Methods and Systems for Machine-Related Information Delivery
Embodiments of the present invention comprise methods and systems for training, maintenance, trouble-shooting and repair of machinery and equipment.
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This application claims the benefit of U.S. Provisional Patent Application No. 60/750,471, entitled “Intellischematics,” filed on Dec. 16, 2005 by Brad E. Jensen and Shane W. Lawrence.
FIELD OF THE INVENTIONEmbodiments of the present invention comprise methods and systems for delivery of and access to information for the training, maintenance, trouble-shooting, repair and other operations related to machinery and equipment.
BACKGROUNDThere is a growing need in industry to improve reliability, training, trouble-shooting, component identification, safety and maintenance for the vast array of manufacturing processes, equipment and machinery needed in today's industrial and modernized world. There is a growing need for skilled employees in these areas as the baby boomer generation retires and replacements having the necessary skills are limited. In recent years, microprocessor technology has allowed the integration of programming logic into various industries, including the fluid-power industry, so that today a computer can be programmed to completely automate the fluid-power and timing functions of a piece of equipment. However, this additional complexity has added to the need for better training methods for those who service or repair these complex pieces of machinery and equipment.
As these machines have developed, schematics were created to keep track of the machine components and functionality. Schematics are used not only to describe how the machine is assembled but also how the different components function together. Schematics may be used in every industry and for every type of machine. Schematic drawings make it possible to show circuit functions when using components from different manufacturers. A 4-way valve or other component from one supplier may bear little physical resemblance to one from a different supplier. Using actual cutaway views of valves to show how a machine operates may be fine for one circuit using a single supplier's valves. However, another machine with different parts may have a completely different appearance. Troubleshooting machines with parts from different manufacturers can require special training and knowledge.
Using schematic symbols requires learning only one set of information for any component. Schematic symbols also may provide more information than a picture of the part. For example, it difficulties impossible to tell which position a 4-way valve is in by looking at a pictorial representation. On the other hand, a 4-way valve symbol and its position on the schematic makes all features immediately clear. Another advantage is that by using schematic symbols and drawings that are in accordance with the International Standards Organization (ISO) format, the drawing can be read by persons from different countries. Directions, notes or material lists may be unreadable because of language differences, but anyone trained in schematic symbols can follow and understand the circuit function. Even though schematics and their symbols are universal in nature, a high percentage of the work force does not know how to read a schematic or translate the schematic symbol to the actual part of the machine to which it refers. This results in billions of dollars of wasted downtime.
SUMMARYSome embodiments of the present invention comprise methods and systems for providing integrated tools for machine-related information exchange. In some embodiments, machine-related schematics may be integrated with other information such as, digital photos, video, animations, databases and other media comprising machine-related information.
The foregoing and other objectives, features, and advantages of the invention will be more readily understood upon consideration of the following detailed description of the invention taken in conjunction with the accompanying drawings.
Embodiments of the present invention will be best understood by reference to the drawings, wherein like parts are designated by like numerals throughout. The figures listed above are expressly incorporated as part of this detailed description.
It will be readily understood that the components of the present invention, as generally described and illustrated in the figures herein, could be arranged and designed in a wide variety of different configurations. Thus, the following more detailed description of the embodiments of the methods and systems of the present invention is not intended to limit the scope of the invention but it is merely representative of the presently preferred embodiments of the invention.
Elements of embodiments of the present invention may be embodied in hardware, firmware and/or software. While exemplary embodiments revealed herein may only describe one of these forms, it is to be understood that one skilled in the art would be able to effectuate these elements in any of these forms while resting within the scope of the present invention.
Embodiments of the present invention may relate to machines comprising mechanical, electrical, electronic, hydraulic, pneumatic and other systems. A fluid-power machine may comprise any or all of these systems.
Some embodiments of the present invention, described with reference to
The architecture of an exemplary computer system 10 may be seen with reference to
Some systems may also comprise other storage devices, such as a floppy-disk drive, CD-ROM drive 25, DVD drive or similar devices. Input devices such as a keyboard 16 and a pointing device 17 may also be connected to a bus 22 for communication with a CPU 20. System 10 may also comprise a display interface 29 for connection with display 14 thereby enabling input through a GUI 28.
