Patent Description:
Dispensing systems can dispense a sanitizing material to a user. Dispensing systems can be used, for example, in schools, hospitals, nursing homes, factories, restaurants, etc. Document <CIT> relates generally to healthcare monitoring systems and, more particularly, to a system and method for dispensing and monitoring medication for healthcare treatment. Document <CIT> relates to dispensing packages for fluent products such as viscous liquid products, and more particularly to a package that includes an integrally molded plastic container and a closure with dispensing valve integrated into the contours of the container. Document <CIT> relates to closures for containers, and more particularly to a method and apparatus for dispensing flowable materials from a container using a flexible actuator section on a side of the closure opposite the dispensing opening. Document <CIT> relates to a liquid discharge container having a lid that seals an opening and can be fixedly open, which is formed on a synthetic resin hinge-lid body screwed into a mouth of a hollow vessel, for free opening and closing.

The invention is defined by the present independent claims <NUM> and <NUM>. This summary is not intended to identify key factors or essential features of the claimed subject matter, nor is it intended to be used to limit the scope of the claimed subject matter.

An aspect of the present disclosure relates to a dispensing system comprising: a container within which a material is contained and from which the material is dispensed; a nozzle attached to the container, the nozzle comprising a first portion and a second portion, wherein at least one of the first portion is movable with respect to the second portion or the second portion is movable with respect to the first portion such that a position of the first portion with respect to the second portion is movable between an opened position, in which the material from the container is dispensed through an opening in the nozzle, and a closed position, in which the material from the container is not dispensed through the opening in the nozzle, wherein, in the opened position, the second portion forms an angle with respect to the first portion; a magnet attached to the first portion of the nozzle; and a compliance system for tracking dispense events attached to the second portion of the nozzle, the compliance system comprising: a transmitter; a magnet sensor, coupled to the transmitter, configured to detect a presence of the magnet when the first portion of the nozzle with respect to the second portion of the nozzle is in the closed position, and configured to detect a non-presence of the magnet when the first portion of the nozzle with respect to the second portion of the nozzle is in the opened position, wherein a dispense event corresponds to the magnet sensor detecting the non-presence of the magnet; and a timer, wherein when the nozzle is moved between the opened position and the closed position greater than a predetermined number of times within a predetermined time frame, then the dispense events are not tracked, wherein the transmitter is configured to transmit a wireless compliance signal indicative of the magnet sensor detecting at least one of the presence or the non-presence of the magnet.

An aspect of the present disclosure relates to a dispensing system comprising: a container within which a liquid sanitizing material is contained and from which the liquid sanitizing material is dispensed; a nozzle attached to the container, the nozzle comprising a first portion and a second portion wherein at least one of the first portion is movable with respect to the second portion or the second portion is movable with respect to the first portion such that a position of the second portion with respect to the first portion is movable between an opened position, in which the liquid sanitizing material from the container is dispensed through an opening in the nozzle, and a closed position, in which the liquid sanitizing material from the container is not dispensed through the opening in the nozzle; a switch attached to an outer radial surface of the second portion of the nozzle, the switch configured to contact the first portion of the nozzle when the second portion of the nozzle with respect to the first portion of the nozzle is in the closed position, the switch not configured to contact the first portion of the nozzle when the second portion of the nozzle with respect to the first portion of the nozzle is in the opened position, wherein a dispense event corresponds to the switch not engaging the second portion of the nozzle; and a compliance system for tracking dispense events attached to one of the first portion of the nozzle or the second portion of the nozzle, the compliance system comprising: a timer, wherein when the nozzle is moved between the opened position and the closed position greater than a predetermined number of times within a predetermined time frame, then the dispense events are not tracked; and a transmitter that is coupled to the switch, wherein the transmitter is configured to transmit a wireless compliance signal when the switch does not contact the first portion of the nozzle.

The following description and annexed drawings set forth certain illustrative aspects and implementations. These are indicative of but a few of the various ways in which one or more aspects can be employed. Other aspects, advantages, and/or novel features of the disclosure will become apparent from the following detailed description when considered in conjunction with the annexed drawings.

