Patent Grant
11587469
The present disclosure generally relates to methods and systems for identifying industrial devices. In particular, the present disclosure generally relates to indicators identifying industrial automation devices.
Devices used in industrial settings (e.g., industrial automation systems) include but are not limited to drives such as variable speed drives, circuit breakers, switches such as disconnect switches, overload relays, and motor starters. The devices can be arranged in panels where a worker may have difficulty quickly identifying a specific device, for example a disconnect switch for “Pump A,” in a panel with a large number of disconnect switches that may be the same model. In some situations, “downtime” of a device within an automation setting (e.g., within a manufacturing line) can be costly.
In one embodiment, an industrial automation device indicator system is provided by the current disclosure. The system includes a plurality of indicators and a plurality of industrial automation devices positioned in side-by-side orientation to one another. Each of the said plurality of industrial automation devices has a housing with a front face and is included in a plurality of housings. The front face is sized and adapted to receive an indicator included in the plurality of indicators. The indicator included in the plurality of indicators is positioned along an edge of the front face. Each of the indicators the plurality of indicators is positioned on a housing included in the plurality of housings in a common orientation to one another. A first industrial automation device included in the plurality of industrial automation devices includes inputs for connection to a motor of a first application, and a second industrial automation device included in the plurality of industrial automation devices includes inputs for connection to a motor of a second application. The first industrial automation device and the second industrial automation device are adjacent to one another.
In the system, a first indicator included in the plurality of indicators may be a first color, and the first indicator may be coupled to the first industrial automation device. A second indicator included in the plurality of indicators may be a second color, and the second indicator may be coupled to the second industrial automation device.
In the system, each indicator included in the plurality of indicators may include at least one of rubberized plastic or silicone.
In the system, the plurality of industrial automation devices may include at least one of a variable speed drive, a circuit breaker, a disconnect switch, an overload relay, or a motor starter.
In another embodiment, an indicator including at least one of rubberized plastic or silicone is provided by the current disclosure. The indicator is configured to couple without a fastener to an edge of a housing of an industrial device or an opening included in the housing of the industrial device.
The indicator may be configured to couple to a first surface and a second surface of the housing. The first surface may be arranged orthogonally to the second surface. The indicator may be configured to couple to a third surface of the housing.
The indicator may be patterned in color.
The indicator may be configured to couple to a plurality of industrial devices having different housing constructions.
The fastener may be at least one of an adhesive, a screw, or a clamp.
The industrial device may be an industrial automation device. The industrial automation device may be at least one of a variable speed drive, a circuit breaker, a disconnect switch, an overload relay, or a motor starter.
In yet another embodiment, an indicator including at least one of rubberized plastic or silicone and configured to couple without a fastener to a surface in an opening included in a housing of an industrial automation device is provided by the current disclosure.
The indicator may further include an engagement portion extending away from an insertion surface.
In the indicator, a cross sectional area of the engagement portion may be cross shaped.
In the indicator, a cross sectional area of the engagement portion may decrease as the engagement portion extends further away from the insertion surface.
The indicator may be configured to change color in response to temperature changes.
The indicator may indicate a system group that includes the industrial device. The industrial automation device may be a disconnect switch.
These and other benefits may become clearer upon making a thorough review and study of the following detailed description. Further, while the embodiments discussed above a listed as individual embodiment, it is to be understood that the above embodiments, including all elements contained therein, can be combined in whole or in part.
Skilled artisans will appreciate that elements in the figures are illustrated for simplicity and clarity and have not necessarily been drawn to scale. For example, the dimensions and/or relative positioning of some of the elements in the figures may be exaggerated relative to other elements to help to improve understanding of various embodiments of the present invention. Also, common but well-understood elements that are useful or necessary in a commercially feasible embodiment are often not depicted in order to facilitate a less obstructed view of these various embodiments. It will further be appreciated that certain actions and/or steps may be described or depicted in a particular order of occurrence while those skilled in the art will understand that such specificity with respect to sequence is not actually required. It will also be understood that the terms and expressions used herein have the ordinary technical meaning as is accorded to such terms and expressions by persons skilled in the technical field as set forth above, except where different specific meanings have otherwise been set forth herein.
Indicators to identify industrial automation devices in order to assist workers in identifying a specific device for a specific piece of industrial equipment as well as identify potential issues such as a device overheating are described. The indicators can be placed on a housing of an industrial automation device, including but not limited to: drives such as variable speed drives, circuit breakers, switches such as disconnect switches, overload relays, and motor starters.
