Abstract: A device for dispensing a flowable material is disclosed. The device includes a container holding the flowable material therein and a pumping assembly attached to the container. The pumping assembly includes a pump and a placard portion configured for displaying viewable information thereon associated with the flowable material.

Abstract: A sheet product dispenser includes a transfer bar, a roller assembly, a motor, a sensor, and a controller. The transfer bar is movable between first and second positions. The roller assembly, disposed proximate the transfer bar second position, has a drive roller and a pinch roller that define a nip. The motor is in operable communication with the transfer bar to move the transfer bar between the first and second positions. The sensor is in operable communication with the dispenser cover. The controller is in operable communication with the sensor and the motor, and is responsive to executable instructions to facilitate actuation of the motor in response to a signal from the sensor to cause the transfer bar to move between the first position and second positions. The transfer bar includes at least one finger that drives an end of a roll of sheet product towards the nip upon actuation of the transfer bar from the first position to the second position.

Abstract: A process for making a fluid ejector head for a micro-fluid ejection device. In one embodiment, the process comprises depositing a thin film resistive layer on a substrate to provide a plurality of thin film heaters. The thin film resistive layer comprises a tantalum-aluminum-nitride material consisting essentially of AlN, TaN, and TaAl alloys, and containing from about 30 to about 70 atomic % tantalum, from about 10 to about 40 atomic % aluminum and from about 5 to about 30 atomic % nitrogen.

Abstract: A sheet product dispenser is provided for sheet product from a roller. The sheet product dispenser includes a first roll of sheet product, called a stub roll, a main roll of sheet product, and a dispensing arrangement. A sensor is provided for detecting when sheet product on a stub roll is depleted. The sensor generates a signal in response to the depletion of the stub roll and a controller activates an electromechanical actuator. The actuator acts to operate a transfer bar that moves an end portion of the main roll sheet product adjacent a roller assembly that engages the main roller sheet product.

Abstract: A sheet product dispenser is provided. The sheet product dispenser includes a roll of sheet product, a dispensing arrangement, and a method of sensing the separation of a dispensed sheet product. A sensor is provided for detecting the movement of a movable member, such as a tear bar or paper guide. The sensor generates a signal in response to the movement of the movable member. A controller de-energizes a roller in said dispensing arrangement in response to said signal.

Abstract: Micro-fluid ejection heads and methods for extending the life of micro-fluid ejection heads. One such micro-fluid ejection head includes a substrate having a plurality of thermal ejection actuators. Each of the thermal ejection actuators has a resistive layer and a protective layer thereon. A flow feature member is adjacent the substrate and defines a fluid feed channel, a fluid chamber associated with at least one of the actuators and in flow communication with the fluid feed channel, and a nozzle. The nozzle is offset to a side of the chamber opposite the feed channel. A polymeric layer having a degradation temperature of less than about 400° C. overlaps a portion of the at least one actuator associated with the fluid chamber and positioned less than about five microns from at least an edge of the at least one actuator opposite the fluid feed channel.

Abstract: A micro-fluid ejection device structure and method therefor having improved low energy design. The devices include a semiconductor substrate and an insulating layer deposited on the semiconductor substrate. A plurality of heater resistors are formed on the insulating layer from a resistive layer selected from the group consisting of TaAl, Ta2N, TaAl(O,N), TaAlSi, Ti(N,O), WSi(O,N), TaAlN, and TaAl/TaAlN. A sacrificial layer selected from an oxidizable metal and having a thickness ranging from about 500 to about 5000 Angstroms is deposited on the plurality of heater resistors. Electrodes are formed on the sacrificial layer from a first metal conductive layer to provide anode and cathode connections to the plurality of heater resistors. The sacrificial layer is oxidized in a plasma oxidation process to provide a fluid contact layer on the plurality of heater resistors.

Abstract: A micro-fluid ejection device structure and method therefor having improved low energy design. The devices includes a semiconductor substrate and an insulating layer deposited on the semiconductor substrate. A plurality of heater resistors are formed on the insulating layer from a resistive layer selected from the group consisting of TaAl, Ta2N, TaAl(O,N), TaAlSi, Ti(N,O), WSi(O,N), TaAlN, and TaAl/TaAlN. A sacrificial layer selected from an oxidizable metal and having a thickness ranging from about 500 to about 5000 Angstroms is deposited on the plurality of heater resistors. Electrodes are formed on the sacrificial layer from a first metal conductive layer to provide anode and cathode connections to the plurality of heater resistors. The sacrificial layer is oxidized in a plasma oxidation process to provide a fluid contact layer on the plurality of heater resistors.

Abstract: A container includes an outer surface defining an inner cavity configured to store a sheet product, the outer surface having a retention indentation configured to engage an attachment apparatus. The retention comprises attachment rails for slidably engaging the attachment apparatus, a lid portion removably secured to the container includes a sheet product retainer to prevent a partially dispensed sheet product from falling back into the container, and the lid portion includes a retention tab configured to prevent a lid of the lid portion from complete separation from the container.