The claimed subject matter is now described with reference to the drawings, wherein like reference numerals are generally used to refer to like elements throughout. In the following description, for purposes of explanation, numerous specific details are set forth in order to provide an understanding of the claimed subject matter. It is evident, however, that the claimed subject matter can be practiced without these specific details. In other instances, structures and devices are illustrated in block diagram form in order to facilitate describing the claimed subject matter.

Turning to <FIG>, a dispensing system <NUM> is illustrated. In an example, the dispensing system <NUM> can be used for storing and/or dispensing a material. The dispensing system <NUM> may have at least some degree of portability, movability, transferability, etc., such that the dispensing system <NUM> can be held and/or carried by a user. In some examples, the dispensing system <NUM> may be pocket sized, such that the user can selectively store the dispensing system <NUM> in his or her pocket. In other possible examples, the dispensing system <NUM> may be larger.

The dispensing system <NUM> includes a container <NUM>. In an example, the container <NUM> can contain and dispense a material <NUM> that is stored within the container <NUM>. The container <NUM> can define an interior in which the material <NUM> is stored. The container <NUM> includes any number of sizes, shapes, constructions, configurations, etc. For example, the container <NUM> includes any variety of shaped bottles capable of receiving nearly any quantity of the material <NUM>.

The material <NUM> includes any type of liquid, semi-liquid, gel, powder, foam based materials, etc. The material <NUM> can include, for example, hygiene products and cleaning materials such as disinfectants, sanitizers, antiseptics, soaps, moisturizers, or the like. In other examples, the material <NUM> may include water or other non-cleaning liquid materials. Indeed, the material <NUM> is not specifically limited to these examples, and could include any type of materials.

The dispensing system <NUM> includes a nozzle <NUM> attached to the container <NUM>. The nozzle <NUM> can be attached to the container <NUM> in any number of ways, such as by screwing/threading, locking structures, snap fit structures, or the like. The nozzle <NUM> may be positioned at an end (e.g., upper end) of the container <NUM>, though, in other examples, the nozzle <NUM> may be positioned/attached to a sidewall of the container <NUM>, a bottom wall of the container <NUM>, etc. In an example, the nozzle <NUM> provides for selective dispensing of the material <NUM> from the container <NUM>.

Though the nozzle <NUM> may comprise any number of possible constructions and/or configurations, in with the invention, the nozzle <NUM> includes a first portion <NUM> and a second portion <NUM>. In this example, the first portion <NUM> of the nozzle <NUM> is substantially non-movable and may be attached, fastened, and/or fixed to the container <NUM>. Similarly, in this example, the second portion <NUM> of the nozzle <NUM> may be movable with respect to the first portion <NUM> of the nozzle <NUM>. Indeed, the second portion <NUM> may comprise a lid, cover, cap, or other similar movable covering structure. As such, the second portion <NUM> may move with respect to the first portion <NUM> to allow for selective opening and closing of the nozzle <NUM>.

At least one of the first portion <NUM> is movable with respect to the second portion <NUM> or the second portion <NUM> is movable with respect to the first portion <NUM>. It will be appreciated that the respective portions of the nozzle <NUM> (e.g., the first portion <NUM> and the second portion <NUM>) are not limited to the example of <FIG>. Indeed, in other possible examples, the first portion <NUM> of the nozzle <NUM> comprises the lid, cover, cap or other similar movable covering structure. Similarly, in such an example, the second portion <NUM> of the nozzle <NUM> is generally non-movable and may be attached/fastened/fixed to the container <NUM>.

The nozzle <NUM> comprises an opening <NUM> extending through the first portion <NUM>. The opening <NUM> defines a channel, space, hole, or the like, such that the material <NUM> can be dispensed through the opening <NUM> in the nozzle <NUM>. As such, when the nozzle <NUM> is moved to the opened position (e.g., by moving the second portion <NUM> with respect to the first portion <NUM>), the material <NUM> can be dispensed through the opening <NUM> to the user. When the user no longer desires the material, such as after a dispense event has happened, the user may move the nozzle <NUM> to the closed position.

