Patent Grant
9580294
The present invention relates to systems and methods for managing the dispensation of materials from containers.
Systems that manage the dispensation of materials from containers are often used in the biomedical, life sciences, electronics, photolithography, and semiconductor industries. For example, such systems are used in the semiconductor industry to manage the transfer of high-value liquids from bottles to coating systems. Typically, these systems include an apparatus having a connector that is positionable over a mouth of the container, and a conduit that extends through the mouth and into the container to access the material.
Such systems attempt to ensure that the correct materials are transferred from the correct containers. One solution is to label the containers with bar codes. An operator uses a bar code scanner to read information from a label on a container, and software uses that information to determine whether the container is the correct container. However, this solution does not prevent the operator from scanning the correct container and then using an incorrect container, or from using a container before or even without scanning it. Furthermore, systems employing this solution do not provide any trend, predictive, real-time, or messaging information, and do not physically facilitate removing and installing the containers. They also do not facilitate ongoing monitoring of product expiration dates or other changing conditions that may make the products in the containers unfit for use after initial acceptance.
Another solution is to use mechanical keys that distinguish between types of containers. More specifically, a particular mechanical key is installed on the connector or conduit, the correct container presents a particular corresponding structure operable to receive the key, and only if the particular mechanical key of the apparatus matches the particular corresponding structure of the container can the container be properly installed on the apparatus, the conduit fully extended into the container, and the material successfully transferred from therein. However, if an operator attempts to install an incorrect container, the error is not discovered until the conduit has at least partially entered the container and contaminated both the container and the conduit. Furthermore, the ability to discriminate between containers is limited to the number of available mechanical keys. As a result, all containers of a particular type are typically associated with the same mechanical key without regard to, e.g., lot number, expiration date, or other criteria. Additionally, systems that employ keys typically require use of a particular brand of containers that are provided with the structures that correspond to the keys.
This background discussion is intended to provide information related to the present invention which is not necessarily prior art.
Embodiments of the present invention solve the above-described and other problems and limitations by providing a dispensing system and method that verifies containers of materials before the materials are transferred to processes. The present invention combines the mechanical advantages of a key-based system with the informational and analytical advantages of a label-based system to greatly reduce mistakes and contamination.
A dispensing system constructed in accordance with the present invention may be operable to verify a container of a material before the material is transferred from the container to a process that uses the material, wherein the container has a mouth and presents an information storage element. In one embodiment, the dispensing system may comprise a connector operable to engage the container, and a conduit operable to extend through the mouth of the container and transfer the material from the container. A first arm may support the connector and the conduit and be operable to move between a first position in which the connector is engaged with the container and the conduit extends through the mouth of the container, and a second position in which the connector is disengaged from the container and the conduit is removed from the mouth of the container and moved away from the container such that the conduit is not positioned over the mouth of the container. A reading device may be operable to extract information about the container and the material in the container from the information storage element. A second arm may support the reading device and be operable to move between a first position in which the reading device is positioned adjacent to the information storage element, and a second position in which the reading device is not positioned adjacent to the information storage element. A computer program may be stored in an electronic memory, executable by an electronic device, and operable to prevent the first arm from moving to the first position, receive input from the reading device regarding the extracted information, to receive input regarding the process that uses the material, to determine whether the container and the material in the container is correct for the process that uses the material, and if the container is correct, then the computer program may allow the first arm to move to the first position so that the material can be transferred from the container.
In various implementations of this embodiment, the dispensing system may further include any one or more of the following additional features. The container may be a bottle, and the material may be a liquid. The information storage element may be a label, a tag, a radio-frequency identification device tag, an optical identification device, or a magnetic identification device. The conduit may be a tube. The first arm may be telescopic or otherwise moveable and may rotate and retract or otherwise move to achieve the first position and extend and rotate or otherwise move to achieve the second position. The reading device may be a quick response code reader, a linear bar code reader, a camera, a radio-frequency identification tag reader, an optical character recognition scanner, or a magnetic media reader. The second arm may be hinged and may rotate or otherwise move between the first position and the second position. The determination of whether the container and the material in the container are correct for the process may be based on a set of verification criteria used by the computer program, and information needed to determine whether the set of verification criteria is satisfied may be contained in the database. The set of verification criteria may be at least partly determinable by an operator of the dispensing system. The set of verification criteria may include a type of the material; a type of the container; an expiration date of the material; a time, day, or date at or on which the dispensing system is being used; lot numbers; process parameters, including which material is needed; a sequence or batch number; a manufacturer of the container or the material; or an identity of the operator. The electronic device may be a computer, a hand-held computing device, a microprocessor, an embedded computing device, a tablet, or a phone.
