NRF BASED REMOTE SOLUTION FOR HYDRAULIC OIL CONDITION MONITORING OF HYDRAULIC AUTOMATIC BALE EJECTION WRAPPER MACHINE WITHIN INDUSTRIAL WRAPPING CHAMBER

Abstract

A nrf based remote system for hydraulic oil condition monitoring of hydraulic automatic bale ejection wrapper machine within industrial wrapping chamber NBRS_HOCMTMote (1a), which is outfitted with an Atmega2560 Processor Board (7g), nRF Module (2b), NAS Sensor (6f), Liquid Velocity Sensor (5e), Liquid Temperature Sensor (4d), and power supply (3c), it uses sensors to keep an eye on the temperature, fluid velocity, and hydraulic oil condition in Hydraulic Automatic Bale Ejection Wrapper Machines, giving real-time data for thorough and proactive condition monitoring within Industrial Wrapping Chambers a key component of this innovation is the NBRS_HOCMRMote, which is outfitted with an Atmega2560 Processor Board, nRF Module, GSM Modem, keypad, and Power Supply, it allows wireless communication via a GSM modem and transmits real-time data from Hydraulic Automatic Bale Ejection Wrapper Machines to a centralized server or cloud platform, enabling remote monitoring through a customized web dashboard.

Specification

Description:FIELD OF THE INVENTION
This invention relates to nrf based remote solution for hydraulic oil condition monitoring of hydraulic automatic bale ejection wrapper machine within industrial wrapping chamber.
BACKGROUND OF THE INVENTION
This state-of-the-art solution integrates Internet of Things (IoT) capabilities to enable real-time condition monitoring of Hydraulic Automatic Bale Ejection Wrapper Machines within Industrial Wrapping Chambers. The system makes use of a wide range of sensors to collect vital data, such as temperature, fluid dynamics, and hydraulic oil condition. Wireless communication modules are used to transmit this information to a centralized server or cloud platform, allowing remote access through a customized web dashboard. Operators can monitor machine status, anticipate possible problems, and maximize performance from any location with internet connectivity. The seamless integration of hardware components and internet connectivity increases operational efficiency and reduces downtime.
The goal of this creative approach is to address the difficulty of guaranteeing effective and instantaneous monitoring of Hydraulic Automatic Bale Ejection Wrapper Machines in Industrial Wrapping Chambers. The problem is caused by the shortcomings of traditional monitoring techniques, which frequently fall short of providing timely insights into important variables including temperature, fluid dynamics, and hydraulic oil condition.
KR20120130169A: The present invention provides a packaging machine for wrapping a round of crops, comprising: a frame; A paving table which can pivot between the paving position and the dummy ejecting position; A packaging device 6; And an unloading device, which comprises an unloading arm that can move between the receiving position and the discharge position, and a ground support that can move between the raised position and the support position. And the baler includes a first actuator for moving the unloading arm from the receiving position to the discharge position, wherein the baler supports the ground support in an elevated position. And a second actuator adapted to move the packing table at least partially from the packing position to the dummy discharge position while moving to the position.
RESEARCH GAP: Remote Solution nRF based Hydraulic Oil Condition Monitoring of Hydraulic Automatic Bale Ejection Wrapper Machine is the novelty of the system.
US10058038B2: A crop feeding mechanism for a harvester includes one or a plurality of screws or augers positioned in a hollow chamber of defined by the interior surface of an elongated frame, whereby the interior surface is tapered with decreasing volume in it rear portion. The one or a plurality of screws or augers are affixed upon a rotating axis and, as crop material is fed into the chamber, the one or a plurality of screws or augers conveys crop material rearward toward the tapered end and compact the crop materials so that the compacted crop material is extruded out of an opening at the rear end at a rate and temperature and in a form sufficient to allow a net wrap mechanism positioned at or near the opening to wrap the crop into a bale.
RESEARCH GAP: Remote Solution nRF based Hydraulic Oil Condition Monitoring of Hydraulic Automatic Bale Ejection Wrapper Machine is the novelty of the system.
SUMMARY OF THE INVENTION
This summary is provided to introduce a selection of concepts, in a simplified format, that are further described in the detailed description of the invention.
This summary is neither intended to identify key or essential inventive concepts of the invention and nor is it intended for determining the scope of the invention.
To further clarify advantages and features of the present invention, a more particular description of the invention will be rendered by reference to specific embodiments thereof, which is illustrated in the appended drawings. It is appreciated that these drawings depict only typical embodiments of the invention and are therefore not to be considered limiting of its scope. The invention will be described and explained with additional specificity and detail with the accompanying drawings.
