Abstract: Devices and methods are described herein that are configured for use in laboratory testing, such as, for example, during a procedure including the monitoring and detection of chemical reactions. For example, the systems and devices described herein can be used during a procedure to monitor and detect polymerase chain reactions (PCR). In some embodiments, a sample container includes a container body that defines an interior volume and has an open end in fluid communication with the interior volume. A cap is sealingly engageable with the open end of the container body. The cap defines a receptacle that is configured to extend within a portion of the interior volume of the container body when the cap is sealingly engaged thereto. The receptacle can receive therein a sensor, such as, a temperature sensor that can monitor the temperature of a sample material disposed within the container body.
Abstract: The invention discloses a replaceable probe holder structure for thermometer, including a thermometer shell. Inside the thermometer shell installs a slot and an elastic positioning mechanism; inside the slot installs a probe holder; after the insertion of the probe holder in the slot, the probe holder will match with the elastic positioning mechanism and then fixed in the slot. By adopting the above structure, the probe holder structure of this invention requires fewer components, and convenient for installation; the adoption of the elastic positioning mechanism to fix the probe holder is more convenient to replace in practical use.
Abstract: An arrangement for controlling a radiant heater of a cooktop comprising a power controller, a changeover switch and a rod controller in a first operating mode which provides for the interruption of operation at temperatures of approximately 600° C. at a first switching point on the rod controller. In a second operating mode, a switch in the rod controller is set to a different switching point resulting in interruption of the power supply at temperatures of approximately 80° C., so that the radiant heater makes it possible to keep food hot without boiling.
Abstract: A switch, such as an electromechanical or optical switch, whose state is responsive to temperature history, for example temperature excursions above or below a critical temperature. An element of the sensor made from shape memory alloy changes shape when exposed, even temporarily, to temperatures above the Austenitic start temperature As or below the Martensite start temperature Ms of the shape memory alloy sensor element. The shape change of the SMA element causes the sensor to change between two readily distinguishable states. The sensor can include a one-way stop element that creates a persistent indication of the temperature history. The switch also has built-in stops allowing the sensor to be manufactured and stored at temperatures above the Austenitic temperature without causing the indication of an over-temperature event, before the actual use.
Abstract: An alarm device for signaling when an object reaches a specified temperature. The alarm device includes a thermometer for detecting the temperature of the object. The device further includes a switch element which is closed when the thermometer indicates the specified temperature. The closed switch element triggers an alarm, such as a light or a buzzer, which will signal a person monitoring the temperature that the specified temperature has been reached.
Abstract: A method for simultaneous compensation of a plurality of thermocouple signals where the thermocouple leads are terminated to dissimilar metals without using individual ice junctions for compensation of each thermocouple signal is disclosed. The thermocouple leads are all terminated to individual connectors as reference junctions which are held at the same temperature by a block of metal which stabilizes thermally with its environment. The temperature of the metal block is measured by an integrated circuit temperature transducer which produces an analog electrical signal proportional to the temperature detected. This signal is digitized and a microprocessor calculates the temperature of the metal block which is placed on a first data bus. Additional microprocessors are connected to the individual thermocouple leads. These microprocessors convert the thermocouple signals into an uncorrected digital temperature.