.

[0007] In order to overcome the aforementioned drawbacks, there exists a need in the art to develop a device that is capable of tapping over the user specified surface in a precise and an automated manner in view applying mark over the surface or divide into part. In addition, the developed device should also capable of removing detected from the surface, thereby affix the tape over the user-specified surface properly.

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 is capable of evaluating a 3-Dimensional mapping of the surface and accordingly apply tape over the user-specified area in order to mark over the surface precisely.

[0010] Another object of the present invention is to develop a device that is capable of applying an optimum amount of the paint of the user-specified color over the applied tape, thereby applying tape over the user-specified area in accordance with user-specified color.

[0011] Yet another object of the present invention is to develop a device that is capable of monitoring presence of dust overs aid user-specified area and accordingly remove the dust in view of affixing the tape with the user-specified surface properly.

[0012] 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

[0013] The present invention relates to tape marking assistive device that is capable of marking a user specified area by affixing the tape with the surface. Additionally, the proposed device is capable of monitoring presence of dust in the user specified area to remove the dust from in view of applying the tape properly with the surface.

[0014] According to an embodiment of the present invention a tape marking assistive device, comprising an inverted U-shaped frame positioned over a ground surface by means of a pair of motorized Omni-directional wheels, further a handle is crafted over the frame and layered with a cushioned padding to provide comfort to the user while gripping the handle to maneuver the frame over the surface, an artificial intelligence based imaging unit installed over the body to evaluates a 3-Dimensional mapping of the surface and accordingly actuates a touch interactive display panel installed over the frame to display the evaluated 3-D mapping to enable the user to select an area over the surface over which a tape is to be applied along with color of the tape, a laser projector installed over the frame and actuated by the microcontroller to project laser light over the user-specified surface to guide the user to maneuver the frame over the projected lights in order to initiate application of the tape, an extendable shaft installed over inner periphery of the frame accessed by the user to insert a tape rollover the shaft, followed by a laser sensor is installed over the frame and synced with the imaging unit to monitor inner diameter of the tape roll based on which the microcontroller actuates multiple motorized expandable pulley arrangements installed in the shaft to regulate diameter of the shaft in to position in contact with the inner periphery of the tape roll in order to grip the tape roll in a secured manner, a dirt sensor is installed over the frame and synced with the imaging unit to monitor presence of dust overs aid user-specified area, based on which the microcontroller actuates a high pressure air nozzle installed with the frame at an inclination to dispense pressurized air over the user-specified area to remove the detected dust.

[0015] According to another embodiment of the present invention, the proposed invention is comprises of a robotic arm installed with the frame and actuated by the microcontroller to grip free end of the tape and apply over the user-specified area, simultaneously, the microcontroller actuates a motorized ball bearing installed between the shaft and frame to provide rotation to the shaft in a pre-defined direction to enable unwrapping of the tape from the tape roll, an inverted L-shaped hydraulic bar installed with the frame and actuated by the microcontroller to extend and position an inverted T-shaped member configured with the bar in contact with the applied tape to apply pressure over the tape in view of affixing the tape with the user-specified surface, Furthermore multi-sectioned chamber installed with the frame and stored with plurality of paints, followed by a motorized brush is installed with the chamber and linked with each of the section by means of a conduit that is commanded by the microcontroller to apply a regulated amount of the paint of the user-specified color over the applied tape, thereby applying tape over the user-specified area in accordance with user-specified color, a motorized cutting blade installed with the frame by means of a hydraulic link that is actuated by the microcontroller upon application of the tape over the user-specified area to extend in view of cutting the tape via the blade and detach from the tape roll.

[0016] 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

[0017] 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 tape marking assistive device; and
Figure 2 illustrates a perspective view of a shaft associated with the proposed device.

DETAILED DESCRIPTION OF THE INVENTION

[0018] 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.

[0019] 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.

[0020] 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.

[0021] The present invention relates to a tape marking assistive device that is capable affixing a tape over the surface in order to mark the user specified area accordingly. Additionally, the proposed device is capable of applying a regulated amount of the paint of the user-specified color over the applied tape, thereby applying tape over the user-specified area in accordance with user-specified color.

