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DRAWSTRING INSERTION ASSISTIVE DEVICE FOR GARMENTS
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Abstract
Information
Inventors
Applicants
Specification
Documents
ORDINARY APPLICATION
Published
Filed on 7 November 2024
Abstract
A drawstring insertion assistive device for garments, comprising a platform 101 having multiple suction cups 102 adhere platform 101 to a fixed surface, a microphone 103 access user’s voice commands for activating/deactivating device, an artificial intelligence-based imaging unit 104 determining dimensions of garment, a telescopically operated rod 106 deploying a horizontal bar 105, a drawer arrangement for increasing/decreasing bar 105’s dimensions, an ultrasonic sensor for detecting drawstring thickness of garment, a spiral structure 108 configured with platform 101 for positioning one of gripped end in proximity to spiral structure 108, a pair of telescopically operated links 109 provides a stable base to spiral structure 108, a motorized ball and socket joint provide a twisting movement to structure 108, a motorized roller 110 for unwrapping/wrapping drawstring, a robotic arm 111 for gripping of drawstring loose end, and a motorized cutter 112 to cut extra ends of drawstring.
Patent Information
Application ID | 202441085637 |
Invention Field | BIO-MEDICAL ENGINEERING |
Date of Application | 07/11/2024 |
Publication Number | 46/2024 |
Inventors
Name | Address | Country | Nationality |
---|---|---|---|
Dr. Jegan G. | Department of Electronics and Communication Engineering, School of Electrical and Electronics, Sathyabama Institute of Science and Technology (Deemed To Be University), Jeepiaar Nagar, Rajiv Gandhi Salai, Chennai-600119, India. | India | India |
Applicants
Name | Address | Country | Nationality |
---|---|---|---|
Sathyabama Institute of Science and Technology (Deemed To Be University) | Jeepiaar Nagar, Rajiv Gandhi Salai, Chennai-600119, India. | India | India |
Specification
Description:FIELD OF THE INVENTION
[0001] The present invention relates to a drawstring insertion assistive device for garments that is capable of assisting a user in insertion of a drawstring in a garment. Further, the proposed device is capable of detecting thickness of a drawstring passage of the garment in order to insert the drawstring in the garment without any hassle and damage to the garment.
BACKGROUND OF THE INVENTION
[0002] A seemingly insignificant detail like a drawstring is essential to the wear ability and style of clothing. Beyond only holding fabric together, a drawstring may be used to create a variety of stylish and functional elements for clothing designs. Drawstrings have been used historically to adjust to the demands and fashion trends of different cultures and eras. The drawstring, which offers customizable fit and comfort, has been a mainstay of clothing since ancient tunics and contemporary hoodies. Its value comes from both its functional use which lets users tailor their clothes to fit their body types and preferences and its aesthetic potential, which lets users give their clothes more texture, dimension, and visual appeal. Whether drawing attention to the waist, forming gathers, or incorporating a sporty element. In the past, drawstrings were manually placed into clothing by passing the string through a small opening or casing that was sewed into the fabric.
[0003] Although, this approach has proven successful, it is not without its difficulties and disadvantages. The lengthy process is one of the main issues, particularly when handling clothing with elaborate designs or several drawstring channels. Furthermore, manually inserting drawstrings can be time-consuming and labor-intensive as well as requires accuracy. Moreover, the traditional approach might not always produce a drawstring that is securely secured or dispersed equally. Over time, the drawstring may come undone or tangle inside the clothing, causing the wearer to experience discomfort or difficulty. Additionally, the fabric and the drawstring itself may deteriorate from constant tugging and tightening, which could shorten the garment's lifespan and durability.
[0004] US10299539B2 discloses a drawstring for drawing together a material, and a method for making the drawstring. In some aspects, the drawstring includes at least one flexible elongate cord having a first end and a second end, wherein the first end includes a first aglet and the second end includes a second aglet, a first connector having a base end and a top end, the base end including a first cavity for receiving the first aglet, and the top end including a first male fastener, a second connector including a rotating element and a fixed element, the rotating element coupled to the fixed element via a swivel, the rotating element including a first female fastener configured to be removably attached to the first male fastener, and the fixed element having a second cavity for receiving the second aglet, wherein the first aglet is enclosed within the first cavity such that the opening to the first cavity is crimped to prevent removal of the first aglet from the first cavity, and wherein the second aglet is enclosed within the second cavity such that the opening to the second cavity is crimped to prevent removal of the second aglet from the second cavity. Though US'539 relates to a connectable drawstrings with insertion tool, however the cited prior art lacks in assisting a user in insertion of a required length of a drawstring in a garment, accordingly cuts extra ends of the drawstring after successful insertion of required length of the drawstring in the garment.