In some embodiments of the present invention, a computing device capable of providing the functions of these embodiments may be integrated into a machine for which it provides information. In some of these embodiments, the integrated computing device may perform other machine functions and may be a primary machine component that functions secondarily as a machine information access tool.
Some embodiments of the present invention may relate to a machine event. A machine event may comprise movement of a machine component, an electrical change in a machine component, a hydraulic change in a machine component or some other action related to a machine component. Some exemplary machine events may be pressurization of a hydraulic circuit, opening a valve, or applying voltage to an electrical circuit. In some embodiments, a machine event may comprise multiple machine actions. For example, a machine event may be extension of a robotic arm, which may involve multiple hydraulic, electrical and mechanical processes. In some embodiments, a machine event may also be defined by the controls used to initiate or control the event. For example, an event may comprise the process that occurs when a specific button is pressed or a specific valve is opened. In some embodiments, a machine event may comprise a component failure. In some embodiments, a machine event may be defined by one or more sensor outputs or diagnostic results.
A typical fluid-power system may include instruments such as pressure switches, gauges, flow meters, sensors, transducers and other electrical components which may be used to help monitor the performance of the system. Many of the fluid-power systems in operation today are controlled by a programmable logic controller (PLC). A PLC is a computing device used to control the components of the system. A PLC may comprise a central processing unit or CPU, an input/output system and a control program with instructions and addresses to make the equipment in the control system operate properly. The control program is a computer program stored in the PLC's memory that may instruct the components in the system and acquire system data. Thus, in a PLC-controlled system, the system components may be wired through the PLC and not directly to each other.
PLCs may be controlled by a software program in their memory or a storage device called the control program. A PLC may store all the information regarding the control program and input and output status in its memory or other storage using a system called addressing. An address is a label or number that indicates where a certain piece of information is located in a PLC's memory. Some addresses may contain information about the status of particular devices. Other addresses may contain reference data entered by the system programmer.
Some embodiments of the present invention may be described with reference to
In some embodiments, the machine event selection menu 30 may be displayed with a digital photograph of the entire piece of machinery or equipment to orient the user to the machine. In some embodiments, a machine event selection process may comprise a column which lists each of the primary events or actions that a machine is capable of performing. Each event that the machine performs may require a different position and status for the system components such as cylinders, pumps, valves, fluid and electronics. Each event that the machine can perform may therefore require a different set of schematics and files linked to that event to show the operating details of all of the system components during that event. The column may be located on the left side of the page or may be located anywhere the user would prefer. This page may also include a symbol or trademark of the company for which the training has been developed. It may also include a hyperlink to the training developer's website.
In some embodiments of the present invention, the user may choose an event or action that the machine is capable of performing. When the user selection of the event is received 31, an event-specific visual representation of the machine may be displayed 32. The event-specific visual representation may comprise a hydraulic schematic, an electrical schematic, a blueprint or machine diagram, a machine image or some other visual representation of the machine or its components as they relate to the selected event.
In some embodiments of the present invention, the visual representations or schematics may be color coded to demonstrate the state or condition of fluids in the system during the selected event. In some embodiments, the visual representation may use red lines and symbols to represent fluid pressures. Yellow may be used to represent reduced flow, orange for reduced pressure, green for suction and blue for return.
In some embodiments of the present invention, the event-specific visual representation may comprise component symbols, such as hydraulic schematic symbols, electrical schematic symbols or other symbols that relate to the machine and its components. These symbols may comprise active regions or “hot spots” that respond to user input. A hot spot may comprise an embedded link to audio, video, image or other types of computer files that correspond to that particular component represented by the symbol. In some embodiments of the present invention, a user may select 33 a hot spot associated with a specific component on the event-specific visual representation. This selection may link to and display digital photographs 38, animation training files 35, digital video files 36, component repair procedures 37, component parts list 38, programmable logic controller (PLC) program code or address data 39, diagnostic processes or other information. This linked information may show the component and the surrounding context of the equipment in greater detail during the event selected during event selection.
If a user were to select a different event 30, a different event-specific visual representation, corresponding to that selected event, may be displayed showing the status and condition of the system components during that selected event. The component “hot spots” on the schematic may then comprise embedded links to audio, video, image or other types of computer files that correspond to and show the status and condition of that particular component during the selected event.