[0022] Referring to Figure 1 and Figure 2, an isometric view of a tape marking assistive device and a perspective view of a L-shaped frame associated with the proposed device are illustrated, respectively comprising an inverted U-shaped frame 101 positioned over a ground surface, pair of motorized Omni-directional wheels 102 configured with the frame 101, a handle 103 is crafted over the frame 101, an artificial intelligence based imaging unit 104 installed over the body a touch interactive display panel 105 installed over the frame 101, an extendable shaft 201 installed over inner periphery of the frame 101, multiple motorized expandable pulley arrangements 202 installed in the shaft 201, a robotic arm 106 installed with the frame 101, an inverted L-shaped hydraulic bar 107 installed with the frame 101, an inverted T-shaped member 108 configured with the bar 107, a multi-sectioned chamber 109 installed with the frame 101, a motorized brush 110 is installed with the chamber 109, a motorized cutting blade 111 installed with the frame 101 by means of a hydraulic link 112, air nozzle 113 installed with the frame 101.

[0023] The present invention is comprises of an inverted U-shaped frame 101 positioned over a ground surface by means of a pair of motorized Omni-directional wheels 102, that allows for smooth movement in any direction. The handle 103 is crafted over the frame 101 means to allowing the user to easily maneuver the device over the ground surfaces.

[0024] Further, an artificial intelligence based imaging unit 104 installed over the body evaluates a 3-Dimensional mapping of the surface. The imaging unit 104 comprises of an image capturing arrangement including a set of lenses that captures multiple images of the surface and the captured images are stored within a memory of the imaging unit 104 in form of an optical data. The imaging unit 104 also comprises of a processor that is integrated with artificial intelligence protocols, such that the processor processes the optical data and extracts the required data from the captured images. The extracted data is further converted into digital pulses and bits and are further transmitted to the microcontroller. The microcontroller processes the received data and determines a 3-Dimensional mapping of the surface.

[0025] Based on determined 3D mapping of the surface, the microcontroller actuate a touch interactive display panel 105 installed over the frame 101 to display the evaluated 3-D mapping. The touch interactive display panel 105 is arranged on the frame 101 for displaying the generated map. The touch interactive display panel 105 as mentioned herein is typically an LCD (Liquid Crystal Display) screen that presents output in a visible form. The screen is equipped with touch-sensitive technology, allowing the user to interact directly with the display using their fingers.

[0026] The user either selects from a map provided on the display or manually enters the details. A touch controller IC (Integrated Circuit) is responsible for processing the analog signals generated when the user inputs details regarding area over the surface over which a tape is to be applied along with color of the tape. A touch controller is typically connected to the microcontroller through various interfaces which may include but are not limited to SPI (Serial Peripheral Interface) or I2C (Inter-Integrated Circuit). The Integrated Circuit, then transmit the analogue signal to the microcontroller in the form of the electrical signal to process the signal. Upon receiving the signal the microcontroller evaluate the user requirement and determined area over the surface over which a tape is to be applied along with color of the tape.

[0027] As per the user input, the microcontroller activate a laser projector installed over the frame 101 to project laser light over the user-specified surface. The laser projection unit consists of a laser source, collimator, collimating lens and a wedge-shaped lens. The laser source generates a laser light beam which passes through a collimator that focus the laser light beam to a focal point. The laser light beam is received by the collimating lens that further collimate the laser light beam beyond the focal point. The laser light is then focused to a wedge-shaped lens having an aperture interposed between the focusing lens and collimating lens. The aperture has a size for passing the laser light beam through mirrors of the projection unit and projects a high-quality laser beam projections over the user-specified surface. Thus, the projection of laser light beam on the member 108 assists the user to maneuver the frame 101 over the projected lights in order to initiate application of the tape.

[0028] Upon initiating the application of the tape, the microcontroller activate a dirt sensor is installed over the frame 101 and synced with the imaging unit 104 to monitor presence of dust overs aid user-specified area. The dirt sensor used herein is based on an optical sensing method to detect dust. The dirt sensor consists of a photo sensor and an infrared light-emitting diode (IR LED). The IR- LED emits the IR rays on the user specified area and the photo-sensor receive the reflected IR LED rays from the user specified surface. The reflected rays are processed by the microcontroller to detect the presence of the dust over the user specified area.