The monitoring procedure is started by a dual-device system called NBRS_HOCMTMote and NBRS_HOCMRMote. The NBRS_HOCMTMote measures the impurity levels in hydraulic oil in real-time by gathering data from the NAS Sensor, which is outfitted with an Atmega2560 Processor Board, nRF Module, NAS Sensor, Liquid Velocity Sensor, Liquid Temperature Sensor, and a power supply. Important information about fluid dynamics and temperature conditions inside the hydraulic system is provided by the liquid temperature and velocity sensors. These sensor values are processed by the Atmega2560 Processor, while wireless communication for data transmission is enabled by the nRF Module.
BRIEF DESCRIPTION OF THE DRAWINGS
The illustrated embodiments of the subject matter will be understood by reference to the drawings, wherein like parts are designated by like numerals throughout. The following description is intended only by way of example, and simply illustrates certain selected embodiments of devices, systems, and methods that are consistent with the subject matter as claimed herein, wherein:
FIGURE 1: SYSTEM ARCHITECTURE
The figures depict embodiments of the present subject matter for the purposes of illustration only. A person skilled in the art will easily recognize from the following description that alternative embodiments of the structures and methods illustrated herein may be employed without departing from the principles of the disclosure described herein.
DETAILED DESCRIPTION OF THE INVENTION
The detailed description of various exemplary embodiments of the disclosure is described herein with reference to the accompanying drawings. It should be noted that the embodiments are described herein in such details as to clearly communicate the disclosure. However, the amount of details provided herein is not intended to limit the anticipated variations of embodiments; on the contrary, the intention is to cover all modifications, equivalents, and alternatives falling within the scope of the present disclosure as defined by the appended claims.
It is also to be understood that various arrangements may be devised that, although not explicitly described or shown herein, embody the principles of the present disclosure. Moreover, all statements herein reciting principles, aspects, and embodiments of the present disclosure, as well as specific examples, are intended to encompass equivalents thereof.
The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of example embodiments. As used herein, the singular forms "a"," "an" and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise. It will be further understood that the terms "comprises," "comprising," "includes" and/or "including," when used herein, specify the presence of stated features, integers, steps, operations, elements and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components and/or groups thereof.
It should also be noted that in some alternative implementations, the functions/acts noted may occur out of the order noted in the figures. For example, two figures shown in succession may, in fact, be executed concurrently or may sometimes be executed in the reverse order, depending upon the functionality/acts involved.
In addition, the descriptions of "first", "second", "third", and the like in the present invention are used for the purpose of description only, and are not to be construed as indicating or implying their relative importance or implicitly indicating the number of technical features indicated. Thus, features defining "first" and "second" may include at least one of the features, either explicitly or implicitly.
Unless otherwise defined, all terms (including technical and scientific terms) used herein have the same meaning as commonly understood by one of ordinary skill in the art to which example embodiments belong. It will be further understood that terms, e.g., those defined in commonly used dictionaries, should be interpreted as having a meaning that is consistent with their meaning in the context of the relevant art and will not be interpreted in an idealized or overly formal sense unless expressly so defined herein.
The monitoring procedure is started by a dual-device system called NBRS_HOCMTMote and NBRS_HOCMRMote. The NBRS_HOCMTMote measures the impurity levels in hydraulic oil in real-time by gathering data from the NAS Sensor, which is outfitted with an Atmega2560 Processor Board, nRF Module, NAS Sensor, Liquid Velocity Sensor, Liquid Temperature Sensor, and a power supply. Important information about fluid dynamics and temperature conditions inside the hydraulic system is provided by the liquid temperature and velocity sensors. These sensor values are processed by the Atmega2560 Processor, while wireless communication for data transmission is enabled by the nRF Module.
On the other hand, the NBRS_HOCMRMote concentrates on communication by using an Atmega2560 Processor Board, nRF Module, GSM Modem, and power supply. This gadget makes it possible for gathered data to be transmitted via the GSM Modem to a central server or cloud platform, guaranteeing connectivity in places lacking Wi-Fi and increasing the flexibility and range of the monitoring system. Prior to transmission, the Atmega2560 Processor helps with data processing and formatting. The operator may view and track the condition of the Hydraulic Automatic Bale Ejection Wrapper Machine through the customized online dashboard. Through internet connectivity, the operator can obtain real-time data that facilitates informed decision-making, issue prediction, and industrial machinery performance enhancement.