The dispensing system <NUM> includes a magnet <NUM> attached to the first portion <NUM> of the nozzle <NUM>. The magnet <NUM> comprises any number of sizes/shapes. In an example, the magnet <NUM> may be attached to a surface <NUM> (e.g., upper surface) of the first portion <NUM> of the nozzle <NUM>. The surface <NUM> in this example faces away from the container <NUM>. The magnet <NUM> may be positioned in proximity to the opening <NUM>, such as adjacent to the opening <NUM>. In other examples, the magnet <NUM> may be positioned farther away from the opening <NUM>, such as along an outer radial edge of the surface <NUM>. In further examples, the magnet <NUM> may be positioned along a sidewall of the first portion <NUM> of the nozzle <NUM>, or the like.

The dispensing system <NUM> includes a compliance system <NUM> attached to the second portion <NUM> of the nozzle <NUM>. In general, the compliance system <NUM>, illustrated generically/schematically in <FIG>, can be used to track and/or monitor the number of times that dispense events occur. A dispense event may occur when the user opens the nozzle <NUM>, such as by moving the second portion <NUM> with respect to the first portion <NUM> into the opened position. Tracking the number of dispense events with the compliance system <NUM> may be beneficial so as to comply with hygiene protocols and procedures that ensure that personnel are adopting habits that are efficacious in the prevention of disease transmission. Indeed tracking the number of dispense events with the compliance system <NUM> may be beneficial in a number of different environments, including, but not limited to, hospitals, schools, nursing homes, restaurants, factories, etc..

The compliance system <NUM> can be attached in any number of ways to the second portion <NUM> of the nozzle <NUM>. For example, the compliance system <NUM> can be attached by mechanical fasteners (e.g., nuts, bolts, screws, etc.), adhesives, snap fit and/or locking structures, or the like. In an example, the compliance system <NUM> may be attached to an upper surface of the second portion <NUM> of the nozzle <NUM>. In other examples, however, the compliance system <NUM> may be attached to a sidewall of the second portion <NUM> of the nozzle, to a lower surface (e.g., facing the container <NUM>) of the second portion <NUM>, etc..

It will be appreciated that the respective locations/positions of the magnet <NUM> and the compliance system <NUM> are not limited to the illustrated example of <FIG>. Indeed, in other possible examples, the respective locations/positions of the magnet <NUM> and the compliance system <NUM> may be reversed. For example, the magnet <NUM> may be attached to the second portion <NUM> of the nozzle <NUM>. Similarly, the compliance system <NUM> may be attached to the first portion <NUM> of the nozzle <NUM>.

Turning to <FIG>, the compliance system <NUM> is illustrated The compliance system <NUM> includes a magnet sensor <NUM>. The magnet sensor <NUM> detects a presence of the magnet <NUM> when the first portion <NUM> of the nozzle <NUM> with respect to the second portion <NUM> of the nozzle <NUM> is in the closed position. The magnet sensor <NUM> detects the non-presence of the magnet <NUM> when the first portion <NUM> of the nozzle <NUM> with respect to the second portion <NUM> of the nozzle <NUM> is in the opened position. For example, the magnet sensor <NUM> can include a Hall effect magnet sensor. In an example, the magnet sensor <NUM> is configured to detect the proximity of the magnet <NUM> with respect to the magnet sensor <NUM>. When the magnet <NUM> is greater than a predetermined distance away from the magnet sensor <NUM>, the magnet sensor <NUM> can detect this non-presence of the magnet <NUM>. In the case of a Hall effect magnet sensor <NUM>, the magnet sensor <NUM> may vary its voltage output in response to the changing magnetic field (e.g., the magnet <NUM> being greater than a predetermined distance from the magnet sensor <NUM>).

The compliance system <NUM> may include a controller <NUM>. The controller <NUM> is coupled to the magnet sensor <NUM> and may receive signal(s) from the magnet sensor <NUM> indicative of the magnet sensor <NUM> detecting the presence and/or non-presence of the magnet <NUM>. The controller <NUM> can include a logic controller (e.g., microcontroller, etc.) and may be coupled to the second portion <NUM> of the nozzle <NUM>.