[0029] Based on the detected dust, the microcontroller actuates a high pressure air nozzle 113 installed with the frame 101 at an inclination to dispense pressurized air over the user-specified area to remove the detected dust. Herein, the Electronic controlled nozzle 113 consists of a gate, and a magnetic coil which is energized by the microcontroller, on energizing the magnetic coil force is generated which pushes the gate to open thus allowing the air to flow out of the nozzle 113 and dispense over the user specified area to remove the dust from the area in order to applied tape over the user specified area.

[0030] Thereafter, an extendable shaft 201 installed over inner periphery of the frame 101 accessed by the user to insert a tape rollover the shaft 201. Now, the microcontroller activate a laser sensor is installed over the frame 101 and synced with the imaging unit 104 to monitor inner diameter of the tape roll. The acuity laser sensor consists of an emitter and receiver, and works on the principle of measuring the time delay between the laser beam to travel to the tape and back.

[0031] The sensor emits a light towards the surface of tape and when the laser beam hits the surface of the tape, the beam reflects back towards the receiver of the sensor. Upon detection of reflected beam by the sensor, the sensor precisely measures the time taken for the laser beam to travel to and back from the surface tape. The sensor calculates the inner diameter of the tape roll and the calculated inner diameter of the tape roll is then converted into electrical signal, in the form of current, and send to a microcontroller. Upon receiving the signals, the microcontroller determined diameter of the tape.

[0032] Based on the determined inner diameter of the tape, the microcontroller actuate the multiple motorized (ranges in 2 to 4) expandable pulley arrangements 202 installed in the shaft 201 to regulate diameter of the shaft 201 in to position in contact with the inner periphery of the tape roll. The expandable pulley arrangement typically includes a set of pulleys installed on shaft 201s. These pulleys are engineered with a mechanism that allows them to expand or retract as needed. The expansion and retraction action are typically actuated by an external force or mechanism. When the pulley expands, the diameter of the shaft 201 increases, which enables in contact with the inner periphery of the tape roll in view of gripping the tape roll in a secured manner.

[0033] Upon gripping the tape roll, the microcontroller actuate a robotic arm 106 installed with the frame 101 and actuated by the microcontroller to grip free end of the tape. The robotic arm 106s are able to perform the designated task with high efficiency and accuracy, wherein the robotic arm 106s consists of mechanical joints and actuators, which are controlled by the microcontroller. The actuators allow various degrees of freedom and movement and the joints are actuated by a DC (Direct Current) motor, providing the necessary force and motion to grab the free end of the tape and apply over the user-specified area.

[0034] During the tape apply over the user-specified area, the microcontroller activate a proximity sensor installed with the arm 106 to monitor application of the tape over the user-specified area. The proximity sensor used herein is preferably an ultrasonic proximity sensor that uses ultrasonic waves to detect the presence of the tape over the user defined area.

[0035] The ultrasonic proximity sensor typically emits ultrasonic waves towards the tape, the ultrasonic waves hit the obstacle and bounce back to the sensor's receiver. The receiver of the ultrasonic proximity sensor is sensitive to the emitted ultrasonic waves and listens for the reflected waves. When the emitted ultrasonic waves are received by the receiver the proximity sensor sends the data to the microcontroller which processes and analyzes the acquired data and determined the proper taping over the user defined area.

[0036] Simultaneously, the microcontroller actuate a motorized ball bearing installed between the shaft 201 and frame 101 to provide rotation to the shaft 201 in a pre-defined direction. The motorized ball bearing is powered by DC motor and comprises of a double row of balls guided by a cage and double row inner ring raceway. Upon actuation of the bearing by the microcontroller, the motor starts to rotate in clockwise or anti-clockwise direction in order to provide movement to the shaft 201 via the ball bearing. The bearing thus to provide rotation to the shaft 201 in a pre-defined direction to enable unwrapping of the tape from the tape roll.

[0037] Upon unwrapping of the tape, the microcontroller actuate an inverted L-shaped hydraulic bar 107 installed with the frame 101 to apply pressure over the tape an inverted L-shaped hydraulic bar 107 installed with the frame 101. The hydraulic rod is powered by a hydraulic unit consisting of a hydraulic cylinder, hydraulic compressor, hydraulic valve and piston that work in collaboration for providing the required extension/retraction to the rod.