Some embodiments of the present invention may also offer a choice of links to commonly used schematics, data and functions for experienced users. Some embodiments may also comprise instructional links for new or less experienced users. Each screen may also have a back feature to move from the current screen to the previous screen, in this way leaving the user with no dead ends. In some embodiments, regardless of which training course is being used, all applications and information shown and all files used in the program may utilize the same presentation format and template which may be customized to include logos and other material from third party vendors who may wish to utilize the program for their own corporate use.
In still further embodiments of the present invention, a visual representation may contain active regions or hot spots which may link to additional information such as item numbers, client and manufacturer's part numbers, manufacturer data, electrical data, etc. The visual representation may also include hot spots to safety tips for operating, testing or repairing the respective component or hot spots to maintenance logs and other documentation where the user may keep a running log of maintenance procedures, problems, remedies and other documentation of the respective component. In some embodiments which have extended network access or Internet access, machine components may be ordered from a manufacturer website.
In some embodiments, the machine event selection menu 30 and other display pages or elements may contain active regions or hot spots that respond to user input by displaying pull-down menus showing links and options available to the user.
In some embodiments of the present invention, a display comprising the machine event selection menu 30 may also comprise a choice of thumbnail-style summaries for training modules to allow users to jump right to the schematic or image they need without having to drill into multiple hot spots on multiple screens.
In other embodiments of the present invention, a visual representation may comprise a schematic with hot spots which may link to digital images of the system components which, in turn, may contain hot spot links to digital audio, video and animation files which show information related to the specified component. The specified component that is being demonstrated may be circled or marked in some other fashion to make it obvious which component in the image is being demonstrated as well as its location on the machine. In some embodiments, a narrator may explain the details and precisely what the user is seeing as the animation demonstrates what the component does and how it functions. In some embodiments of the present invention, the animation file may be substituted with a digital video file of an actual component in operation. These files may comprise, but are not limited to, JPEG, MPEG, AVI, WAV, and other formats. In some embodiments, a digital media file may be embedded directly into a Portable Document Format (pdf) document comprising the machine event selection program 30. The technical documentation and digital files included within the machine event selection program 30 may be quickly accessed via visual-drill-down techniques and pull-down menus to specific component sections of the documentation, as required for a given training course or repair procedure. These features offer easy guided access to specific technical information to improve the accuracy and efficiency of repairs, improve reliability and reduce equipment downtime. Some embodiments may communicate data and information in a multimedia format for communicating and displaying the large amount of data associated with the training, repairing and maintaining of fluid-powered machinery and other complex equipment.
Some users may be more comfortable working with photos of the equipment rather than schematics. In some embodiments of the present invention, described with reference to
In some instances, depending on the type of equipment and the skill level of the user, it may be beneficial to learn by using machine images, diagrams, schematics and other visual references interchangeably. In some embodiments of the present invention, described with reference to
Embodiments of the present invention provide an improvement in the training, diagnosis, repair and maintenance of hydraulic machinery and other equipment by applying computer-based technologies to replace or augment the prior manual, paper-based processes. This will result in improved reliability and increased productivity by reducing the downtime of machines and equipment through more efficient and focused repair, maintenance, training and other processes.
The terms and expressions which have been employed in the foregoing specification are used therein as terms of description and not of limitation, and there is no intention in the use of such terms and expressions of excluding equivalence of the features shown and described or portions thereof, it being recognized that the scope of the invention is defined and limited only by the claims which follow.
Claims
1. A method for providing computer-based, machine-related information through a computing device, said method comprising:
- a) receiving a machine event selection for a machine wherein said selection identifies a machine event; and
- b) displaying an event-specific visual representation of said machine, wherein said event-specific visual representation comprises at least one component representation for at least one component of said machine, wherein said at least one component is represented in a condition defined by said machine event and wherein said at least one component representation comprises a selectable component link to information related to said at least one component.
2. A method as described in claim 1 wherein said event-specific visual representation comprises a schematic diagram of said machine and said at least one component representation comprises a schematic symbol of said at least one component.
3. A method as described in claim 1 wherein said event-specific visual representation comprises a digital image of said machine and said at least one component representation comprises a portion of said image.
4. A method as described in claim 1 wherein selection of said selectable component link provides access to at least one of a component digital image, a component training animation, a component video, component repair data, a component part list, component identification data, a component programmable logic controller (PLC) address, component-related PLC code, a component diagnostic process and a component ordering process.
