A SMART ADJUSTABLE URINARY BASIN SYSTEM

Abstract

ABSTRACT A SMART ADJUSTABLE URINARY BASIN SYSTEM The present invention relates to an advanced automated sanitary system, specifically an adjustable urinary basin mechanism designed to improve user convenience, hygiene, and accessibility. The system integrated the urinary basin that connect to the moving rod and the moving rod connected to the servo motor if the servo motor rotate the rotor also rotate in the teeth molded vertical steel rod in the ground . The servomotor is operatively connected to a horizontal lever, which translates rotational motion into precise vertical movement of the urinary basin. The touch sensor enables contactless adjustment of the basin's height, thereby enhancing hygiene by reducing physical contact. A wide circular base supports the steel rod, ensuring stability and preventing tipping during operation. This invention addresses the limitations of traditional fixed-height basins by offering an automated, user-friendly adjustment mechanism, making it particularly suitable for public and healthcare facilities where enhanced accessibility and cleanliness are essential. Fig 1

Specification

Description:FORM 2

THE PATENTS ACT, 1970
(39 of 1970)
&
THE PATENTS RULES, 2003

COMPLETE SPECIFICATION
(See Section 10; rule 13)

TITLE OF THE INVENTION
A SMART ADJUSTABLE URINARY BASIN SYSTEM


APPLICANT
K.RAMAKRISHNAN COLLEGE OF ENGINEERING
NH-45, Samayapuram,
Trichy, Tamilnadu, India- 621112