[0038] The microcontroller actuates the valve to allow passage of hydraulic fluid from the compressor within the cylinder, the hydraulic fluid further develops pressure against the piston and results in pushing and extending the piston. The piston is connected with the rod and due to applied pressure the rod extends and similarly, the microcontroller retracts the rod by closing the valve resulting in retraction of the piston. The microcontroller regulates the extension/retraction of the rod for position an inverted T-shaped member 108 configured with the bar 107 in contact with the applied tape to apply pressure over the tape in view of affixing the tape with the user-specified surface.

[0039] Thereafter, a multi-sectioned chamber 109 installed with the frame 101 and stored with plurality of paints. The multi-sectioned chamber 109 has separate compartments for holding different color. Wherein a motorized brush 110 is installed with the chamber 109 and linked with each of the section by means of a conduit.

[0040] Once the tape has been applied over the user specified area, the microcontroller actuate the motorized roller brush 110 to apply a regulated amount of the paint of the user-specified color over the applied tape. The motorized brush 110 is comprises of cylindrical shape covered with a foam and coupled with a motor via a shaft, wherein upon receiving the command from the microcontroller by the motor, the motor starts to rotate in clockwise or anti-clockwise direction in order to provide movement to the brush 110 via the shaft. The brush 110 thus applied the optimum amount of the paint of the user-specified color over the applied tape. Thereby applying tape over the user-specified area in accordance with user-specified color.

[0041] Once the application of the tape over the user-specified area, the microcontroller actuate a hydraulic link 112 to extend in view of cutting the tape via the blade 111 and detach from the tape roll. The hydraulic link 112 is operate on the same principle as that the hydraulic bar 107 as disclosed above, thus the link 112 extend and position the blade 111 over the tape to cut the tape in order to detach the from the tape roll.

[0042] Lastly, a battery is installed within the device which is connected to the microcontroller that supplies current to all the electrically powered components that needs an amount of electric power to perform their functions and operation in an efficient manner. The battery utilized here, is generally a dry battery which is made up of Lithium-ion material that gives the device a long-lasting as well as an efficient DC (Direct Current) current which helps every component to function properly in an efficient manner. As the device is battery operated and do not need any electrical voltage for functioning. Hence the presence of battery leads to the portability of the device i.e., user is able to place as well as moves the device from one place to another as per the requirements.

[0043] The following method work well in the following manner, where the inverted U-shaped frame 101 as disclosed in the invention is positioned over the ground surface by means of the pair of motorized Omni-directional wheels 102. Further, the handle 103 layered with the cushioned padding to provide comfort to the user while gripping the handle 103 to maneuver the frame 101 over the surface. Then, the artificial intelligence based imaging unit 104 evaluates the 3-Dimensional mapping of the surface. Accordingly actuates the touch interactive display panel 105 to display the evaluated 3-D mapping to enable the user to select and area over the surface over which the tape is to be applied along with color of the tape. Then, the laser projector to project laser light over the user-specified surface in view of guiding the user to maneuver the frame 101 over the projected lights in order to initiate application of the tape. Thereafter, The dirt sensor to monitor presence of dust overs aid user-specified area. Upon detection of the dust, the microcontroller actuates the high pressure air nozzle 113 to dispense pressurized air over the user-specified area to remove the detected dust. Then, the user to insert the tape rollover the shaft 201. Followed by, the laser sensor to monitor inner diameter of the tape roll. Based on which the microcontroller actuates multiple motorized expandable pulley arrangements 202 to regulate diameter of the shaft 201 to position in contact with the inner periphery of the tape roll in order to grip the tape roll in the secured manner. Thereafter, the robotic arm 106 actuated by the microcontroller to grip free end of the tape and apply over the user-specified area. Simultaneously, the microcontroller actuates the motorized ball bearing to provide rotation to the shaft 201 in the pre-defined direction to enable unwrapping of the tape from the tape roll. Then, the inverted L-shaped hydraulic bar 107 actuated by the microcontroller to extend and position an inverted T-shaped member 108 with the applied tape to apply pressure over the tape in view of affixing the tape with the user-specified surface. Then, the motorized brush 110 is commanded by the microcontroller to apply the regulated amount of the paint of the user-specified color over the applied tape, thereby applying tape over the user-specified area in accordance with user-specified color. Upon application of the tape over the user-specified area, the hydraulic link 112 that is actuated by the microcontroller to extend in view of cutting the tape via the blade 111 and detach from the tape roll