The compliance system <NUM> may include a power source <NUM>. The power source <NUM> is coupled to the controller <NUM>. The power source <NUM> may power the controller <NUM>, the magnet sensor <NUM>, etc. The power source <NUM> comprises any number of structures that can provide power, such as batteries, solar cells, or the like.

The compliance system <NUM> may include memory <NUM>. The memory <NUM> is coupled to the controller <NUM> and to the magnet sensor <NUM>. The memory <NUM> can store data from the magnet sensor <NUM>, such as information related to the magnet sensor <NUM> detecting the presence and/or non-presence of the magnet <NUM>. For example, the memory <NUM> can store a number of dispense events, wherein a dispense event corresponds to the magnet sensor <NUM> detecting the non-presence of the magnet <NUM> when the first portion <NUM> of the nozzle <NUM> with respect to the second portion <NUM> of the nozzle <NUM> is moved from the closed position to the opened position. In some examples, the memory <NUM> can be reset such that the number of dispense events stored within the memory <NUM> can be erased. The memory <NUM> can be reset/erased in any number of ways, such as by depressing a button, switch or the like, in an example.

The compliance system <NUM> may include a signaling component <NUM>. The signaling component <NUM> may be coupled to the controller <NUM>, the magnet sensor <NUM> and/or to the memory <NUM>. In an example, the signaling component <NUM> can emit a signal when the magnet sensor <NUM> detects the non-presence of the magnet <NUM> (e.g., when the nozzle <NUM> is moved from the closed position to the opened position) and/or when the dispense event is stored within the memory <NUM>. The signaling component <NUM> includes any number of structures that can emit a visual and/or audible signal. In an example, the signaling component <NUM> comprises a light, such as one or more light emitting diodes (LEDs). In such an example, the signal emitted by the signaling component <NUM> comprises a light. In another example, the signaling component <NUM> comprises a speaker or microphone, such that the signal emitted by the signaling component <NUM> comprises an audible noise, such as an alarm, beep, or the like. In other examples, the signaling component <NUM> may include both the visual device (e.g., LED(s)) and the audible device (e.g., speaker or microphone).

The compliance system <NUM> includes a transmitter <NUM>. The transmitter <NUM> may be coupled to the controller <NUM>, the memory <NUM>, the magnet sensor <NUM>, etc. The transmitter <NUM> can transmit or otherwise communicate signals, such as a hygiene compliance signal to a remote monitoring device <NUM>. In an example, the transmitter <NUM> comprises a wireless transmitter, such that the transmitter <NUM> transmits/communicates wireless signals. In these examples, the transmitter <NUM> can transmit a wireless compliance signal <NUM> that is indicative of the magnet sensor <NUM> detecting the non-presence of the magnet <NUM>. The transmitter <NUM> comprises any number of wireless devices, including Bluetooth, radio frequency (RF), infrared (IR), Wi-Fi, etc. As such, the wireless compliance signal(s) <NUM> may comprise Bluetooth signals, RF signals, infrared (IR) signals, etc..

The wireless compliance signal <NUM> can be transmitted to the remote monitoring device <NUM>. In an example, the wireless compliance signal <NUM> can be transmitted from the compliance system <NUM> to the remote monitoring device <NUM> when the remote monitoring device <NUM> is brought into proximity with the compliance system <NUM>. Data can be stored on the remote monitoring device <NUM> in a manner so that it can be later analyzed and/or transferred to another device (e.g., computing device) for analysis. In one possible example, data can be stored in memory <NUM> of the remote monitoring device <NUM>. The memory <NUM> can include, for example, a portable memory unit such as a USB memory unit, SD memory unit, flash memory unit, flash memory, solid state hard drive, standard hard drive, removable hard drive, etc..

This data may be transferred from the remote monitoring device <NUM> (e.g., from the memory <NUM>) to a compatible computing device for analysis of the data. For example, the hygiene compliance data may be processed for the generation of reports, for analysis, or for other reasons related to determining whether predetermined hygiene standards and protocols are being met.