BEST METHOD OF WORKING
A crucial element of this innovation is the NBRS_HOCMTMote, which is outfitted with an Atmega2560 Processor Board, nRF Module, NAS Sensor, Liquid Velocity Sensor, Liquid Temperature Sensor, and power supply. It uses sensors to keep an eye on the temperature, fluid velocity, and hydraulic oil condition in Hydraulic Automatic Bale Ejection Wrapper Machines, giving real-time data for thorough and proactive condition monitoring within Industrial Wrapping Chambers.
A key component of this innovation is the NBRS_HOCMRMote, which is outfitted with an Atmega2560 Processor Board, nRF Module, GSM Modem, keypad, and Power Supply. It allows wireless communication via a GSM modem and transmits real-time data from Hydraulic Automatic Bale Ejection Wrapper Machines to a centralized server or cloud platform, enabling remote monitoring through a customized web dashboard.
The NBRS_HOCMTMote and NBRS_HOCMRMote are integrated with the Atmega2560 Processor Board, which serves as the central processing unit for gathering, evaluating, and organizing sensor data from motes. This guarantees smooth operation and efficient communication between Hydraulic Automatic Bale Ejection Wrapper Machines in Industrial Wrapping Chambers.
The nRF Module includes NBRS_HOCMTMote and NBRS_HOCMRMote, which are essential to this innovation. These enable smooth wireless communication between devices and the transmission of real-time data, supporting the use of a customized web dashboard for remote monitoring of Hydraulic Automatic Bale Ejection Wrapper Machines within Industrial Wrapping Chambers.
By precisely measuring contaminants in hydraulic oil and supplying key data for real-time condition monitoring of Hydraulic Automatic Bale Ejection Wrapper Machines within Industrial Wrapping Chambers, the NAS Sensor, which is integrated with NBRS_HOCMTMote, plays a crucial role in this invention.
The Liquid Velocity Sensor is integrated with the NBRS_HOCMTMote, which is crucial to this innovation. By measuring fluid dynamics within Hydraulic Automatic Bale Ejection Wrapper Machines, it contributes to real-time condition monitoring and ensures thorough insights into the industrial equipment's operational state.
This innovation relies heavily on the Liquid Temperature Sensor, which is integrated with NBRS_HOCMTMote. It provides vital temperature data for the Mote to monitor Hydraulic Automatic Bale Ejection Wrapper Machines in real-time, guaranteeing ideal operating conditions within Industrial Wrapping Chambers.
To provide wireless connectivity for the smooth transfer of real-time data from Hydraulic Automatic Bale Ejection Wrapper Machines to a centralized server or cloud platform, the GSM Modem is linked with NBRS_HOCMRMote. This allows for remote monitoring via a customized online interface.
The Power Supply plugs into both the NBRS_HOCMTMote and the NBRS_HOCMRMote to supply the electrical energy required to maintain the continuous operation. This guarantees the dependable operation of the entire condition monitoring system for the Industrial Wrapping Chambers' Hydraulic Automatic Bale Ejection Wrapper Machines.
ADVANTAGES OF THE INVENTION
1. The key element of this creative solution is the NBRS_HOCMTMote, which uses sensors to keep an eye on the temperature, fluid velocity, and hydraulic oil condition in hydraulic automatic bale ejection wrapper machines. For thorough and proactive condition monitoring inside industrial wrapping chambers, this gadget offers real-time data.
2. This innovation relies heavily on the NBRS_HOCMRMote, which makes wireless communication via a GSM modem possible. With the use of this technology, Hydraulic Automatic Bale Ejection Wrapper Machines can transmit real-time data to a cloud platform or centralized server for remote monitoring via a customized online interface.
3. The central processing unit of this invention is the Atmega2560 Processor Board, which is essential to the gathering, processing, and organizing of sensor data from the NBRS_HOCMTMote and NBRS_HOCMRMote. This guarantees smooth communication and efficient monitoring of the Industrial Wrapping Chambers' Hydraulic Automatic Bale Ejection Wrapper Machines.
4. This innovation's key element, the nRF Module, enables smooth wireless communication between devices. Through a customized online dashboard, it facilitates the remote monitoring of Hydraulic Automatic Bale Ejection Wrapper Machines within Industrial Wrapping Chambers by enabling the transmission of real-time data from NBRS_HOCMTMote and NBRS_HOCMRMote.
5. The NAS Sensor, which precisely measures contaminants in hydraulic oil, plays a pivotal role in this breakthrough. Using the NBRS_HOCMTMote, this sensor offers vital information for the real-time condition monitoring of hydraulic automatic bale ejection wrapper machines located within industrial wrapping chambers.