[0044] In an alternate embodiment of the present invention may comprises of an accelerometer sensor installed over the frame 101 to monitor acceleration of the frame 101. The accelerometer sensor typically consists of a tiny mass suspended within a microstructure. As the four-wheeler accelerates, the mass experiences inertial forces, causing displacement relative to its initial position. This displacement is sensed by microstructures like beams or capacitors within the accelerometer. In response to acceleration, the displacement is translated into an electrical signal, commonly capacitance changes or piezoelectric effects, which is then converted into a voltage proportional to the acceleration. The microcontroller interprets the voltage to monitor the vehicle's acceleration accurately. After there, the microcontroller matched the determined acceleration of the frame 101 with a pre-fed database and in case determined value exceeding the threshold value, the microcontroller actuate the speaker to notify the user to decrease the acceleration of the frame 101.

[0045] 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 tape marking assistive device, comprising:

i) an inverted U-shaped frame 101 positioned over a ground surface by means of a pair of motorized Omni-directional wheels 102, wherein a handle 103 is crafted over said frame 101 that is gripped by a user to maneuver said frame 101 over said surface;
ii) an artificial intelligence based imaging unit 104 installed over said body and integrated with a processor for capturing and processing images of said surface, wherein based on said captured images, a microcontroller linked with said processor, evaluates a 3-Dimensional mapping of said surface and accordingly actuates a touch interactive display panel 105 installed over said frame 101 to display said evaluated 3-D mapping to enable said user to select and area over said surface over which a tape is to be applied along with color of said tape;
iii) a laser projector installed over said frame 101 and actuated by said microcontroller to project laser light over said user-specified surface in view of guiding said user to maneuver said frame 101 over said projected lights in order to initiate application of said tape;
iv) a extendable shaft 201 installed over inner periphery of said frame 101 accessed by said user to insert a tape rollover said shaft 201, wherein a laser sensor is installed over said frame 101 and synced with said imaging unit 104 to monitor inner diameter of said tape roll based on which said microcontroller actuates multiple motorized expandable pulley arrangements 202 installed in said shaft 201 to regulate diameter of said shaft 201 in to position in contact with said inner periphery of said tape roll in order to grip said tape roll in a secured manner;
v) a robotic arm 106 installed with said frame 101 and actuated by said microcontroller to grip free end of said tape and apply over said user-specified area as monitored by a proximity sensor installed with said arm 106, wherein simultaneously, said microcontroller actuates a motorized ball bearing installed between said shaft 201 and frame 101 to provide rotation to said shaft 201 in a pre-defined direction to enable unwrapping of said tape from said tape roll;
vi) an inverted L-shaped hydraulic bar 107 installed with said frame 101 and actuated by said microcontroller to extend and position an inverted T-shaped member 108 configured with said bar 107 in contact with said applied tape to apply pressure over said tape in view of affixing said tape with said user-specified surface; and
vii) a multi-sectioned chamber 109 installed with said frame 101 and stored with plurality of paints, wherein a motorized brush 110 is installed with said chamber 109 and linked with each of said section by means of a conduit that is commanded by said microcontroller to apply a regulated amount of said paint of said user-specified color over said applied tape, thereby applying tape over said user-specified area in accordance with user-specified color.

2) The device as claimed in claim 1, wherein a motorized cutting blade 111 installed with said frame 101 by means of a hydraulic link 112 that is actuated by said microcontroller upon application of said tape over said user-specified area to extend in view of cutting said tape via said blade 111 and detach from said tape roll.

3) The device as claimed in claim 1, wherein said handle 103 is layered with a cushioned padding to provide comfort to said user while gripping said handle 103.

4) The device as claimed in claim 1, wherein a dirt sensor is installed over said frame 101 and synced with said imaging unit 104 to monitor presence of dust overs aid user-specified area, and in case of detection of said dust, said microcontroller actuates a high pressure air nozzle 113 installed with said frame 101 at an inclination to dispense pressurized air over said user-specified area to remove said detected dust.

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