[0005] WO2016154265A1 discloses an interchangeable drawstring having each end provided with a connecting aglet. The aglets allow two or more drawstrings to connect together, forming one extended drawstrings. The extended drawstring is then pulled through the garment either from an existing drawstring of the same design or by way of the threading tool that possesses the same designed aglets until the newly connected section of the drawstring is in position of the original drawstring. The user, now having the pulled / inserted drawstring into position, then disconnects the extended drawstring completing the change. The first connecting aglet has a free spinning threading component that allows the drawstring to thread to the second connecting drawstring without having to twist the drawstring during connection. First time insertions of the drawstrings are done with the threaded connectable aglet attached to a small threading tool designed with aglets of the same design as the drawstring. Though WO'265 relates to a connectable drawstrings with insertion tool, however the cited prior art has limitation of detection of thickness of a drawstring passage of a garment in order to insert the drawstring in the garment without any hassle and damage to the garment.
[0006] Conventionally, many devices have been developed in order to insert drawstring, however the devices mentioned in the prior arts have limitations pertaining to detect thickness of a drawstring passage of the garment in order to insert the drawstring in the garment without any hassle and damage to the garment.
[0007] In order to overcome the aforementioned drawbacks, there exists a need in the art to develop a device that is capable of assisting a user in insertion of a required length of a drawstring in a garment, accordingly cuts extra ends of the drawstring after successful insertion of required length of the drawstring in the garment.
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 assisting a user in insertion of a drawstring in a garment.
[0010] Another object of the present invention is to develop a device that is capable of detecting thickness of a drawstring passage of the garment in order to insert the drawstring in the garment without any hassle and damage to the garment.
[0011] Yet another object of the present invention is to develop a device that is capable of cutting extra ends of the drawstring after successful insertion of required length of the drawstring in the garment, accordingly notify the user to collect the garment.
[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 a drawstring insertion assistive device for garments that aids a user in insertion of a drawstring in a garment by detecting thickness of a drawstring passage of the garment in order to insert the drawstring in the garment without any hassle and damage to the garment.
[0014] According to an embodiment of the present invention, a drawstring insertion assistive device for garments comprises of a platform developed to be positioned on a fixed surface, plurality of suction cups are arranged underneath the platform to adhere to the platform for securing the platform on the surface, a microphone integrated in the platform for enabling a user to provide input voice commands for activating/deactivating the device, an artificial intelligence-based imaging unit determine dimensions of a garment positioned in proximity to the platform, in which a drawstring is to be inserted, a horizontal bar arranged on the platform by means of a telescopically operated rod to extend/retract for deploying the bar, a drawer arrangement is integrated in the bar for increasing/decreasing dimensions of the bar for enabling a user to accommodate the garment on the bar, an ultrasonic sensor embedded on the platform for detecting thickness of a drawstring passage of the garment, in accordance to which the microcontroller actuates a pair of motorized clippers integrated on lateral ends of the bar for acquiring a grip of ends of the passage, a spiral structure having an immediate and distal end, configured with the platform, a pair of telescopically operated links integrated on the platform, and attached with the distal end of the structure for providing a stable base to the spiral structure.
[0015] According to another embodiment of the present invention, the proposed device further of a motorized ball and socket joint is integrated in between the distal end and the rods providing a twisting movement to the structure, in a manner that the engaged end of the garment is wrapped around the structure to secure the garment on the structure, and a motorized roller coiled with a drawstring, arranged on the platform to rotate for unwrapping/wrapping the drawstring, a robotic arm is installed on the platform for acquiring a grip of loose end of the unwrapped drawstring for engaging the gripped end inside the passage of the garment, an RPM sensor embedded on the platform for detecting rotational speed of the spiral, a speaker installed on the platform for producing audio signals to notify the user to collect the garment from the spiral structure, and a battery is configured with the device for providing a continuous power supply to electronically powered components associated with the device
[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 drawstring insertion assistive device for garments.