The following specification particularly describes the invention and the manner in which it is to be performed.
A SMART ADJUSTABLE URINARY BASIN SYSTEM
TECHNICAL FIELD
The technical field of the present invention pertains to automated sanitary systems, specifically to an adjustable urinary basin mechanism that utilizes a servo motor and touch sensor to facilitate vertical movement of the urinary basin via a steel rod connected to the moving rod attached with the rotor connected with servo motor. This invention aims to enhance user convenience and hygiene in restroom environments by providing an automated solution for adjusting the height of the urinary basin based on user interaction.
BACKGROUND
In recent years, there has been a growing demand for sanitary systems that offer enhanced convenience, hygiene, and accessibility, particularly in public and healthcare facilities. Traditional urinary basins are typically fixed at a standard height, which may not be suitable for all users, leading to discomfort and hygiene concerns. To address these issues, automated systems that can adjust the height of urinary basins based on user interaction have become increasingly desirable.
The present invention introduces an innovative solution that integrates a servo motor and touch sensor to control the vertical movement of the urinary basin. By utilizing a steel rod mechanism, the system provides smooth and reliable adjustment of the basin's height. It is used for short person and height person to use urinary basin.
The servo motor ensures perfect control, while the touch sensor allows users to easily adjust the basin to their preferred height without the need for physical contact, there by promoting better hygiene.
The automated urinary basin system is useful to maintain the clean environment and helpful for user to use the basin and control the height of the basin with the help of servo motor.
This automated system not only improves user comfort but also enhances overall cleanliness and functionality of restroom facilities, making it a valuable addition to modern sanitary environments.
OBJECT OF THE INVENTION
The Primary object of the present invention is to provide a perfect solution for an automated adjustable urinary basin move up and down designed to enhance user convenience, hygiene, and accessibility in restroom environments.
Another objective of the present invention is to provide the invention specifically targets the integration of a servo motor to precisely control the vertical movement of the urinary basin. Additionally, it incorporates a touch sensor that allows users to effortlessly adjust the basin's height without physical contact, thereby promoting superior hygiene.
Yet another object of the present invention is to provide the system utilizes a steel rod mechanism to ensure smooth and durable operation, accommodating users of varying heights and needs, and reducing discomfort associated with traditional fixed-height urinary basins. Ultimately, this invention aims to significantly improve the functionality and cleanliness of sanitary facilities, particularly in public and healthcare settings, by offering an automated and user-friendly adjustment mechanism.
SUMMARY
The present invention pertains to an advanced automated sanitary system, specifically designed as an adjustable urinary basin to significantly improve user convenience, hygiene, and accessibility. This innovative system employs a servo motor to achieve precise control over the vertical movement of the urinary basin, allowing for accurate and reliable height adjustments. Coupled with this, a touch sensor is incorporated to facilitate effortless and contactless adjustment of the basin's height, thus enhancing overall hygiene by minimizing physical interaction.
The system's design incorporates a steel rod mechanism that ensures smooth, robust, and durable operation of the height adjustment functionality. This mechanism supports the reliable movement of the urinary basin, addressing the limitations of traditional fixed-height basins that often fail to accommodate users of varying heights and needs, thereby causing discomfort.
By integrating these components, the invention offers a user-centric solution that enhances comfort and accessibility, particularly in environments where public and healthcare facility standards are paramount. The system not only improves functionality by allowing for easy customization of basin height but also contributes to better hygiene and cleanliness by reducing the need for physical contact. Overall, this invention represents a significant advancement in automated sanitary solutions, making it a valuable addition to modern restroom facilities.
This system for an automated adjustable urinary basin system, comprising a vertical steel rod configured as a central support structure a servomotor encased in a circular assembly located near the top of the steel rod, the servomotor being operable to provide rotational force for the movement of the urinary basin;
a touch sensor positioned to detect user input for height adjustment of the urinary basin, the touch sensor being operatively connected to the servomotor to control the vertical movement of the urinary basin.
The base support structure at the bottom of the steel rod, designed to provide stability and support for the entire system the urinary basin is connected to the moving rod and the moving rod is connected to the rotor with teeth and the rotor rotates up and down in the teeth it moulded in the vertical rod so the help of teeth in the rod the rotor can be rotate.
BRIEF DESCRIPTION OF THE DRAWINGS
The other objects, features and advantages will occur to those skilled in the art from the following description of the preferred embodiment and the accompanying drawings in which:
Fig 1 illustrates the isometric view of the smart adjustable urinary basin system according to an embodiment of the present invention.
Fig 2 illustrates the side view of the smart adjustable urinary basin system, according to an embodiment of the present invention.
List of reference numerals used in detailed description and drawings:
1-Flexible cleaning pipe, 2-uranial basin, 3- servo motor control & 4-standing rod
DETAILED DESCRIPTION
The present invention features a sophisticated automated system designed for adjusting the height of a urinary basin, focusing on enhancing user convenience, hygiene, and accessibility. Central to this system is a robust steel rod, which acts as the primary support structure. Positioned vertically, the steel rod ensures stability and durability, supporting the entire assembly while withstanding mechanical stress and wear over time. This structural element is essential for maintaining control and stability during the movement of the urinary basin.