There is a need to quickly and accurately identify industrial automation devices in order to service, repair, examine, or otherwise interact with the industrial automation devices. Tens of thousands of dollars per hour can be lost when production machines are shut down. The quicker issues can be identified and fixed, the quicker the machine can resume production.
Conventional identification methods include name plates affixed to an industrial automation device via a fastener, such as one or more screws. The name plates generally do not allow for quick identification of individual industrial automation devices because they have identification information printed in small type, do not utilize any unique identifying features, and appear generally identical from a distance (e.g., five feet). A worker may have to closely read each name plate individually (e.g., from one foot away) in order to determine which specific industrial automation device needs to be examined, which can be inefficient.
Additionally, these conventional name plates are time-consuming to install, and are not readily reusable. For example, name plates that require screws can take time to install, and name plates that require adhesives generally cannot be reused without applying new adhesive. Furthermore, name plates are generally customized (e.g., etched) and cannot be moved to another device.
In contrast, the indicators provided in the present disclosure overcome the aforementioned drawbacks. For example, the indicators provided herein can removably attach to a portion of an industrial automation device. In some instances, the indicators can be attached to an edge or a screw hole corresponding to the industrial automation device. Notably, the indicators may be attached without a fastener (which can aid in the reuse of the indicators). As another example, the indicators can be a variety of colors and/or patters, which can provide color “codings” for a device type, machine group, and/or other desired classifications. The color codings can allow a worker (e.g., a technician) to easily identify the specific industrial automation device they are looking for. For example, the worker may know a pump included in a machine with three pumps is malfunctioning. Although the worker can readily locate a panel corresponding to the machine, the panel may include (as an example) twenty circuit breakers, only three of which are associated with the pumps. The indicators can be used to quickly identify the type of device that each circuit breaker is connected to (e.g., blue for pumps, green for impellers, etc.). The worker then knows to only examine the circuit breakers with the indicators associated with pumps (e.g., only the blue indicators), and can efficiently determine which circuit breaker has been tripped, rather than looking through each and every breaker (i.e., up to twenty circuit breakers). Thus, the indicators can save incredibly valuable time. As discussed above, there can be direct financial benefits to efficiently addressing a run-time problem. Additionally, as will be described, the indicators can provide other advantages over the previous techniques, such as providing color changes based on temperature.
Referring now to the figures,
In some embodiments, the industrial automation devices, and by extension, the housings of the industrial automation devices, can be positioned in side-by-side orientation to one another. Industrial automation devices are commonly arranged in this fashion in a rack. In some embodiments, each housing can include a front face sized to receive an indicator. The first housing 104 can include a front face 126. In some embodiments, the front face 126 can receive an indicator positioned along an edge of the front face 126. Positioning the indicator along an edge of the front face can provide easy visibility (e.g., of an identification color) for a worker, as well as allow the indicator to couple to a variety of different industrial automation devices having a common edge and/or front face.
In some embodiments, the first indicator 100 can be coupled to the housing 104 without the use of an adhesive, screw, clamp, or other fastener. The first indicator 100 may be configured to remain coupled to the housing 104 even in the case of vibration. To first indicator 100 can be formed to generally follow the shape of one or more edges of the first housing 104. Along with the first indicator 100 being formed to fit one or more edges of the first housing 104, the rubberized plastic and silicone construction of the first indicator 100 can grip the first housing 104 to sufficiently couple the first indicator 100 to the first industrial automation device 101. The rubberized plastic and silicone construction can provide a semi-flexible indicator that can stretch to fit and grip slightly different housing sizes while still maintaining reusability. The first indicator 100 can include one or more interfaces for individual marking of each terminal and/or break-away markings to show a date of installation of the indicator.
A second indicator 102 can be coupled to a second housing 105 of a second industrial automation device 107. The second indicator 102 and the first indicator 100 can be sized approximately the same and/or be colored the same color, such as yellow, though other colors such as blue, green, red, brown, white, black, pink, purple, orange, and/or combinations thereof. The first indicator 100 and the second indicator 102 can be the same color in order to indicate multiple devices corresponding to the same piece (or type) of industrial equipment. For example, the first industrial automation device 101 can be a disconnect switch for a pump, and the second industrial automation device 107 can be a drive for the pump. In some embodiments, the first industrial automation device 101 can be a variable speed drive, a circuit breaker, a switch such as a disconnect switch, an overload relay, and/or a motor starter. Using the same color indicators can allow a worker to quickly find relevant devices for the pump because the worker may only need to look for a color, such as yellow, rather than reading individual equipment tag numbers of multiple devices, which can be time consuming and require a worker to be located closer to the devices. Saving time can be valuable for finding a specific piece of equipment during routine or emergency maintenance on large machines that may lose thousands or tens of thousands of dollars in lost productivity for every hour the machine is not running.