In an example, a kit of parts may be provided for converting a dispensing system into a compliance dispensing system <NUM>. In general, the kit may include the magnet <NUM> and the compliance system <NUM>, including the magnet sensor <NUM>, the controller <NUM>, the power source <NUM>, the memory <NUM>, the signaling component <NUM>, the transmitter <NUM>, etc. The kit may be arranged in a similar manner as illustrated and described with respect to <FIG> and <FIG>. For example, the compliance system <NUM> may be attached to the second portion <NUM> of the nozzle <NUM> in a similar manner as described above. Similarly, the magnet <NUM> may be attached to the first portion <NUM> of the nozzle <NUM> in a similar manner as described above.

Turning to <FIG>, an example operation of the dispensing system <NUM> is illustrated. In this example, the nozzle <NUM> may initially be in the closed position. For example, the position of the first portion <NUM> of the nozzle <NUM> with respect to the second portion <NUM> of the nozzle <NUM> is in the closed position. As such, the opening <NUM> is covered and the material <NUM> may not be dispensed through the opening <NUM> in the nozzle <NUM>. When the nozzle <NUM> is in this closed position, the magnet sensor <NUM> may detect the presence of the magnet <NUM>, in part, due to the relatively close proximity of the magnet <NUM> to the magnet sensor <NUM>. The magnet sensor <NUM> may therefore detect that the nozzle <NUM> is in the closed position.

Turning to <FIG>, the nozzle <NUM> may be moved to the opened position. For example, the second portion <NUM> of the nozzle <NUM> may be moved along a movement direction <NUM>. As such, the position of the first portion <NUM> with respect to the second portion <NUM> is moved from the closed position to the opened position. It will be appreciated that the opened position is not specifically limited to the second portion <NUM> being fully opened (e.g., <NUM>°) and separated from the first portion <NUM>. In the opened position, the second portion <NUM> forms an angle <NUM> with respect to the first portion <NUM>. In some examples, the nozzle <NUM> is in the opened position when the angle <NUM> is greater than about <NUM>°. Such an angle <NUM> is not intended to be limiting, and in other examples, the angle <NUM> for which the nozzle <NUM> is opened maybe greater than or equal to about <NUM>°, <NUM>°, <NUM>°, <NUM>°, or <NUM>°, etc..

In this example, when the second portion <NUM> of the nozzle <NUM> is moved to the opened position (e.g., greater than about <NUM>°) with respect to the first portion <NUM>, the material <NUM> can be dispensed through the opening <NUM> in the nozzle <NUM>. In addition, in the illustrated opened position, the magnet sensor <NUM> may detect the non-presence of the magnet <NUM>. For example, as the second portion <NUM> is moved away from the first portion <NUM>, a distance between the magnet <NUM> and the magnet sensor <NUM> is increased to be greater than a predetermined distance. As such, the magnet sensor <NUM> can detect this non-presence of the magnet <NUM> and vary its voltage output in response. This non-presence of the magnet <NUM> can be tracked/recorded as a dispense event, since the opening of the nozzle <NUM> is indicative of a user dispensing the material <NUM> through the opening <NUM>. Accordingly, the memory <NUM> may receive a signal from the magnet sensor <NUM> that is indicative of this dispense event, and store the number of dispense events that have occurred.

After the dispense event has occurred, the user may move the second portion <NUM> of the nozzle <NUM> with respect to the first portion <NUM> from the opened position (e.g., greater than about <NUM>°) to the closed position (e.g., less than about <NUM>°). After the nozzle <NUM> has been closed, the magnet sensor <NUM> may detect the presence of the magnet <NUM>. In such an example, the magnet sensor <NUM> may be reset and/or disabled so as not to transmit a compliance signal or data. The magnet sensor <NUM> may again transfer compliance signal or data upon the nozzle <NUM> being re-opened.

To inhibit false positives and/or inadvertent tracking of dispense events, one or more features, structures, devices, or the like may be provided. A timer is provided as part of the compliance system <NUM>. When the nozzle <NUM> is moved between the opened position and the closed position greater than a predetermined number of times within a predetermined time frame, then the dispense events is not tracked. Indeed, such a situation may exist when the user is rapidly opening and closing the nozzle <NUM> for non-dispense event reasons.