The apparatus may further include one or more sensors operable to measure a property of the apparatus, an environment of the container, the container, or the material, and to report the measured property to the computer program, and wherein the computer program may be operable to consider the reported measured property when determining whether to allow the first arm to move to the first position so that the material can be transferred from the container. The apparatus may further include a weight sensor located under the container and operable to measure a weight of the container and report the measured weight to the computer program, wherein the computer program may be operable to determine an amount of the material remaining in the container based on the measured weight of the container. The weight sensor may be a scale, a load cell, or a strain gauge. The apparatus may further include a communication element operable to communicate to an operator such information as successful/unsuccessful engagement of a new container, successful/unsuccessful verification of the new container, successful/unsuccessful release of an engaged container, and warning, trend, predictive, real-time, or information generated by the computer program. The communication element may be a visual communication element, an audible communication element, a display screen, one or more lights, a speaker, or a buzzer. The computer program may be operable to generate and send a message to another device, such as a mobile electronic device, concerning an aspect of the operation of the dispensing system, such as a problem with the apparatus, an attempt to install an incorrect container, a level of the material in the container, an upcoming need to replace the container, or a current environmental condition.
The dispensing system may include a plurality of the apparatuses operable to simultaneously transfer the same or different materials from multiple containers to one or more processes. Each of the apparatuses may be managed by a separate instance of the computer program, or all of the apparatuses may be managed by a single instance of the computer program.
Additionally, each of these implementations and embodiments may be alternatively characterized as methods based on their functionalities.
This summary is not intended to identify essential features of the present invention, and is not intended to be used to limit the scope of the claims. These and other aspects of the present invention are described below in greater detail.
Embodiments of the present invention are described in detail below with reference to the attached drawing figures, wherein:
The figures are not intended to limit the present invention to the specific embodiments they depict. The drawings are not necessarily to scale.
The following detailed description of embodiments of the invention references the accompanying figures. The embodiments are intended to describe aspects of the invention in sufficient detail to enable those with ordinary skill in the art to practice the invention. Other embodiments may be utilized and changes may be made without departing from the scope of the claims. The following description is, therefore, not limiting. The scope of the present invention is defined only by the appended claims, along with the full scope of equivalents to which such claims are entitled.
In this description, references to “one embodiment”, “an embodiment”, or “embodiments” mean that the feature or features referred to are included in at least one embodiment of the invention. Separate references to “one embodiment”, “an embodiment”, or “embodiments” in this description do not necessarily refer to the same embodiment and are not mutually exclusive unless so stated. Specifically, a feature, structure, act, etc. described in one embodiment may also be included in other embodiments, but is not necessarily included. Thus, particular implementations of the present invention can include a variety of combinations and/or integrations of the embodiments described herein.
Broadly characterized, the present invention provides a dispensing system and method that verifies containers (e.g., bottles) of materials (e.g., liquids, high-value liquids) before the materials are transferred from the containers to processes that use the materials. The present invention combines the mechanical advantages of a key-based system with the informational and analytical advantages of a label-based system to greatly reduce mistakes and contamination.
Referring to the figures, a dispensing system 10 is shown constructed in accordance with the present invention and operable to verify a container 12 of a material 14 before the material 14 is transferred from the container 12 to a process that uses the material 14, wherein the container 12 may have a mouth 16 and may present an information storage element 18. In various implementations, the container 12 may be, e.g., a bottle, jug, jar, box, or case constructed of, e.g., plastic, glass, or metal. The material 14 may be, e.g., a liquid, powder, or paste. The information storage element 18 may be, e.g., a label, tag, radio-frequency identification device (RFID) tag, optical identification tag, or magnetic identification tag affixed to, printed on, or otherwise associated with the container 12 and contain information in a readable or otherwise extractable form such as a quick response code (QR code®), linear bar code, text, or other captureable and interpretable symbols. The process that uses the material 14 may be, e.g., a biomedical, life sciences, electronics, photolithography, or semiconductor process.
