Abstract:
A medical article securement system comprising a bracket and a flap for securing a medical article. The bracket can include a base, and an arm coupled to the base and extending generally parallel to the first major surface of the base. The arm can be spaced a distance from the first major surface of the base to define a channel under the arm that can be dimensioned to receive at least a portion of the medical article. The flap can include a fixed end, and a free end that is movable with respect to the bracket between a first position in which the flap is not positioned over the bracket, and a second position in which at least a portion of the flap is positioned over the bracket to further inhibit movement of the medical article. The fixed end of the flap can be coupled to the bracket.
Abstract:
Brackets, systems comprising a bracket, and methods for securing medical articles. The bracket can include a base, a post coupled to the base and extending upwardly from the base in a direction generally normal to a first major surface of the base, and an arm coupled to the base and extending generally parallel to the first major surface of the base. The arm can be spaced a distance from the first major surface of the base to define a channel under the arm that is dimensioned to receive at least a portion of the medical article. The arm can be cantilevered, and the post and the arm can each be fixed with respect to the base. Methods can include abutting an external surface of the medical article against the post; and moving a portion of the medical article into the channel defined by the arm.
Abstract:
Example systems are described in which a personal protective equipment (PPE) respirator device includes one or more sensor arranged within the PPE to detect exhalation breath temperature of a user, and a computing device configured to generate, based on the detected exhalation breath temperature, a metric indicative of core body temperature of the user wearing the PPE.
Abstract:
In some examples, a system includes a self-retracting lifeline (SRL) comprising one or more electronic sensors, the one or more electronic sensors configured to generate data that is indicative of an operation of the SRL; and at least one computing device comprising one or more computer processors and a memory comprising instructions that when executed by the one or more computer processors cause the one or more computer processors to: receive the data that is indicative of the operation of the SRL; apply the data to a safety model that predicts a likelihood of an occurrence of a safety event associated with the SRL; and perform one or more operations based at least in part on the likelihood of the occurrence of the safety event.
Abstract:
A fall protection device comprises an energy harvester to generate electrical power in response to movement of an elongate member and a circuit powered by the generated electrical power; an impact indicator connected to an elongate member, a controller connected to the elongate member and/or the impact indicator to generate a message in response to impact, and a transmitter connected to the controller to transmit the message; and/or a sensor connected to an elongate member and a controller connected to the sensor to generate a message in response to movement of the elongate member. The fall protection device could include a generator to generate electrical power, an energy storage capacitor to store the generated electrical power, a controller powered by the energy storage capacitor to generate a message in response to action, and a wireless transmitter powered by the energy storage capacitor to transmit the message.
Abstract:
A medical article securement system comprising a bracket and a flap for securing a medical article. The bracket can include a base, and an arm coupled to the base and extending generally parallel to the first major surface of the base. The arm can be spaced a distance from the first major surface of the base to define a channel under the arm that can be dimensioned to receive at least a portion of the medical article. The flap can include a fixed end, and a free end that is movable with respect to the bracket between a first position in which the flap is not positioned over the bracket, and a second position in which at least a portion of the flap is positioned over the bracket to further inhibit movement of the medical article. The fixed end of the flap can be coupled to the bracket.
Abstract:
A medical article securement system comprising indicia and methods of using same. The indicia can include a representation of a medical article, such that the indicia mimics the appearance of the medical article and provides a visual cue for coupling the medical article to the medical article securement system. The systems can further include a bracket that can comprise the indicia. Methods can include orienting the medical article relative to the medical article securement system in an orientation that matches the indicia, and coupling the medical article to the medical article securement system.
Abstract:
In some examples, a system includes an article of personal protective equipment (PPE) having at least one sensor configured to generate a stream of usage data; and an analytical stream processing component comprising: a communication component that receives the stream of usage data; a memory configured to store at least a portion of the stream of usage data and at least one model for detecting a safety event signature, wherein the at least one model is trained based as least in part on a set of usage data generated by one or more other articles of PPE of a same type as the article of PPE; and one or more computer processors configured to: detect the safety event signature in the stream of usage data based on processing the stream of usage data with the model, and generate an output in response to detecting the safety event signature.
Abstract:
A fall protection device comprises an energy harvester to generate electrical power in response to movement of an elongate member and a circuit powered by the generated electrical power; an impact indicator connected to an elongate member, a controller connected to the elongate member and/or the impact indicator to generate a message in response to impact, and a transmitter connected to the controller to transmit the message; and/or a sensor connected to an elongate member and a controller connected to the sensor to generate a message in response to movement of the elongate member. The fall protection device could include a generator to generate electrical power, an energy storage capacitor to store the generated electrical power, a controller powered by the energy storage capacitor to generate a message in response to action, and a wireless transmitter powered by the energy storage capacitor to transmit the message.
Abstract:
A temperature-sensing apparatus for sensing the temperature of an electrical conductor (31), comprising a sensor frame (210) including a frame body (2101) and a channel (2102) adapted to accommodate the electrical conductor (31). At least a portion of a temperature sensor is received in a chamber (2103) of the sensor frame (210). At least a portion of a thermal contact member is disposed between the electrical conductor (31) and the temperature sensor and configured to enhance thermal-contact therebetween. At least a portion of the thermal contact member is radially pressable against the electrical conductor (31).