After the number of dispense events has been tracked and stored by the compliance system <NUM>, this information can be transmitted to the remote monitoring device <NUM> through the wireless compliance signal <NUM>. For example, the transmitter <NUM> can transmit the wireless compliance signal <NUM> that is indicative of the number of times the nozzle <NUM> has been opened (e.g., number of dispense events). This wireless compliance signal <NUM> can be received by the remote monitoring device <NUM>, whereupon the number of dispense events can be stored (e.g., within the memory <NUM>), analyzed, or the like.

The dispensing system <NUM> provides a number of benefits. For example, since the dispensing system <NUM> includes the magnet <NUM> as part of a system for tracking dispense events, the magnet <NUM> is generally waterproof, such that the magnet <NUM> can be exposed to the material <NUM> with relatively little effect on the tracking of dispense events. Further, the compliance system <NUM> uses a relatively small amount of power, such that the compliance system <NUM> can be powered by a battery for a relatively long period of time.

Turning to <FIG>, a second dispensing system <NUM> is illustrated The second dispensing system <NUM> includes the container <NUM>, the material <NUM>, etc. The second dispensing system <NUM> comprises a nozzle <NUM>. The nozzle <NUM> can be attached to the container <NUM> in any number of ways, such as by screw/threading, locking structures, snap fit structures, or the like. The nozzle <NUM> may be positioned at an end (e.g., upper end) of the container <NUM>, though, in other examples, the nozzle <NUM> may be positioned/attached to a sidewall of the container <NUM>, a bottom wall of the container <NUM>, etc. In general, the nozzle <NUM> provides for selective dispensing of the material <NUM> from the container <NUM>.

Though the nozzle <NUM> may comprise any number of possible constructions/configurations, in the illustrated example, the nozzle <NUM> includes a first portion <NUM> and a second portion <NUM>. In this example, the first portion <NUM> of the nozzle <NUM> is generally non-movable and may be attached/fastened/fixed to the container <NUM>. Similarly, in this example, the second portion <NUM> of the nozzle <NUM> may be movable with respect to the first portion <NUM> of the nozzle <NUM>. As such, the second portion <NUM> may move with respect to the first portion <NUM> to allow for selective opening and closing of the nozzle <NUM>.

At least one of the first portion <NUM> is movable with respect to the second portion <NUM> or the second portion <NUM> is movable with respect to the first portion <NUM>. It will be appreciated that the respective portions of the nozzle <NUM> (e.g., the first portion <NUM> and the second portion <NUM>) are not limited to the example of <FIG>. Indeed, in other possible examples, the first portion <NUM> of the nozzle <NUM> comprises the movable lid, cover, etc. Similarly, in such an example, the second portion <NUM> of the nozzle <NUM> is generally non-movable and may be attached/fastened/fixed to the container <NUM>.

The nozzle <NUM> comprises an opening <NUM> extending through the second portion <NUM>. The opening <NUM> defines a channel, space, hole, or the like, such that the material <NUM> can be dispensed through the opening <NUM> in the nozzle <NUM>. As such, when the nozzle <NUM> is moved to the opened position (e.g., by moving the second portion <NUM> with respect to the first portion <NUM>), the material <NUM> can be dispensed through the opening <NUM> to the user. When the user no longer desires the material, such as after a dispense event has happened, the user may move the nozzle <NUM> to the closed position.

The second dispensing system <NUM> comprises a switch <NUM> attached to the second portion <NUM> of the nozzle <NUM>. The switch <NUM> is configured to engage the first portion <NUM> of the nozzle <NUM> when the second portion <NUM> of the nozzle <NUM> with respect to the first portion <NUM> of the nozzle <NUM> is in the closed position. Along these lines, the switch <NUM> may not engage the first portion <NUM> of the nozzle <NUM> when the second portion <NUM> of the nozzle <NUM> with respect to the first portion <NUM> of the nozzle <NUM> is in the opened position.

