The present invention discloses a CO alarm for a super capacitance type generator, comprising a MCU control unit U1, a communication unit U2, a voltage reference unit U3, a system power supply unit U4, an alarm indication unit U5, an engine operation detection unit U6, a CO sensor detection unit U7, a super-capacitor charging unit U8, a temperature detection unit U9, and a flameout control unit U10. The MCU control unit U1 is configured to analyze and process the signal of the entire alarm and control the corresponding actions, and includes a single-chip microcomputer IC1 and a capacitor C1. The capacitor C1 is a filter capacitor, which filters the power supply voltage of the single-chip microcomputer IC1.

The present invention discloses a CO alarm for a super capacitance type generator, comprising a MCU control unit U1, a communication unit U2, a voltage reference unit U3, a system power supply unit U4, an alarm indication unit U5, an engine operation detection unit U6, a CO sensor detection unit U7, a super-capacitor charging unit U8, a temperature detection unit U9, and a flameout control unit U10. The MCU control unit U1 is configured to analyze and process the signal of the entire alarm and control the corresponding actions, and includes a single-chip microcomputer IC1 and a capacitor C1. The capacitor C1 is a filter capacitor, which filters the power supply voltage of the single-chip microcomputer IC1.

The present invention relates to a sample diluting and dispensing device. The sample diluting and dispensing device according to the present invention includes: a sample holding plate in which a holding part for holding a plurality of sample vessels is formed; a moving unit for transferring the sample holding plate in a plane direction and a height direction; a sample supply unit for supplying a sample to the sample vessel; a diluent supply unit for supplying a diluent to the sample vessel; a scale installed below the sample holding plate to measure a weight of the sample vessel; and a controller for receiving a weight measurement result from the scale and controlling an operation of each of the sample holding plate, the sample supply unit, and the diluent supply unit.

A weigh belt assembly includes a weigh belt that has first and second spaced apart rollers and an endless belt trained around the rollers to present a belt run configured to support particulate material. The rollers each have a rotational axis. The assembly also includes a belt drive operably coupled with at least one of the rollers for rotation thereof in order to move the belt run in a direction toward the second roller. The assembly also includes apparatus for delivery of quantities of particulate material onto the moving belt run at a position between the first and second rollers. The assembly further comprises a pivot assembly including a shiftable component operably coupled with the weigh belt in order to permit pivoting and downward deflection of the weigh belt under the load of the particulate material deposited on the belt run. A device for measuring the load experienced by the weigh belt during the deflection thereof is provided. A method of determining the flow rate of a particulate material and/or the total weight of material delivered using a weigh belt is also disclosed.

A weigh belt assembly includes a weigh belt that has first and second spaced apart rollers and an endless belt trained around the rollers to present a belt run configured to support particulate material. The rollers each have a rotational axis. The assembly also includes a belt drive operably coupled with at least one of the rollers for rotation thereof in order to move the belt run in a direction toward the second roller. The assembly also includes apparatus for delivery of quantities of particulate material onto the moving belt run at a position between the first and second rollers. The assembly further comprises a pivot assembly including a shiftable component operably coupled with the weigh belt in order to permit pivoting and downward deflection of the weigh belt under the load of the particulate material deposited on the belt run. A device for measuring the load experienced by the weigh belt during the deflection thereof is provided. A method of determining the flow rate of a particulate material and/or the total weight of material delivered using a weigh belt is also disclosed.

A weigh belt assembly includes a weigh belt that has first and second spaced apart rollers and an endless belt trained around the rollers to present a belt run configured to support particulate material. The rollers each have a rotational axis. The assembly also includes a belt drive operably coupled with at least one of the rollers for rotation thereof in order to move the belt run in a direction toward the second roller. The assembly also includes apparatus for delivery of quantities of particulate material onto the moving belt run at a position between the first and second rollers. The assembly further comprises a pivot assembly including a shiftable component operably coupled with the weigh belt in order to permit pivoting and downward deflection of the weigh belt under the load of the particulate material deposited on the belt run. A device for measuring the load experienced by the weigh belt during the deflection thereof is provided. A method of determining the flow rate of a particulate material and/or the total weight of material delivered using a weigh belt is also disclosed.

A weigh belt assembly includes a weigh belt that has first and second spaced apart rollers and an endless belt trained around the rollers to present a belt run configured to support particulate material. The rollers each have a rotational axis. The assembly also includes a belt drive operably coupled with at least one of the rollers for rotation thereof in order to move the belt run in a direction toward the second roller. The assembly also includes apparatus for delivery of quantities of particulate material onto the moving belt run at a position between the first and second rollers. The assembly further comprises a pivot assembly including a shiftable component operably coupled with the weigh belt in order to permit pivoting and downward deflection of the weigh belt under the load of the particulate material deposited on the belt run. A device for measuring the load experienced by the weigh belt during the deflection thereof is provided. A method of determining the flow rate of a particulate material and/or the total weight of material delivered using a weigh belt is also disclosed.