A dispenser (1) for discharging an amount of a substance to be discharged includes a container (4) with a discharge opening (6), and a metering device (14). The metering device (14) is mounted movably relative to the discharge opening (6) and has at least one recess (16) for conveying the substance to be discharged through the discharge opening (6) and out of the container (4). The metering device (14) is connected to a drive element, particularly to a spring element (13), and the drive element is configured to accelerate an amount of the substance that is received in the recess (16) of the metering device (14), as the amount leaves the dispenser (1).

The invention relates to a metering system (1) with a housing (2), a piezo actuator (10) located therein, a fluidic unit (15) with a valve (16), a plunger device (40) for closing the valve (16), and a transmission lever (20) for coupling the piezo actuator (10) to the plunger device (40), wherein the piezo actuator (10) is arranged substantially parallel next to the plunger device (40) in the housing (2), wherein the piezo actuator (10) extends away from the transmission lever (20) substantially in the direction of a side facing the valve (16).

A dispensing system that includes a bottle, a valve cap, a dosing cap. The bottle includes a side wall having at least a portion that is flexible. The valve cap regulates the dispensing of a flowable product from bottle into the dosing cap. In particular, flowable product may be dispensed from the bottle into the dosing cap when the dispensing system is in an inverted position and while the dosing cap is attached to valve cap. The valve cap and the dosing cap may support the dispensing system in the inverted position.

A flow meter includes a background pattern disposed behind a drip chamber, an image sensor, and a processor. The image sensor has a field of view and is configured to view the drip chamber within the field of view. The processor is coupled to the image sensor to receive image data therefrom and captures, using the image sensor, an image of the drip chamber and at least a portion of the background pattern, examines the image, and adjusts a flow rate of fluid flowing through a fluid line in accordance with the examination of the image.

A flow meter includes a background pattern disposed behind a drip chamber, an image sensor, and a processor. The image sensor has a field of view and is configured to view the drip chamber within the field of view. The processor is coupled to the image sensor to receive image data therefrom and captures, using the image sensor, an image of the drip chamber and at least a portion of the background pattern, examines the image, and adjusts a flow rate of fluid flowing through a fluid line in accordance with the examination of the image.

The present invention describes systems and methods for determining current flow through a current-carrying utility asset. An exemplary embodiment can include measuring a first magnetic induction value at a first location near a targeted current-carrying utility asset and a second magnetic induction value at a second location near the targeted asset where the first location is a known distance from the second location; determining a correlation between a spatial angle and an electrical phase angle between the targeted asset and a second asset where the second asset contributes a first and second error component to the first and second magnetic induction values respectively; estimating error values for the first and second error components using the correlation between the spatial angle and the electrical phase angle; and estimating a current flowing through the targeted asset using the first and second magnetic induction values, the known distance, and the error values.

A flow meter includes a background pattern disposed behind a drip chamber, an image sensor, and a processor. The image sensor has a field of view and is configured to view the drip chamber within the field of view. The processor is coupled to the image sensor to receive image data therefrom and captures, using the image sensor, an image of the drip chamber and at least a portion of the background pattern, examines the image, and adjusts a flow rate of fluid flowing through a fluid line in accordance with the examination of the image.

A flow meter includes a background pattern disposed behind a drip chamber, an image sensor, and a processor. The image sensor has a field of view and is configured to view the drip chamber within the field of view. The processor is coupled to the image sensor to receive image data therefrom and captures, using the image sensor, an image of the drip chamber and at least a portion of the background pattern, examines the image, and adjusts a flow rate of fluid flowing through a fluid line in accordance with the examination of the image.

A flow meter includes an image sensor, a coupler, a support member and one or more processors. The coupler is adapted to couple to a drip chamber. The support member is operatively coupled to the coupler. The image sensor has a field of view and is operatively coupled to the support member. The image sensor is positioned to view the drip chamber within the field of view. The processor receives data from the image sensor and is configured to: receive a first image from the image sensor, compare the first image to a second image, and generate a difference image based upon the comparison between the first and second images.

A flow meter includes an image sensor, a coupler, a support member and one or more processors. The coupler is adapted to couple to a drip chamber. The support member is operatively coupled to the coupler. The image sensor has a field of view and is operatively coupled to the support member. The image sensor is positioned to view the drip chamber within the field of view. The processor receives data from the image sensor and is configured to: receive a first image from the image sensor, compare the first image to a second image, and generate a difference image based upon the comparison between the first and second images.