The switch <NUM> comprises any number of switches. For example, the switch <NUM> may include a button/push-button switch or other similar electromechanical or electrical switches. In general, the switch <NUM> may function to open or close a circuit. For example, when the nozzle <NUM> is in the closed position, the switch <NUM> may contact electrical contacts or the like on the first portion <NUM>, such that a circuit is closed. Similarly, when the nozzle <NUM> is in the opened position, the switch <NUM> may not contact the electrical contacts on the first portion <NUM>, such that a circuit is open. In these examples, when the nozzle <NUM> is moved from the closed position to the opened position, the switch <NUM> may detect such movement and track this movement as a dispense event.

Referring to <FIG> and <FIG>, the second dispensing system <NUM> includes a compliance system <NUM> attached to one of the first portion <NUM> of the nozzle <NUM> or the second portion <NUM> of the nozzle <NUM>. In general, the compliance system <NUM> can be used to track and/or monitor the number of times that dispense events occur. A dispense event may occur when the user opens the nozzle <NUM>, such as by moving the second portion <NUM> with respect to the first portion <NUM> into the opened position. Tracking the number of dispense events with the compliance system <NUM> may be beneficial so as to comply with hygiene protocols and procedures that ensure that personnel are adopting habits that are efficacious in the prevention of disease transmission.

The compliance system <NUM> may be similar in some respects to the compliance system <NUM> of <FIG>. For example, the compliance system <NUM> may include the controller <NUM>, the power source <NUM>, the memory <NUM>, the signaling component <NUM>, the transmitter <NUM>. The compliance system <NUM> may communicate with the remote monitoring device <NUM>, which includes the memory <NUM>, by transmitting the wireless compliance signal <NUM> to the remote monitoring device <NUM>.

The switch <NUM> may be coupled to the controller <NUM> of the compliance system <NUM>. In operation, the nozzle <NUM> may initially be in the closed position. For example, the position of the first portion <NUM> of the nozzle <NUM> with respect to the second portion <NUM> of the nozzle <NUM> is in the closed position. As such, the opening <NUM> is covered and the material <NUM> may not be dispensed through the opening <NUM> in the nozzle <NUM>. When the nozzle <NUM> is in this closed position, the switch <NUM> may engage the first portion <NUM> of the nozzle <NUM>, such that the switch <NUM> can detect that the nozzle <NUM> is in the closed position.

The nozzle <NUM> may be moved to the opened position. For example, the second portion <NUM> of the nozzle <NUM> may be depressed, such as by applying a downward force to an end (e.g., right end) of the second portion <NUM> of the nozzle <NUM>. As such, the position of the second portion <NUM> with respect to the first portion <NUM> is moved from the closed position to the opened position.

In this example, when the second portion <NUM> of the nozzle <NUM> is moved to the opened position with respect to the first portion <NUM>, the material <NUM> can be dispensed through the opening <NUM> in the nozzle <NUM>. In addition, in the illustrated opened position, the switch <NUM> may detect that the nozzle <NUM> is in the opened position, such as by opening the circuit. Accordingly, the opening of the nozzle <NUM> can be tracked as a dispense event, since the opening of the nozzle <NUM> may be indicative of a user dispensing the material <NUM> through the opening <NUM>. Accordingly, the memory <NUM> may receive a signal from the switch <NUM> that is indicative of this dispense event, and store the number of dispense events that have occurred.

After the dispense event has occurred, the user may move the second portion <NUM> of the nozzle <NUM> with respect to the first portion <NUM> from the opened position to the closed position. After the nozzle <NUM> has been closed, the switch <NUM> may detect that the nozzle <NUM> is in the closed position. In such an example, the switch <NUM> may again transfer a compliance signal or data upon the nozzle <NUM> being re-opened.

