A liquid in glass variable angle thermometer tube includes a bulb containing a volume of liquid with a known coefficient of thermal expansion and having a sensing portion for sensing temperature, a glass capillary column for reading the height of the liquid therein, and a flexible metal capillary connecting the sensing portion to the glass capillary column. The flexible metal capillary is in fluid communication with the sensing portion and the glass capillary column such that the liquid in the bulb is permitted to transfer from the sensing portion to the glass capillary column. The bulb is connected directly to the flexible metal capillary and includes an extension portion that is separate from the volume of liquid and the extension portion supports the bulb remote to the temperature sensing volume.

A liquid in glass variable angle thermometer tube includes a bulb containing a volume of liquid with a known coefficient of thermal expansion and having a sensing portion for sensing temperature, a glass capillary column for reading the height of the liquid therein, and a flexible metal capillary connecting the sensing portion to the glass capillary column. The flexible metal capillary is in fluid communication with the sensing portion and the glass capillary column such that the liquid in the bulb is permitted to transfer from the sensing portion to the glass capillary column. The bulb is connected directly to the flexible metal capillary and includes an extension portion that is separate from the volume of liquid and the extension portion supports the bulb remote to the temperature sensing volume.

An expansion system for temperature detection by means of thermomechanical expansion and movement has an expansion receptacle, an elongate fluid line which is connected in a fluid-conducting manner thereto, and a switching means which is mechanically operatively connected to the expansion receptacle for the purpose of actuation of a switching process of the switching means at a settable actuation point. A working fluid is contained in the expansion receptacle and in the fluid line. Furthermore, an activation material which is formed to change, upon contact with the working fluid or upon mixing with the working fluid, said working fluid with regard to its volume and/or its flowability is contained in the expansion system.

An expansion system for temperature detection by means of thermomechanical expansion and movement has an expansion receptacle, an elongate fluid line which is connected in a fluid-conducting manner thereto, and a switching means which is mechanically operatively connected to the expansion receptacle for the purpose of actuation of a switching process of the switching means at a settable actuation point. A working fluid is contained in the expansion receptacle and in the fluid line. Furthermore, an activation material which is formed to change, upon contact with the working fluid or upon mixing with the working fluid, said working fluid with regard to its volume and/or its flowability is contained in the expansion system.