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 drawstring insertion assistive device for garments that is capable of assisting a user in drawstring insertion in a garment, accordingly detects thickness of a drawstring passage of the garment in order to insert the drawstring in the garment without any hassle and damage to the garment. Additionally, the proposed device is also capable of cutting extra ends of the drawstring after successful insertion of required length of the drawstring in the garment, accordingly notify the user to collect the garment.
[0022] Referring to Figure 1, an isometric view of a drawstring insertion assistive device for garments is illustrated, comprises of a platform 101 having plurality of suction cups 102 are arranged underneath the platform 101, a microphone 103 integrated in the platform 101, an artificial intelligence-based imaging unit 104 installed on the platform 101, a horizontal bar 105 arranged on the platform 101 by means of a telescopically operated rod 106, a pair of motorized clippers 107 integrated on lateral ends of the bar 105, a spiral structure 108 configured with the platform 101, a pair of telescopically operated links 109 integrated on the platform 101 attached with the distal end of the structure 108, a motorized roller 110 arranged on the platform 101, a robotic arm 111 installed on the platform 101, a motorized cutter 112 arranged on the platform 101, and a speaker 113 installed on the platform 101.
[0023] The proposed invention includes a platform 101 developed to be positioned on a fixed surface. The platform 101 is arranged with plurality of suction cups 102 (ranging in between from 4 to 6 in numbers) are arranged underneath the platform 101 to adhere to the platform 101 for securing the platform 101 on the surface.
[0024] The suction cups 102, mentioned herein, create a negative air pressure against the surface for creating a vacuum inside the cups 102. The cups 102 further stick over the surface, thus, helping the platform 101 to affix on the surface.
[0025] Now, a microphone 103 integrated in the platform 101 enables a user to provide input voice commands for activating/deactivating the device. The microphone 103 turns the sound energy emitted by the user into electrical energy. The sound waves created by the user carry energy towards the microphone 103. Inside the microphone 103, a diaphragm, made of plastic, is present and moves back and forth when the sound wave hits the diaphragm. The coil attached to the diaphragm also moves in same way. The magnetic field produced by the permanent magnet cuts through the coil. As the coil moves, the electric current flows. The electric current from coil flows to an amplifier which convert the sound into electrical signal. The microcontroller linked to the microphone 103 recognize the voice and perform the operations according to the command given by the user regarding activating/deactivating the device.
[0026] Thereafter, an artificial intelligence-based imaging unit 104 is installed on the platform 101 and paired with a processor for capturing and processing multiple images in vicinity of the platform 101, respectively. The artificial intelligence-based imaging unit 104 comprises of a processor that is encrypted with an artificial intelligence protocol and a camera which upon actuation captures multiple images in vicinity of the platform 101 for determining dimensions of a g arm 111ent positioned in proximity to the platform 101.
[0027] The camera of the imaging unit 104 comprised of a lens and a digital camera sensor of the imaging unit 104, wherein the camera lens takes all the light rays rebounding around and utilizes the lenses to transmit them to a single point for creating a sharp image. When all of those light rays rebound back and meet together on the digital camera sensor, creates a digital image and the processor performs various operations like pre-processing, feature extraction and classification which are then transmitted to an inbuilt microcontroller (not shown in figure) for further processing.
[0028] The microcontroller, mentioned herein, is preferably an Arduino microcontroller. The Arduino microcontroller used herein controls the overall functionality of the components linked to it. The Arduino microcontroller is an open-source programming platform 101. The microcontroller processes the received signal from the imaging unit 104 in order to determine dimensions of a garment positioned in proximity to the platform 101, in which a drawstring is to be inserted.
[0029] Further, a horizontal bar 105 is arranged on the platform 101 by means of a telescopically operated rod 106 and that is actuated by the microcontroller to extend/retract for deploying the bar 105.
[0030] The rod 106 disclosed above is powered by a pneumatic unit (not shown in figure) includes an air compressor, air cylinders, air valves and piston which works in collaboration to aid in extension and retraction of the rod 106. The air valve allows entry/exit of compressed air from the compressor. Furthermore, the valve opens and the compressed air enters inside the cylinder thereby increasing the air pressure of the cylinder. The piston is connected to the rod 106 and due to the increase in the air pressure, the piston extends. For the retraction of the piston, air is released from the cylinder to the air compressor via the valve. Thus, providing the required extension/retraction of the rod 106 for deploying the bar 105.