Referring to
The first arm 26 may support the connector 22 and conduit 24 and may be operable to move between a first position (seen in
The reading device 28 may be operable to extract information about the container 12 and the material 14 in the container 12 from the information storage element 18. In various implementations, the reading device 28 may be, e.g., a QR code® reader, a linear bar code reader, a camera, an RFID tag reader, a magnetic media reader, or an optical character recognition (OCR) scanner. The second arm 30 may support the reading device 28 and may be operable to move between a first position (seen in, e.g.,
The computer program 34 may be stored in the electronic memory 36, executable by the electronic device 38, and operable to receive input from the reading device 28 regarding the extracted information, receive input regarding the process that uses the material 14, access and examine the database 40 to determine whether the container 12 and the material 14 in the container 12 is correct for the process, and if so, allow the first arm 26 to move to the first position so that the material 14 can be transferred from the container 12. The criteria used to verify the container 14 may be part of the computer program 34, and the information needed to determine whether the criteria are satisfied may be part of the database 40. In one implementation, the criteria used to verify the container 14 are partly or wholly determinable by the operator of the system 10 and can include, e.g., a type of the container 12 and/or the material 14; an expiration date of the container 12 and/or the material 14; a time, day, and/or date at or on which the system 10 is being used; black listed and/or white listed lot numbers; process parameters (e.g., which material(s) is or will be needed); sequence or batch numbers for the container 12 and/or the material 14; a manufacturer of the container 12 and/or the material 14; or an identity of the operator, and any such information may be included in the database 40. After initial installation and verification of the container 12, the computer program 34 may be further operable to continue receiving input from the reading device 28 regarding the extracted information, to continue receiving input regarding the process that uses the material, and to continue determining such factors as whether the container 12 and the material 14 in the container 12 is correct for the process, and whether the material 14 has expired since the container 12 was installed. The computer program 34 may be further operable to collect real-time information regarding operation of the dispensing system 10, and to generate trend or predictive information regarding, e.g., when containers 12 may need to be replaced and when and how many containers 12 may need to be ordered based on such considerations as past consumption, current consumption, or future need.
In various implementations, the electronic device 38 may be, e.g., a computer, a hand-held computing device, or a microprocessor incorporated into the apparatus 20 itself, and may communicate with other components of the dispensing system 10 via the Internet, a local area network (LAN), or a control area network (CAN), and over a wired or wireless connection.
Referring also to
The apparatus 20 may further include a weight sensor 48 located under the container 12 and operable to periodically or continuously measure a weight of the container 12 and report the measured weight to the computer program 34. In various implementations, the weight sensor 48 may be, e.g., a scale, a load cell, or a strain gauge. The computer program 34 may be operable to determine an amount of material 14 remaining in the container 12 based on the measured weight of the container 12. The computer program 34 may be further operable to predict when the container 12 should be changed based on a declining trend in the weight of the container 12. Relatedly, the computer program 34 may be further operable to access the database 40 to determine an expiration date for the container 12, correlate its prediction regarding when the container 12 should be changed with the expiration date for the container 14, and inform the operator if the container 12 is predicted to last beyond its expiration date.
The apparatus 20 may further include a communication element 50 operable to communicate to the operator of the system 10 such information as successful/unsuccessful physical engagement of a new container 12, successful/unsuccessful verification of the new container 12, successful/unsuccessful release of the engaged container 12, and warning, trend, predictive, real-time, or other information generated by the computer program 34. In various implementations, the communication element 50 may be, e.g., visual in nature, audible in nature, a display screen, one or more lights, a speaker, or a buzzer.