This data stored by the memory <NUM> may be transferred to the remote monitoring device <NUM> in a similar manner as described above. For example, the transmitter <NUM> can transmit the wireless compliance signal <NUM> that is indicative of the number of times the nozzle <NUM> has been opened (e.g., number of dispense events). This wireless compliance signal <NUM> can transmit the wireless compliance signal <NUM> when the remote monitoring device <NUM> is brought into proximity with the compliance system <NUM>. In such an example, the remote monitoring device <NUM> can receive the wireless compliance signal <NUM>, whereupon the information related to the number of dispense events can be stored (e.g., within the memory <NUM>), analyzed, or the like.

Although the subject matter has been described in language specific to structural features or methodological acts, it is to be understood that the subject matter defined in the appended claims is not necessarily limited to the specific features or acts described above. Rather, the specific features and acts described above are disclosed as example forms of implementing at least some of the claims.

Various operations of embodiments are provided herein. The order in which some or all of the operations described should not be construed to imply that these operations are necessarily order dependent. Alternative ordering will be appreciated having the benefit of this description. Further, it will be understood that not all operations are necessarily present in each embodiment provided herein. Also, it will be understood that not all operations are necessary in some embodiments.

Many modifications may be made to the instant disclosure without departing from the scope or spirit of the claimed subject matter. Unless specified otherwise, "first," "second," or the like are not intended to imply a temporal aspect, a spatial aspect, an ordering, etc. Rather, such terms are merely used as identifiers, names, etc. for features, elements, items, etc. For example, a first end and a second end generally correspond to end A and end B or two different or two identical ends or the same end.

Moreover, "exemplary" is used herein to mean serving as an example, instance, illustration, etc., and not necessarily as advantageous. As used in this application, "or" is intended to mean an inclusive "or" rather than an exclusive "or". In addition, "a" and "an" as used in this application are generally to be construed to mean "one or more" unless specified otherwise or clear from context to be directed to a singular form. Also, at least one of A and B or the like generally means A or B or both A and B. Furthermore, to the extent that "includes", "having", "has", "with", or variants thereof are used in either the detailed description or the claims, such terms are intended to be inclusive in a manner similar to "comprising".

Claim 1:
A dispensing system comprising:
a container (<NUM>) within which a material (<NUM>) is contained and from which the material (<NUM>) is dispensed;
a nozzle (<NUM>) attached to the container (<NUM>), the nozzle (<NUM>) comprising a first portion (<NUM>) and a second portion (<NUM>), wherein at least one of the first portion (<NUM>) is movable with respect to the second portion (<NUM>) or the second portion (<NUM>) is movable with respect to the first portion (<NUM>) such that a position of the first portion (<NUM>) with respect to the second portion (<NUM>) is movable between an opened position, in which the material (<NUM>) from the container (<NUM>) is dispensed through an opening in the nozzle (<NUM>), and a closed position, in which the material (<NUM>) from the container (<NUM>) is not dispensed through the opening in the nozzle (<NUM>), wherein, in the opened position, the second portion (<NUM>) forms an angle (<NUM>) with respect to the first portion;
a magnet (<NUM>) attached to the first portion (<NUM>) of the nozzle (<NUM>); and
a compliance system (<NUM>) for tracking dispense events attached to the second portion (<NUM>) of the nozzle (<NUM>), the compliance system (<NUM>) comprising:
a transmitter (<NUM>);
a magnet sensor (<NUM>), coupled to the transmitter (<NUM>), configured to detect a presence of the magnet (<NUM>) when the first portion (<NUM>) of the nozzle (<NUM>) with respect to the second portion (<NUM>) of the nozzle (<NUM>) is in the closed position, and configured to detect a non-presence of the magnet (<NUM>) when the first portion (<NUM>) of the nozzle (<NUM>) with respect to the second portion (<NUM>) of the nozzle (<NUM>) is in the opened position, wherein a dispense event corresponds to the magnet sensor (<NUM>) detecting the non-presence of the magnet (<NUM>); and
a timer, wherein when the nozzle (<NUM>) is moved between the opened position and the closed position greater than a predetermined number of times within a predetermined time frame, then the dispense events are not tracked,
wherein the transmitter (<NUM>) is configured to transmit a wireless compliance signal (<NUM>) indicative of the magnet sensor (<NUM>) detecting at least one of the presence or the non-presence of the magnet (<NUM>).