[0031] Thereafter, the microcontroller activates a drawer arrangement integrated in the bar 105 for increasing/decreasing dimensions of the bar 105 as per the determined dimensions of the garment, thereby enabling a user to accommodate the garment on the bar 105.
[0032] The drawer arrangement consists of a motor, hollow compartment and multiple compartments that are connected with sliders. After actuating by the microcontroller, an electric current pass through the motor of the drawer mechanism and energized the motor. The energized motor further actuates the compartments which are initially at the stowed condition to move in a successive manner within the hollow compartment and extends length of the compartments. Simultaneously, each of the compartments having a fixed groove track, wherein upon actuation of the slider, the motor of the slider gets energized and provides a movement to the compartment to move in a linear direction on the groove track of the successive compartment as directed by the microcontroller and extends length of the bar 105.
[0033] Now, the microcontroller activates an ultrasonic sensor embedded on the platform 101 for detecting thickness of a drawstring passage of the garment. The ultrasonic sensor disclosed herein, consists of an emitter and a receiver that acts as a transducer. On activation of ultrasonic sensor by the microcontroller, the emitter emits ultrasonic sound waves towards drawstring passage of the garment. Further, the radiation strike to the drawstring passage of the garment and reflect back which are captured by the receiver. The signal is sent to the microcontroller. The microcontroller processes the received signal from the ultrasonic sensor and on the basis of time lapse in between the sent and received radiations, the microcontroller detects thickness of a drawstring passage of the garment.
[0034] Then, in accordance to the detected thickness of the drawstring passage of the garment, the microcontroller actuates a pair of motorized clippers 107 integrated on lateral ends of the bar 105 for acquiring a grip of ends of the passage. The motorized clippers 107 are powered by a DC (direct current) motor that is actuated by the microcontroller by providing required electric current to the motor. The motor comprises of a coil that converts the received electric current into mechanical force by generating magnetic field, thus the mechanical force provides the required power to the clippers 107 for gripping of the ends of the passage.
[0035] Further, a spiral structure 108 is configured with the platform 101, and the structure 108 having an immediate end and distal end. Now, the microcontroller directs the rod 106 to extend/retract for positioning of one of the gripped end in proximity to immediate end of the spiral structure 108, followed by engaging of the gripped end on the immediate end.
[0036] Moreover, a pair of telescopically operated links 109 are integrated on the platform 101. The links 109 are attached with the distal end of the structure 108 and are activated by the microcontroller to extend/retract in view of providing a stable base to the spiral structure 108. The links 109 are powered by the pneumatic unit and works similar to the working of the rod 106 as mentioned above.
[0037] Thereafter, the microcontroller actuates a motorized ball and socket joint integrated in between the distal end and the rods to provide a twisting movement to the structure 108, in such a manner that the engaged end of the garment is wrapped around the structure 108 in order to secure the garment on the structure 108.
[0038] The ball and socket joint provides a 360-degree rotation to the structure 108 for aiding the structure 108 to turn at a desired angle. The ball and socket joint is a coupling consisting of a ball joint securely locked within a socket joint, where the ball joint is able to move in a 360-dgree rotation within the socket thus, providing the required rotational motion to the structure 108. The ball and socket joint is powered by a DC (direct current) motor that is actuated by the microcontroller thus providing multidirectional movement to the structure 108, thereby secures the garment on the structure 108.
[0039] Now, the microcontroller activates a motorized roller 110 coiled with a drawstring, arranged on the platform 101 to rotate for unwrapping/wrapping the drawstring. The motorized roller 110 is integrated with a hub motor in its hub powered by a direct current (DC) motor that rotates the roller 110 for unwrapping the drawstring.
[0040] After unwrapping of the drawstring, the microcontroller activates a robotic arm 111 installed on the platform 101 for acquiring a grip over the loose end of the unwrapped drawstring in view of engaging the gripped end inside the passage of the garment.