The first housing 104 and the second housing 105 can be shaped similarly along one or more edges, such as a top edge and a left edge. When different housing share edge designs, indicators of the same shape can be used across multiple device types (i.e. disconnect switches and drives). Alternatively, multiple different indicator shapes and sizes can be used to cover a range of devices with indicators of the same color.
Indicators of different colors can be used to uniquely identify equipment. For example, the first indicator 100, a third indicator 106, and a fourth indicator 108 can all be coupled to a specific model of a device and be of different colors, which can allow a worker to better distinguish a row of disconnect switches, for example.
In some embodiments, multiple indicators can be positioned on multiple industrial automation devices having a common orientation to one another. For example, the indicators can be used to differentiate a number of industrial automation devices included in a rack. In some embodiments, the first industrial automation device 101 can be positioned to have a common orientation to a third industrial automation device 128 having a housing 130.
In some embodiments, the first industrial automation device 101 and the third industrial automation device 128 can be similar (e.g., identical) devices having the same overall orientation. For example, the first industrial automation device 101 and the third industrial automation device 128 may be circuit breakers included in a rack, which is commonly found in manufacturing facilities. In some embodiments, the first industrial automation device 101 can include at least one edge that is substantially parallel with an edge included in the third industrial automation device 128. In some embodiments, the first industrial automation device 101 can include at least one face that is substantially coplanar with at least one face included in the third industrial automation device 128. In some embodiments, the first industrial automation device 101 can include at least one face that is included in a plane substantially parallel to another plane including at least one face included in the third industrial automation device 128. In some embodiments, the first industrial automation device 101 and the third industrial device 128 can be adjacent or otherwise proximate to one another.
In some embodiments, the third indicator 106 can be positioned on the housing 130 of the third industrial device 128. In some embodiments, the first indicator 100 can be positioned on the first housing 104 in the same orientation as the third indicator 106 is positioned on the housing 130 of the third industrial device 128. Using a common orientation to position the indicators can allow a worker to quickly scan the indicators and identify a relevant industrial automation device.
In some embodiments, the first industrial automation device 101 can include inputs for connection to a motor of a first application, and the third industrial automation device 128 can include inputs for connection to a motor of a second application. In some embodiments, the first industrial automation device 101 and the third industrial automation device 128 can be adjacent to one another. In some embodiments, the first indicator 100 and the third indicator 106 can be different colors. For example, the first indicator 100 can be green, and the third indicator 106 can be blue. Using different colors can allow a worker to easily identify automation devices belonging to different applications (e.g., the first application and the second application). For example, when troubleshooting the first application, the worker can ignore all of the devices associated with the second application (e.g., all devices with blue indicators) and only focus on devices associated with the first application (e.g., all devices with green indicators), thereby saving valuable time.
In some embodiments, an indicator such as a fifth indicator 112 can be colored with a pattern such as camouflage. Additionally, certain indicators such as the fifth indicator 112 can be sized differently than other indicators, such as the first indicator 100. The difference in size between indicators can also be used to better distinguish industrial automation devices to a worker.
As will be explained further below, certain housings such as a third housing 116 can include openings such as a first opening 120 and/or a second opening 124 to which a “plug-type” indicator can be inserted and thereby coupled to the housing 116. Certain housings such as the first housing 104 can include openings such as a third opening 117 and/or a fourth opening 119 that can accommodate terminal screws. Other housings such as a fourth housing 121 can include a fifth opening 123 that can accommodate a terminal screw. A “plug-type” indicator can be inserted into one of the third opening 117, the fourth opening 119, or the fifth opening 123 and be placed in contact or close proximity with a terminal screw.
Referring now to
As will be explained further below, the housing 204 can include openings such as a sixth opening 224 and/or a seventh opening 228 to which a “plug-type” indicator can be inserted and thereby coupled to the housing 204.
