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.

A sensor for detecting a temperature distribution imparted on a substrate in an environment is disclosed. The sensor includes a sensor substrate with one or more temperature sensing elements formed on the sensor substrate. In embodiments, a temperature sensing element includes at least one cavity with a thermally expandable material disposed within the cavity and a channel extending from the cavity with a slug disposed within the channel. In embodiments, the cavity has a fixed volume and is enclosed by a cover layer disposed or formed over the cavity. The thermally expandable material is configured to extend from the cavity into the channel to actuate the slug from a first position within the channel to at least a second position within the channel, where the position of the slug is indicative of a temperature of a respective portion of the sensor substrate.

A hydraulic fluid gage for measuring hydraulic fluid in a hydraulic tank of a work vehicle. The hydraulic fluid gage may include a body, a fluid connection (s), thermometer, and a range indicator. The body is used to receive the hydraulic fluid from the hydraulic tank. The fluid connection is coupled between the body and the hydraulic tank to communicate hydraulic fluid. The range indicator includes a plurality of ranges of temperature, each of which aligns vertically relative to one another. The thermometer is positioned relative to the range indicator such that the temperature indicated by the thermometer corresponds to one of the ranges of temperature, each of the ranges of temperature corresponding to a recommended range of the hydraulic fluid volume in the hydraulic tank. As such, the gage allows a user to measure the hydraulic fluid volume in the hydraulic tank without the influence from different temperature.

A hydraulic fluid gage for measuring hydraulic fluid in a hydraulic tank of a work vehicle. The hydraulic fluid gage may include a body, a fluid connection (s), thermometer, and a range indicator. The body is used to receive the hydraulic fluid from the hydraulic tank. The fluid connection is coupled between the body and the hydraulic tank to communicate hydraulic fluid. The range indicator includes a plurality of ranges of temperature, each of which aligns vertically relative to one another. The thermometer is positioned relative to the range indicator such that the temperature indicated by the thermometer corresponds to one of the ranges of temperature, each of the ranges of temperature corresponding to a recommended range of the hydraulic fluid volume in the hydraulic tank. As such, the gage allows a user to measure the hydraulic fluid volume in the hydraulic tank without the influence from different temperature.

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.

A hydraulic fluid gage for measuring hydraulic fluid in a hydraulic tank of a work vehicle. The hydraulic fluid gage may include a body, a fluid connection (s), thermometer, and a range indicator. The body is used to receive the hydraulic fluid from the hydraulic tank. The fluid connection is coupled between the body and the hydraulic tank to communicate hydraulic fluid. The thermometer is used to indicate a temperature of the hydraulic fluid. The range indicator includes a plurality of ranges of temperature, each of which aligns vertically relative to one another. The thermometer is positioned relative to the range indicator such that the temperature indicated by the thermometer corresponds to one of the ranges of temperature, each of the ranges of temperature corresponding to a recommended range of the hydraulic fluid volume in the hydraulic tank.

A hydraulic fluid gage for measuring hydraulic fluid in a hydraulic tank of a work vehicle. The hydraulic fluid gage may include a body, a fluid connection (s), thermometer, and a range indicator. The body is used to receive the hydraulic fluid from the hydraulic tank. The fluid connection is coupled between the body and the hydraulic tank to communicate hydraulic fluid. The thermometer is used to indicate a temperature of the hydraulic fluid. The range indicator includes a plurality of ranges of temperature, each of which aligns vertically relative to one another. The thermometer is positioned relative to the range indicator such that the temperature indicated by the thermometer corresponds to one of the ranges of temperature, each of the ranges of temperature corresponding to a recommended range of the hydraulic fluid volume in the hydraulic tank.

A sensor for detecting a temperature distribution imparted on a substrate in an environment is disclosed. The sensor includes a sensor substrate with one or more temperature sensing elements formed on the sensor substrate. In embodiments, a temperature sensing element includes at least one cavity with a thermally expandable material disposed within the cavity and a channel extending from the cavity with a slug disposed within the channel. In embodiments, the cavity has a fixed volume and is enclosed by a cover layer disposed or formed over the cavity. The thermally expandable material is configured to extend from the cavity into the channel to actuate the slug from a first position within the channel to at least a second position within the channel, where the position of the slug is indicative of a temperature of a respective portion of the sensor substrate.