[0041] The robotic arm 111 comprises, motor controllers, arm 111, end effector and sensors. All these parts are configured with the microcontroller. The elbow is at the middle section of the arm 111 that allows the upper part of the arm 111 to move the lower section independently. Lastly, the wrist is at the tip of the upper arm 111 and attached to the end effector thereby the end effector works as a hand for engaging the gripped end inside the passage of the garment.
[0042] Moreover, the microcontroller activates an RPM (revolution per minute) sensor embedded on the platform 101 for detecting rotational speed of the spiral. The RPM sensor converts mechanical motion into electric pulses with or without direct contact when positioned near the spiral structure 108. The resultant output signals are then fed to the microcontroller to detect rotational speed of the spiral structure 108. Then, based upon the detected speed of the structure 108, the microcontroller regulates actuation of the ball and socket joint to twist the structure 108 for inserting a required length of the drawstring in the passage.
[0043] Now, based upon successfully inserting the required length of the drawstring in the passage, the microcontroller activates a motorized cutter 112 arranged on the platform 101 to cut the extra ends of the drawstring, thereby assisting the user in insertion of the drawstring into the garment's drawstring passage.
[0044] The motorized cutter 112 is powered by a motor. The microcontroller transmits electric signal to the motor of the cutter 112 and the electromotive force induced by the currents flow into the inductive coil of the motor of the cutter 112 rotates the output shaft onto which cutter 112 is connected. Thus, rotation of the output shaft of the motor cutter 112, rotates the connected cutter 112 by which cutter 112 cuts the extra ends of the drawstring when comes in contact with the drawstrings.
[0045] Further, based upon successfully inserting the drawstring and cutting of the extra ends of the drawstring, the microcontroller activates a speaker 113 installed on the platform 101 in view of producing audio signals to notify the user to collect the garment from the spiral structure 108.
[0046] The speaker 113 works by taking the input signal from the microcontroller, it then processes and amplifies the received signal through a series of equipment in a specific order within the speaker 113, and then sends the output signal in form of audio notification through the speaker 113 for alerting the user to collect the garment from the spiral structure 108.
[0047] 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 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.
[0048] The present invention works best in the following manner, which includes the platform 101 configured with plurality of suction cups 102 adhere to the platform 101 for securing the platform 101 on the surface. Now, the microphone 103 enables a user to provide input voice commands for activating/deactivating the device, followed by the artificial intelligence-based imaging unit 104 determining dimensions of a garment positioned in proximity to the platform 101, in which a drawstring is to be inserted. Then, the telescopically operated rod 106 extend/retract for deploying the bar 105, followed by the drawer arrangement increasing/decreasing dimensions of the bar 105 as per the determined dimensions of the garment, for enabling a user to accommodate the garment on the bar 105. Thereafter, the ultrasonic sensor detecting thickness of a drawstring passage of the garment, in accordance to which the microcontroller actuates a pair of motorized clippers 107 for acquiring a grip of ends of the passage. Then, the rod 106 extend/retract for positioning one of the gripped end in proximity to immediate end of the spiral structure 108, followed by engaging of the gripped end on the immediate end. Further, the links 109 provides a stable base to the spiral structure 108, and the motorized ball and socket joint provides the twisting movement to the structure 108, in a manner that the engaged end of the garment is wrapped around the structure 108 to secure the garment on the structure 108. Now, the roller 110 rotate for unwrapping/wrapping the drawstring, followed by the robotic arm gripping of the loose end of the unwrapped drawstring for engaging the gripped end inside the passage of the garment, followed by RPM sensor detecting rotational speed of the spiral, accordingly the actuation of the ball and socket joint is regulated to twist the structure 108 for inserting a required length of the drawstring in the passage. Then, a motorized cutter 112 cut the extra ends of the drawstring, upon successfully inserting the required length of the drawstring in the passage, thereby assisting the user in insertion of the drawstring into the garment's drawstring passage, followed by the speaker 113 producing audio signals to notify the user to collect the garment from the spiral structure 108.