Referring now to
Referring now to
In some embodiments, the plug indicator 400 can be constructed from materials that may change color with a varying temperature. For example, a plug indicator could display a first color, such as red, at a first temperature such as 40° C., and a second color, such as white, at a second temperature such as 70° C. A worker can then identify potential device issues by identifying colors corresponding to higher temperatures, such as red corresponding to 120° F. If an industrial automation device is operating at a higher temperature, the device may be at a higher risk for damage.
In some embodiments, the plug indicator 400 can be constructed from a thermochromic material having either a reversible or irreversible color change. Having a reversible color change can allow a worker to identify if a device is currently overheating, while an irreversible color change can allow the worker to identify if they device has overheated since installation, which may help the worker in troubleshooting industrial devices. Thus, a plug indicator formed with a thermochromic material having an irreversible color changes may be replaced with a new plug indicator after the previous plug indicator has changed colors. In some embodiments, the thermochromic material can include silicone having a dye to cause a color change at a predetermined temperature (e.g., about 70° C.). It is contemplated that the plug indicator could be configured to change color at a temperature ranging from about 60° C. to 75° C., which are common temperature ratings of conductors.
Plug indicators inserted into certain opening such as the third opening 117, the fourth opening 119, the fifth opening 123 can be placed in contact or close proximity with terminal screws and/or terminated wires. In the event that a device is malfunctioning, the terminal screws may increase in temperature and cause the plug indicator to change colors. A maintenance worker can then identify that the device is malfunctioning.
The engagement portion 408 of the plug indicator 400 can be inserted into a given opening, for example the third opening 117, with the indicator surface 404 generally facing towards a worker. In some embodiments, the indicator surface 404 can be larger than a cross sectional area of the opening. In some embodiments, the indicator surface 404 can be a flat surface. The engagement portion 408 may extend away from the insertion surface 412 for a distance such as 2 mm. The engagement portion 408 can be formed with a “cross” cross sectional shape that may decrease in cross-sectional area further away from the insertion surface 412. In other words, the engagement portion 408 tapers to a smaller cross sectional area, which can allow the plug indicator to fit a variety of openings with varying diameters and shapes, such as circular opening and/or square openings. The tapered shape of the engagement portion 408 can allow at least a portion of the engagement portion 408 to directly contact one or more surfaces on the opening (e.g., the third opening 117), and generate enough static friction to couple the engagement portion 408 to the opening and allow the plug indicator 400 to remain in place in the opening.
In some embodiments, the engagement portion can include a number of fins that from the cross cross-sectional shape. For example, the engagement portion 408 can include a first fin 408A, a second fin 408B, a third fin 408C, and a fourth fin 408D. The fins 408A-D can be regularly spaced in a circular fashion. For example, the fins 408A-D can be angularly spaced about ninety degrees apart. Thus, some of the fins may be perpendicular to each other (e.g., the first fin 408A and the second fin 408B), which can help the plug indicator 408 remain in place in the opening. The regular spacing of the fins 408A-D can generate regularly distributed static friction between the engagement portion 408 and a surface of the opening, and thus allow the plug indicator 400 to remain in place in the opening.
Referring now to
Although the invention or inventions are described throughout this disclosure in terms of various apparatuses and devices, one of skill in the art will readily understand that the operational aspects and/or configurations disclosed herein may also be suitably described as one or more methods.
The present disclosure describes preferred embodiments with reference to the Figures. Reference throughout this specification to “one embodiment,” “an embodiment,” or similar language means that a particular feature, structure, or characteristic described in connection with the embodiment is included in at least one embodiment of the present invention. Thus, appearances of the phrases “in one embodiment,” “in an embodiment,” and similar language throughout this specification may, but do not necessarily, all refer to the same embodiment.
The described features, structures, or characteristics of the invention may be combined in any suitable manner in one or more embodiments. In the description, numerous specific details are recited to provide a thorough understanding of embodiments of the invention. One skilled in the relevant art will recognize, however, that the invention may be practiced without one or more of the specific details, or with other methods, components, materials, and so forth. In other instances, well-known structures, materials, or operations are not shown or described in detail to avoid obscuring aspects of the invention.
Although the above discussion discloses various exemplary embodiments of the invention, it should be apparent that those skilled in the art can make various modifications that will achieve some of the advantages of the invention without departing from the true scope of the invention.
This application is based on, claims the benefit of, and claims priority to U.S. Provisional Patent Application No. 62/904,789, filed Sep. 24, 2019, which is hereby incorporated herein by reference in its entirety for all purposes.
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