In one implementation, the computer program 34 may be further operable to generate and send alert or other messages (in the form of, e.g., a text or email) to a device, such as a mobile electronic device of the operator or other nearby or remote personnel, regarding an aspect of the operation of the dispensing system 10. Such messages may concern, e.g., a problem with the operation of the apparatus 20, an attempt to install an incorrect container 12, a level of the material 14 in a container 12, an upcoming need to replace a container 12, or current environmental conditions. Some or all of such messages may be communicated via the communication element 50 as well. The operator and/or other personnel may be able to change the nature and content of such messages generated by the computer program 34 to suit their particular needs.
In operation, the dispensing system 10 may function as follows. Referring to
The connector 22 disengages the mouth 16 of the container 12, the first arm 26 moves to and locks in its second position by disengaging the connector 22, raising the connector 22 and conduit 24 so that the conduit 24 no longer extends through the mouth 16 of the connector 22, and rotating the connector 22 and conduit 24 away from the mouth 16 so that any material 14 that may drip from the end of the conduit 24 will not fall into the mouth 16 of the new container 12b until the new container 12b has been verified, as shown in step 102 and
The second arm 30 moves to its second position with the reading device 28 not positioned adjacent to the information storage element 18, as shown in step 104 and
The second arm 30 moves back to its first position with the reading device 28 positioned adjacent to the information storage element 18 of the new container 12b, as shown in step 108 and
Throughout this operation, the movement and other functionality of some or all of the apparatus' components may be accomplished manually by the operator or substantially automatically by the computer program 34. For example, the first and second arms 26,30 may each be manually moved by the operator or substantially automatically moved by the computer program 34 between their respective first and second positions.
Referring to
In one implementation, an old container 12 is not released by the apparatus for removal until the connector 22 and conduit 24 are secured in the first arm's second position, and the connector 22 and conduit 24 are not allowed to be moved to the first arm's first position until the a new container 12 is secured in the apparatus 20 and verified.
In one implementation, shown in
In one implementation, the connector 22 may be coupled with a retractable tether which retains the connector 22 and conduit 24 in the second retracted and rotated position until the container 12 is verified, and then releases to allow the connector 22 and conduit 24 to move to the first arm's first position.
In one implementation, shown in
Referring to
In the above-described embodiment, when replacing an old container 12a with a new container 12b, the connector 22 and conduit 24 are prevented from moving into position over the mouth 16 of the new container 12b until the new container 12b has been verified. This avoids the risk of any prior material 14 remaining on the end of the conduit 24 dripping into the mouth 16 of the new container 12b and if the new container 12b is incorrect, potentially contaminating the material in the new container 12b and the conduit 24. In a first alternative embodiment, the connector and conduit are substantially stationary and the container is prevented from moving into position under them until the container has been verified. In one implementation of this first alternative embodiment, the container is secured to a moveable element, such as a slidable drawer, and in order to replace an old container with a new container, the connector and conduit are raised, the moveable element is moved from under the connector and conduit, the old container is removed and the new container is placed on the moveable element, and the moveable element is not allowed to move under the connector and conduit until the new bottle has been verified. In a second alternative embodiment, both the connector, conduit, and container are all substantially stationary and a barrier is interposed between the connector and conduit and the mouth of the container and the barrier is not removed until the container is verified. In one implementation of this second alternative embodiment, in order to replace an old container with a new container, the connector and conduit are raised, the old container is removed from the apparatus, a mechanical barrier is moved (using, e.g., an electrical, pneumatic, or hydraulic mechanism) under the connector and conduit, a new container is placed in the apparatus, and the mechanical barrier is not allowed to move from between the connector and conduit and the container until the new container has been verified.
Thus, the present invention provides advantages over the prior art, including that the dispensing system 10 verifies the container 12 of the material 14 before the material 14 is transferred from the container 12 to the process that use the material 14, wherein the dispensing system 10 combines the mechanical advantages of a key-based system with the informational and analytical advantages of a label-based system to greatly reduce mistakes and contamination.
Although the invention has been described with reference to the one or more embodiments illustrated in the figures, it is understood that equivalents may be employed and substitutions made herein without departing from the scope of the invention as recited in the claims.
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