The system integrated the urinary basin that connect to the moving rod and the moving rod connected to the servo motor if the servo motor rotate the rotor also rotate in the teeth molded vertical steel rod in the ground
At the top of the steel rod is a red circular component that houses the servomotor. This motor is critical for generating the rotational force necessary to adjust the urinary basin's position. It receives signals from the control system, which is operated by a touch sensor. The servomotor's precision in controlling angular position, speed, and torque makes it ideal for applications requiring fine adjustments, ensuring that the basin's movement is smooth and controlled.
The touch sensor is strategically placed to allow easy user interaction. When activated, the sensor sends an electrical signal to the servomotor, directing it to either raise or lower the urinary basin. This touch-based control system provides a hands-free solution that promotes better hygiene and reduces the need for manual intervention, which is particularly advantageous in clinical settings. Attached to the servomotor is a red horizontal lever with a square end. This lever converts the servomotor's rotational motion into the necessary linear or angular movement to adjust the urinary basin's height. The design and positioning of the lever are crucial for determining the range of motion and the force applied, facilitating precise adjustments of the basin's height.
The entire system is anchored by a wide circular base at the bottom of the steel rod. This base ensures the system remains upright and stable during operation. Its wide diameter evenly distributes the weight of the components and any additional load, such as a filled urinary basin, preventing tipping and ensuring reliable performance.
Overall, the system automates the height adjustment of a urinary basin, providing a user-friendly and hygienic solution for settings where manual adjustments may be impractical. By integrating a steel rod for structural support, a servomotor for precise control, and a touch sensor for ease of use, the invention offers a highly functional and efficient solution for modern sanitary environments.
The main vertical component is a cylindrical steel rod, which acts as a support structure for the system. It's likely designed to be rigid and sturdy, ensuring stability while allowing for the movement of other parts attached to it.
The red circular assembly at the top of the steel rod might house a servomotor. The purpose of the motor could be to provide rotational motion to the attached arm. Given that you mentioned this is used to move a urinary basin, the motor's function is to adjust the basin's height or angle based on user input.
The system would include a touch sensor that detects when an adjustment is needed, such as raising or lowering the basin. The input signal from the touch sensor would trigger the servomotor to adjust the position accordingly.
This red lever extends horizontally from the motor assembly. The square end could be a connector or actuator for lifting or tilting the urinary basin. When the motor rotates, this lever translates the motion into a controlled adjustment, whether that involves raising or lowering the basin.
The steel rod is anchored by a sturdy base. This circular structure ensures that the system remains upright and stable while in operation.
, Claims:CLAIMS
We Claim,
1. A system for an automated adjustable urinary basin system, comprising:
a vertical steel rod configured as a central support structure a servomotor encased in a circular assembly located near the top of the steel rod, the servomotor being operable to provide rotational force for the movement of the urinary basin;
a touch sensor positioned to detect user input for height adjustment of the urinary basin, the touch sensor being operatively connected to the servomotor to control the vertical movement of the urinary basin; a horizontal lever attached to the servomotor, the lever converting rotational motion of the servomotor into linear or angular movement to adjust the height of the urinary basin; and,
a base support structure at the bottom of the steel rod, designed to provide stability and support for the entire system.
2. The smart adjustable urinary basin system as claimed in claim 1, wherein the touch sensor allows for contactless adjustment of the urinary basin's height, thereby enhancing hygiene by reducing physical contact.
3. The smart adjustable urinary basin system as claimed in claim 2, wherein the urinary basin is connected to the moving rod and the moving rod is connected to the rotor with teeth and the rotor rotates up and down in the teeth it moulded in the vertical rod so the help of teeth in the rod the rotor can be rotate.
4. The smart adjustable urinary basin system as claimed in claim 1, wherein the rotor can rotate with the help of servomotor and the servo motor rotate after the sensor activation and movement of rotor to up and down and the rotor 10 teeth and the teeth in the vertical stell rod as 50.
5. The smart adjustable urinary basin system as claimed in claim 2, wherein the basin attached with the moving rod and it connected to the rotor in the vertical teeth, if the sensor activated the rotor takes rotate with the help of servo motor rotation.
6. The smart adjustable urinary basin system as claimed in claim 1, the steel rod is made from a durable material capable of withstanding mechanical stress and wear over extended use, ensuring stability and control during the movement of the urinary basin.
7. The smart adjustable urinary basin system as claimed in claim 1, the servomotor provides precise control over angular position, speed, and torque, ensuring smooth and controlled vertical movement of the urinary basin.
8. The smart adjustable urinary basin system as claimed in claim 1, the horizontal lever is configured with a square end to act as an actuator or connection point for adjusting the urinary basin's height based on the rotational motion of the servomotor.
9. The smart adjustable urinary basin system as claimed in claim 1, the base support is a wide circular structure that evenly distributes the system's eight and prevents tipping during operation.
10. The smart adjustable urinary basin system as claimed in claim 1, the touch sensor is positioned at a user-accessible location to facilitate easy interaction and control of the height adjustment of the urinary basin.

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