[0049] 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 drawstring insertion assistive device for garments, comprising:
i) a platform 101 developed to be positioned on a fixed surface, wherein plurality of suction cups 102 are arranged underneath said platform 101 to adhere to said platform 101 for securing said platform 101 on said surface;
ii) a microphone 103 integrated in said platform 101 for enabling a user to provide input voice commands for activating/deactivating said device, wherein an artificial intelligence-based imaging unit 104 is installed on said platform 101 and paired with a processor for capturing and processing multiple images in vicinity of said platform 101, respectively to determine dimensions of a garment positioned in proximity to said platform 101, in which a drawstring is to be inserted;
iii) a horizontal bar 105 arranged on said platform 101 by means of a telescopically operated rod 106 that is actuated by an inbuilt microcontroller to extend/retract for deploying said bar 105, wherein a drawer arrangement is integrated in said bar 105 for increasing/decreasing dimensions of said bar 105 as per said determined dimensions of said garment, for enabling a user to accommodate said garment on said bar 105;
iv) an ultrasonic sensor embedded on said platform 101 for detecting thickness of a drawstring passage of said garment, in accordance to which said microcontroller actuates a pair of motorized clippers 107 integrated on lateral ends of said bar 105 for acquiring a grip of ends of said passage;
v) a spiral structure 108 having an immediate and distal end, configured with said platform 101, wherein said microcontroller directs said rod 106 to extend/retract for positioning one of said gripped end in proximity to immediate end of said spiral structure 108, followed by engaging of said gripped end on said immediate end;
vi) a pair of telescopically operated links 109 integrated on said platform 101, and attached with said distal end of said structure 108 for providing a stable base to said spiral structure 108, wherein a motorized ball and socket joint is integrated in between said distal end and said rod 106 that is actuated by said microcontroller to provide a twisting movement to said structure 108, in a manner that said engaged end of said garment is wrapped around said structure 108 to secure said garment on said structure 108;
vii) a motorized roller 110 coiled with a drawstring, arranged on said platform 101 that is actuated by said microcontroller to rotate for unwrapping/wrapping said drawstring, wherein a robotic arm 111 is installed on said platform 101 for acquiring a grip of loose end of said unwrapped drawstring for engaging said gripped end inside said passage of said garment, followed by actuation of said motorized ball and socket joint to twist said structure 108 for inserting a required length of said drawstring in said passage; and
viii) a motorized cutter 112 arranged on said platform 101 that is actuated by said microcontroller to cut said extra ends of said drawstring, upon successfully inserting said required length of said drawstring in said passage, thereby assisting said user in insertion of said drawstring into said garment's drawstring passage.
2) The device as claimed in claim 1, wherein upon successfully inserting said drawstring, said microcontroller actuates a speaker 113 installed on said platform 101 for producing audio signals to notify said user to collect said garment from said spiral structure 108.
3) The device as claimed in claim 1, wherein an RPM (revolution per minute) sensor is embedded on said platform 101 for detecting rotational speed of said spiral, based on which said microcontroller regulates actuation of said ball and socket joint.
4) The device as claimed in claim 1, wherein a battery is configured with said device for providing a continuous power supply to electronically powered components associated with said device.
Documents
Name | Date |
---|---|
202441085637-COMPLETE SPECIFICATION [07-11-2024(online)].pdf | 07/11/2024 |
202441085637-DECLARATION OF INVENTORSHIP (FORM 5) [07-11-2024(online)].pdf | 07/11/2024 |
202441085637-DRAWINGS [07-11-2024(online)].pdf | 07/11/2024 |
202441085637-EDUCATIONAL INSTITUTION(S) [07-11-2024(online)].pdf | 07/11/2024 |
202441085637-EVIDENCE FOR REGISTRATION UNDER SSI [07-11-2024(online)].pdf | 07/11/2024 |
202441085637-EVIDENCE FOR REGISTRATION UNDER SSI(FORM-28) [07-11-2024(online)].pdf | 07/11/2024 |
202441085637-FIGURE OF ABSTRACT [07-11-2024(online)].pdf | 07/11/2024 |
202441085637-FORM 1 [07-11-2024(online)].pdf | 07/11/2024 |
202441085637-FORM FOR SMALL ENTITY(FORM-28) [07-11-2024(online)].pdf | 07/11/2024 |
202441085637-FORM-9 [07-11-2024(online)].pdf | 07/11/2024 |
202441085637-POWER OF AUTHORITY [07-11-2024(online)].pdf | 07/11/2024 |
202441085637-PROOF OF RIGHT [07-11-2024(online)].pdf | 07/11/2024 |
202441085637-REQUEST FOR EARLY PUBLICATION(FORM-9) [07-11-2024(online)].pdf | 07/11/2024 |
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