An automatic water discharge device is provided for use with a pneumatically operated apparatus and includes a housing including a water accumulation chamber; an electromagnetic valve coupled to the water accumulation chamber and including a bottom air discharge hole; and a detection mechanism arranged in the housing and in operative coupling with the electromagnetic valve. When the detection mechanism detects moisture entraining gas or air passing through the water accumulation chamber, the electromagnetic valve is activated to allow water to drain through the bottom air discharge hole. As such, operations of automatic detection, accurate draining, and effectively blocking impurities can be all performed and an advantage of maintaining the performance of the pneumatically operated apparatus may also be achieved.

The present invention provides a dewatering device for an air-conditioning system of a plane, comprising: one or more filter plates disposed within a mixing cavity of an air-conditioning system of a plane, for filtering liquid-state water in mixed air in the mixing cavity, wherein the filter plates are configured to be inclinable relative to an axis of the mixing cavity, and an inclination angle thereof is adjustable so as to change a filtering amount of the mixed air.

The present invention provides a dewatering device for an air-conditioning system of a plane, comprising: one or more filter plates disposed within a mixing cavity of an air-conditioning system of a plane, for filtering liquid-state water in mixed air in the mixing cavity, wherein the filter plates are configured to be inclinable relative to an axis of the mixing cavity, and an inclination angle thereof is adjustable so as to change a filtering amount of the mixed air.

A location based holding system comprises a holding device. The holding device includes a food storage chamber and a temperature sensor. The temperature sensor senses the temperature of the food storage chamber. A temperature control device changes the temperature of the food storage chamber. A location device determines the physical location of the holding device. A memory stores information about a food item located in the food storage chamber. A processor is operatively coupled to the memory, location device, and holding device. The processor activates the temperature control device of the holding device based on the physical location of the food storage or transportation device.

A device for setting and controlling the humidity of a gas including elements which are adapted to realize a flow of a gas in the device during operation thereof; elements which are adapted to perform a humidity setting action on gas flowing through the device during operation thereof, including at least two members for the gas to flow through, arranged in parallel, namely at least one of a drying member and a humidifying member, and at least one inactive member; and means for controlling access to the tubular members of the humidity setting elements, at least at one end of the tubular members, in dependence of an actual value as measured during operation of the device and a reference value of the humidity of the gas.

A device for setting and controlling the humidity of a gas including elements which are adapted to realize a flow of a gas in the device during operation thereof; elements which are adapted to perform a humidity setting action on gas flowing through the device during operation thereof, including at least two members for the gas to flow through, arranged in parallel, namely at least one of a drying member and a humidifying member, and at least one inactive member; and means for controlling access to the tubular members of the humidity setting elements, at least at one end of the tubular members, in dependence of an actual value as measured during operation of the device and a reference value of the humidity of the gas.

The invention relates to a mixture measuring system to detect and measure the composition of elements and compounds in a mixture. The system is connected to a cloud server, and it has a canister housing structure in which a sample taking cylinder is inserted to measure the capacitance of the mixture. The system comprises a sonar to measure the volume of the mixture in the cylinder, a gyroscope frame structure which supports a gyroscope stabilizer and other modules including a thermoelectric module, a heat dissipation device, a temperature sensor, a humidity sensor and data processing control. The system enables instant and accurate detection of the composition in the mixture.

A critical environment monitoring system including a sensor array structured to provide sensor data indicative of temperature, pressure, and humidity in an interior space, and one or more processing circuits comprising one or more memory devices coupled to one or more processors that provides a graphical user interface displaying a compliance standard temperature received from a standard setting body and a temperature value, a compliance standard pressure received from the standard setting body and a pressure value, and a compliance standard humidity received from the standard setting body and a humidity value. The processing circuit also generates an alert in response to one of the temperature value being outside the compliance standard temperature, the pressure value being outside the compliance standard pressure, or the humidity value being outside the compliance standard humidity, records criticality information, and receives a log of actions taken.

Disclosed herein are a system and method that integrate vineyard sensor data into an environment that enables analysis, historical trend analytics, spatio-temporal analytics, and weather model fusion for improved decision making from vineyard management to wine production. The integration of new sensor data from multiple soil depths with surface measurements, combined with production flow process and historical information enables new decision making capabilities. A wireless network of sensor/transmitters can be distributed to provide a 3-dimensional assessment of water movement both across the grower's field and as it moves from the surface through the root zone. The soil monitoring data stream feeds into a visualization interface that will be incorporated in software based decision aid and crop management tool that helps agricultural producers reduce costs, minimize water and nutrient applications, and better protect the environment by reducing agricultural production inputs.

Disclosed herein are a system and method that integrate vineyard sensor data into an environment that enables analysis, historical trend analytics, spatio-temporal analytics, and weather model fusion for improved decision making from vineyard management to wine production. The integration of new sensor data from multiple soil depths with surface measurements, combined with production flow process and historical information enables new decision making capabilities. A wireless network of sensor/transmitters can be distributed to provide a 3-dimensional assessment of water movement both across the grower's field and as it moves from the surface through the root zone. The soil monitoring data stream feeds into a visualization interface that will be incorporated in software based decision aid and crop management tool that helps agricultural producers reduce costs, minimize water and nutrient applications, and better protect the environment by reducing agricultural production inputs.