6. This innovation's real-time condition monitoring relies heavily on the Liquid Velocity Sensor. Through the use of the NBRS_HOCMTMote, it gauges the fluid dynamics inside Hydraulic Automatic Bale Ejection Wrapper Machines, providing thorough insights into the condition of the industrial machinery.
7. The Liquid Temperature Sensor is a key component of this invention since it gives the NBRS_HOCMTMote the temperature information it needs to monitor Hydraulic Automatic Bale Ejection Wrapper Machines in real time. This guarantees the best possible working conditions in the industrial wrapping chambers.
8. The NBRS_HOCMRMote's ability to establish wireless communication and transmit real-time data from Hydraulic Automatic Bale Ejection Wrapper Machines to a centralized server or cloud platform is made possible by the GSM Modem, which is essential to this breakthrough. It makes remote monitoring easier with a customized web dashboard.
, Claims:1. A nrf based remote system for hydraulic oil condition monitoring of hydraulic automatic bale ejection wrapper machine within industrial wrapping chamber NBRS_HOCMTMote (1a), which is outfitted with an Atmega2560 Processor Board (7g), nRF Module (2b), NAS Sensor (6f), Liquid Velocity Sensor (5e), Liquid Temperature Sensor (4d), and power supply (3c), it uses sensors to keep an eye on the temperature, fluid velocity, and hydraulic oil condition in Hydraulic Automatic Bale Ejection Wrapper Machines, giving real-time data for thorough and proactive condition monitoring within Industrial Wrapping Chambers.
2. The system as claimed in claim 1, wherein a key component of this innovation is the NBRS_HOCMRMote, which is outfitted with an Atmega2560 Processor Board, nRF Module, GSM Modem, keypad, and Power Supply, it allows wireless communication via a GSM modem and transmits real-time data from Hydraulic Automatic Bale Ejection Wrapper Machines to a centralized server or cloud platform, enabling remote monitoring through a customized web dashboard.
3. The system as claimed in claim 1, wherein the NBRS_HOCMTMote and NBRS_HOCMRMote are integrated with the Atmega2560 Processor Board, which serves as the central processing unit for gathering, evaluating, and organizing sensor data from motes, this guarantees smooth operation and efficient communication between Hydraulic Automatic Bale Ejection Wrapper Machines in Industrial Wrapping Chambers.
4. The system as claimed in claim 1, wherein the nRF Module includes NBRS_HOCMTMote and NBRS_HOCMRMote, which are essential to this innovation, these enable smooth wireless communication between devices and the transmission of real-time data, supporting the use of a customized web dashboard for remote monitoring of Hydraulic Automatic Bale Ejection Wrapper Machines within Industrial Wrapping Chambers.
5. The system as claimed in claim 1, wherein by precisely measuring contaminants in hydraulic oil and supplying key data for real-time condition monitoring of Hydraulic Automatic Bale Ejection Wrapper Machines within Industrial Wrapping Chambers, the NAS Sensor, which is integrated with NBRS_HOCMTMote, plays a crucial role in this invention.
6. The system as claimed in claim 1, wherein the Liquid Velocity Sensor is integrated with the NBRS_HOCMTMote, which is crucial to this innovation, by measuring fluid dynamics within Hydraulic Automatic Bale Ejection Wrapper Machines, it contributes to real-time condition monitoring and ensures thorough insights into the industrial equipment's operational state.
7. The system as claimed in claim 1, wherein this innovation relies heavily on the Liquid Temperature Sensor, which is integrated with NBRS_HOCMTMote, it provides vital temperature data for the Mote to monitor Hydraulic Automatic Bale Ejection Wrapper Machines in real-time, guaranteeing ideal operating conditions within Industrial Wrapping Chambers.
8. The system as claimed in claim 1, wherein to provide wireless connectivity for the smooth transfer of real-time data from Hydraulic Automatic Bale Ejection Wrapper Machines to a centralized server or cloud platform, the GSM Modem is linked with NBRS_HOCMRMote. This allows for remote monitoring via a customized online interface.
9. The system as claimed in claim 1, wherein the Power Supply plugs into both the NBRS_HOCMTMote and the NBRS_HOCMRMote to supply the electrical energy required to maintain the continuous operation, this guarantees the dependable operation of the entire condition monitoring system for the Industrial Wrapping Chambers' Hydraulic Automatic Bale Ejection Wrapper Machines.

Documents