Abstract: A chemical indicator solution, an apparatus, and a method for determining concentration of a chemical analyte is provided. In particular, the apparatus provides a simplified and low cost way to determine that a fluid sample contains a minimum recommended concentration of a chemical. Rather than using complex and expensive components or error-prone manual methods to prepare the solution and measure chemical concentrations, the apparatus may allow for the automatic measuring and mixing of the chemical components of the resulting solution through the unique geometry and layout of the apparatus. The resulting solution may contain a chemical indicator which allows for the detection of the concentration of the chemical analyte within the resulting solution using techniques such as color analysis.

Abstract: Embodiments of the invention are directed to apparatuses and methods for cleaning and disinfecting probes. A cleaner is utilized to remove foreign materials (e.g., bioburden, soil, and other like material) from the probe after it is removed from the patient by soaking and/or flushing the foreign materials from the probe. The cleaner may be an enzymatic detergent that has bacteriostatic properties to inhibit bacterial growth within the apparatus. The multiple enzymes in the cleaner attack the foreign material, and include low-foam properties for effective recirculation across cycles within the cleaning step. The probe is rinsed after the cleaning step, and after rinsing a disinfectant process is applied to the probe. The disinfectant soaks and/or flushes the probe for a specified amount of time across cycles of recirculation to disinfect the surface of the probe, and afterwards the probe is rinsed thoroughly to remove the disinfectant from the probe.

Abstract: Embodiments of the invention are directed to apparatuses and methods for cleaning and disinfecting probes. A cleaner is utilized to remove foreign materials (e.g., bioburden, soil, and other like material) from the probe after it is removed from the patient by soaking and/or flushing the foreign materials from the probe. The cleaner may be an enzymatic detergent that has bacteriostatic properties to inhibit bacterial growth within the apparatus. The multiple enzymes in the cleaner attack the foreign material, and include low-foam properties for effective recirculation across cycles within the cleaning step. The probe is rinsed after the cleaning step, and after rinsing a disinfectant process is applied to the probe. The disinfectant soaks and/or flushes the probe for a specified amount of time across cycles of recirculation to disinfect the surface of the probe, and afterwards the probe is rinsed thoroughly to remove the disinfectant from the probe.

Abstract: A chemical indicator solution, an apparatus, and a method for determining concentration of a chemical analyte is provided. In particular, the apparatus provides a simplified and low cost way to determine that a fluid sample contains a minimum recommended concentration of a chemical. Rather than using complex and expensive components or error-prone manual methods to prepare the solution and measure chemical concentrations, the apparatus may allow for the automatic measuring and mixing of the chemical components of the resulting solution through the unique geometry and layout of the apparatus. The resulting solution may contain a chemical indicator which allows for the detection of the concentration of the chemical analyte within the resulting solution using techniques such as color analysis.

Abstract: Embodiments of the present invention relate to apparatuses and methods for leakage detection for installed filters of a multi-filter containment enclosure, without requiring disassembly of the multi-filter containment enclosure. The containment enclosure of the present invention comprises a filter housing. The filter housing comprises one or more filter compartments for housing at least a first filter and a second filter. The filter housing comprises at least one port which is operatively coupled downstream of the first filter and upstream of the second filter. Typically, the at least one port allows for leak testing of the first filter and the second filter without having to remove the first filter and the second filter from the containment enclosure.

Abstract: Embodiments of the present invention relate to apparatuses and methods for leakage detection for installed filters of a multi-filter containment enclosure, without requiring disassembly of the multi-filter containment enclosure. The containment enclosure of the present invention comprises a filter housing. The filter housing comprises one or more filter compartments for housing at least a first filter and a second filter. The filter housing comprises at least one port which is operatively coupled downstream of the first filter and upstream of the second filter. Typically, the at least one port allows for leak testing of the first filter and the second filter without having to remove the first filter and the second filter from the containment enclosure.