5. A method as described in claim 1 wherein said receiving comprises receiving user input identifying said machine event through a menu selection.
6. A method as described in claim 1 further comprising displaying a link to at least one alternative, system-specific, event-specific visual representation of a system of said machine for said machine event, wherein said alternative visual representation comprises at least one system component representation for at least one system component of said system of said machine, wherein said at least one system component is represented in a condition defined by said machine event and wherein said at least one system component representation comprises a selectable system component link to information related to said at least one system component.
7. A method as described in claim 1 further comprising receiving a user identification and wherein the complexity of said event-specific visual representation varies according to a user's knowledge as defined in said user identification.
8. A method as described in claim 1 wherein said machine event selection is performed by an automated process.
9. A method for providing computer-based, machine-related information through a computing device, said method comprising:
- a) receiving a machine event selection for a machine wherein said selection identifies a machine event;
- b) receiving a graphical preference selection identifying a preferred visual representation;
- c) displaying said preferred visual representation, i) wherein said preferred visual representation represents said machine in a condition defined by said machine event selected in said machine event selection; ii) wherein said preferred visual representation is in a graphical format defined by said graphical preference selection; iii) wherein said preferred visual representation comprises at least one component representation for at least one component of said machine, iv) wherein said at least one component is represented in a condition defined by said event; v) wherein said at least one component representation comprises a selectable component link to information related to said component; and
- d) displaying a visual representation selection process that provides access to at least one alternative visual representation of said machine when said visual representation selection process is selected, i) wherein said alternative visual representation represents said machine in a condition defined by said machine event selected in said machine event selection.
10. A method as described in claim 9 wherein selection of said selectable component link provides access to at least one of a component digital image, a component training animation, a component video, component repair data, a component part number, component safety information, a component part list, component identification data, a component programmable logic controller (PLC) address, component-related PLC code, a component diagnostic process and a component ordering process.
11. A method as described in claim 9 wherein said preferred visual representation is selected from a visual representation set consisting of a hydraulic schematic, an electrical schematic, a programmable logic controller (PLC) schematic, a machine image, a machine diagram and a machine component list.
12. A method as described in claim 9 further comprising displaying a visual representation selection menu that allows a user to select an alternative visual representation.
13. A method as described in claim 9 wherein said machine event selection is received from user input.
14. A method as described in claim 9 wherein said machine event selection process is received from an automated diagnostic process.
15. A method as described in claim 9 wherein said graphical preference selection is received from user input.
16. A method as described in claim 9 wherein said graphical preference selection is received from an automated diagnostic process.
17. A method as described in claim 9 further comprising receiving input to and maintaining a maintenance log for said machine.
18. A method for providing computer-based, machine-related information through a computing device, said method comprising:
- a) receiving a machine event selection for a fluid-power machine wherein said selection identifies a machine event;
- b) receiving a graphical preference selection identifying a preferred visual representation, wherein said preferred visual representation is selected from a visual representation set consisting of a hydraulic schematic, an electrical schematic, a programmable logic controller (PLC) schematic, a machine image, a machine diagram and a machine component list;
- c) displaying said preferred visual representation, i) wherein said preferred visual representation is identified by said graphical preference selection, ii) wherein said preferred visual representation represents said machine in a condition defined by said machine event selected in said machine event selection; iii) wherein said preferred visual representation comprises at least one component representation for at least one component of said machine, iv) wherein said at least one component is represented in a condition defined by said event; wherein said at least one component representation comprises a selectable component link to information related to said at least one component; and
- d) displaying a visual representation selection process that provides access to at least one alternative visual representation of said machine when said visual representation selection process is selected, i) wherein said alternative visual representation represents said machine in a condition defined by said machine event selected in said machine event selection, and ii) wherein said alternative visual representation is selected from said visual representation set.
19. A method as described in claim 18 wherein said hydraulic schematic comprises color-coding of hydraulic circuits.
20. A method as described in claim 18 further comprising receiving input to and maintaining a maintenance log for said fluid-power machine.
Type: Application
Filed: Mar 18, 2013
Publication Date: Aug 22, 2013
Applicant: Intellischematic, LLC (Alpine, UT)
Inventor: Intellischematic, LLC
Application Number: 13/846,533
International Classification: G05B 15/02 (20060101);