Abstract: A container includes an outer surface defining an inner cavity configured to store a sheet product, the outer surface having a retention formation configured to engage an attachment apparatus. The retention formation is formed of a solid portion of material including an indentation or through-hole for engaging the attachment apparatus, a lid portion of the container includes a sheet product retainer to prevent a partially dispensed sheet product from falling back into the container, and the lid portion includes a retention tab configured to prevent a lid of the lid portion from complete separation from the container.

Abstract: A product holder for mounting on a bucket is disclosed having a support member, a pocket member, and a sheet product dispenser. The support member is conformable to an exterior surface of the bucket and includes fasteners at opposing ends thereof to securely hold the support member to the bucket. The pocket member is securely attached to the support member to form a pocket therewith for receiving and supporting a tool therein. The sheet product dispenser is securely attached to the support member for receiving and dispensing a sheet product, and includes a container body and a container lid openable and closeable with respect to the container body.

Abstract: A combined liquid and sheet product dispenser is provided. The dispenser includes an enclosure for holding sheet products. A container is also provided for holding liquid solutions. The enclosure and containers each include retaining features that cooperate to allow the enclosure and container to be removably interlocked. A set of dispensers is also provided that may be stored or packaged in an interlocked manner to minimize storage space.

Abstract: A container comprising, a body portion comprising a plastic material including, an inner cavity operative to store a sheet product, an outer surface having a storage portion partially defined by a shape of a tool operative to retain the tool.

Abstract: A texture tool comprising a body to which is coupled an upper cap and a lower cap. A ball holder fits in a socket defined by the body and the lower cap. The ball holder includes a plurality of balls which come into contact with a sheet of material to be embossed or imprinted.

Abstract: A device for dispensing a flowable material is disclosed. The device includes a container holding the flowable material therein and a pumping assembly attached to the container. The pumping assembly includes a pump and a placard portion configured for displaying viewable information thereon associated with the flowable material.

Abstract: A process for making a fluid ejector head for a micro-fluid ejection device. In one embodiment, the process comprises depositing a thin film resistive layer on a substrate to provide a plurality of thin film heaters. The thin film resistive layer comprises a tantalum-aluminum-nitride material consisting essentially of AlN, TaN, and TaAl alloys, and containing from about 30 to about 70 atomic % tantalum, from about 10 to about 40 atomic % aluminum and from about 5 to about 30 atomic % nitrogen.

Abstract: Methods for forming electronic devices, such as those having a flexible substrate and printed material on the flexible substrate. In one embodiment, the method may include applying materials to a flexible substrate to form the electronic device. At least some of the materials applied to the flexible substrate may be applied using a printing apparatus. The substrate may be annealed when at least some of the materials are present on the flexible substrate. The resulting electronic device may have a high charge carrier mobility in the range from about 10 cm2/V-s to about 100 cm2/V-s.

Abstract: Micro-fluid ejection heads and methods for extending the life of micro-fluid ejection heads. One such micro-fluid ejection head includes a substrate having a plurality of thermal ejection actuators. Each of the thermal ejection actuators has a resistive layer and a protective layer thereon. A flow feature member is adjacent the substrate and defines a fluid feed channel, a fluid chamber associated with at least one of the actuators and in flow communication with the fluid feed channel, and a nozzle. The nozzle is offset to a side of the chamber opposite the feed channel. A polymeric layer having a degradation temperature of less than about 400° C. overlaps a portion of the at least one actuator associated with the fluid chamber and positioned less than about five microns from at least an edge of the at least one actuator opposite the fluid feed channel.

Abstract: Micro-fluid ejection heads and methods for extending the life of micro-fluid ejection heads. One such micro-fluid ejection head includes a substrate having a plurality of thermal ejection actuators. Each of the thermal ejection actuators has a resistive layer and a protective layer thereon. A flow feature member is adjacent the substrate and defines a fluid feed channel, a fluid chamber associated with at least one of the actuators and in flow communication with the fluid feed channel, and a nozzle. The nozzle is offset to a side of the chamber opposite the feed channel. A polymeric layer having a degradation temperature of less than about 400° C. overlaps a portion of the at least one actuator associated with the fluid chamber and positioned less than about five microns from at least an edge of the at least one actuator opposite the fluid feed channel.

Abstract: Electronic devices, such as those having a flexible substrate and printed material on the flexible substrate. In one embodiment, the printed material and substrate are part of an electronic device having at least three terminals, wherein the electronic device has a charge carrier mobility of at least 10 cm2/V-s. Multi-terminal devices can have a substrate including a doped semiconductor layer and at least two doped regions formed upon the substrate. The doped regions can be doped oppositely from the semiconductor layer and exhibit a charge carrier mobility of greater than 10 cm2/V-s. Methods for making the same are also disclosed.