Abstract: Embodiments of the invention are directed to apparatuses and methods for cleaning and disinfecting probes. A cleaner is utilized to remove foreign materials (e.g., bioburden, soil, and other like material) from the probe after it is removed from the patient by soaking and/or flushing the foreign materials from the probe. The cleaner may be an enzymatic detergent that has bacteriostatic properties to inhibit bacterial growth within the apparatus. The multiple enzymes in the cleaner attack the foreign material, and include low-foam properties for effective recirculation across cycles within the cleaning step. The probe is rinsed after the cleaning step, and after rinsing a disinfectant process is applied to the probe. The disinfectant soaks and/or flushes the probe for a specified amount of time across cycles of recirculation to disinfect the surface of the probe, and afterwards the probe is rinsed thoroughly to remove the disinfectant from the probe.

Abstract: Embodiments of the invention are directed to apparatuses and methods for cleaning and disinfecting probes. A cleaner is utilized to remove foreign materials (e.g., bioburden, soil, and other like material) from the probe after it is removed from the patient by soaking and/or flushing the foreign materials from the probe. The cleaner may be an enzymatic detergent that has bacteriostatic properties to inhibit bacterial growth within the apparatus. The multiple enzymes in the cleaner attack the foreign material, and include low-foam properties for effective recirculation across cycles within the cleaning step. The probe is rinsed after the cleaning step, and after rinsing a disinfectant process is applied to the probe. The disinfectant soaks and/or flushes the probe for a specified amount of time across cycles of recirculation to disinfect the surface of the probe, and afterwards the probe is rinsed thoroughly to remove the disinfectant from the probe.

Abstract: The present invention relates to, in general, a welding end effector apparatus configured for welding a plastic component. The welding end effector apparatus typically comprises a frame structure supporting a welding tip. The welding end effector apparatus further comprises a plastic weld rod feeder apparatus configured for delivering a plastic weld rod to the welding tip. The welding tip is configured to deposit at least partially deformed plastic weld rod onto the plastic component for welding the plastic component. The frame is configured to operatively couple the welding end effector to a multi-axis robotic arm for welding the component.

Abstract: Piercing one or more containers (e.g., single use containers) within a cleaning and disinfecting device is provided. An actuator (e.g., motor, or the like) causes drive mechanisms to move a member (e.g., tube) and/or a piercer linearly with respect to a longitudinal axis of the member. The actuator moves the member towards a container until the piercer has pierced a portion of the container. A guide may form a seal with a reservoir located under the container to create a seal with the reservoir and keep contents of the container from passing from a reservoir to components of a piercer apparatus. Alternatively, the piercer and/or guide form a seal with the container, and the contents pass from the container to an outlet channel in the member, such that the contents of the container are emptied out of the container to the outlet channel and directly or indirectly to a medical device.

Abstract: The present invention is directed to a TEE Probe container configured for receiving a TEE Probe, the container comprising a first container surface and an opposing second container surface. In some instances, the container further comprises one or more depressions positioned on the first surface configured for receiving the TEE probe. The TEE probe container further comprises a planar lid configured to removably enclose the first container surface of the container.

Abstract: Embodiments of the invention are directed to apparatuses and methods for cleaning and disinfecting probes. A cleaner is utilized to remove foreign materials (e.g., bioburden, soil, and other like material) from the probe after it is removed from the patient by soaking and/or flushing the foreign materials from the probe. The cleaner may be an enzymatic detergent that has bacteriostatic properties to inhibit bacterial growth within the apparatus. The multiple enzymes in the cleaner attack the foreign material, and include low-foam properties for effective recirculation across cycles within the cleaning step. The probe is rinsed after the cleaning step, and after rinsing a disinfectant process is applied to the probe. The disinfectant soaks and/or flushes the probe for a specified amount of time across cycles of recirculation to disinfect the surface of the probe, and afterwards the probe is rinsed thoroughly to remove the disinfectant from the probe.

Abstract: By providing a single house (21) which incorporates an elongated probe (22) receiving zone interconnected to a pump member (55), a plurality of automated valves (51-54), a disinfectant dispensing chamber (20), a water supply (41), and a control system for automatically cycling each of the components to achieve the desired result, a fully automated disinfection system (20) for transesophageal ultrasonic probes is achieved. In accordance with the present invention, a simple, easily employed, convenient, fully integrated system (20) is attained for quickly and easily receiving the transesophageal ultrasonic probe in its entirety, supporting the electronic bearing head portion independently from the disinfection portion, and automatically performing various disinfection and rinse cycles for providing a completely disinfected ultrasonic probe member ready for use.