NL9301580A - Method and apparatus for determining the weight of a container on a mobile installation - Google Patents

Abstract

The invention relates to a method for determining the weight of a container on a mobile installation. The invention further relates to an apparatus for implementing such a method, comprising at least one pressure/signal transducer to be placed between a container and a mobile installation, an angle/signal transducer to be connected to the container or the mobile installation, a data-processing unit for processing the output signals and a display device for displaying the processed data.

Description

Method and device for determining the weight of a container on a mobile installation.

The invention relates to a method and device for determining the weight of a container on a mobile installation.

When loading or unloading a container on a mobile installation, it can be important to know how much cargo has been loaded in the container. how much cargo has been taken out of the container. For example, when loading milk from the producer, it is important to know how much cargo is taken with a particular product. To date, the volume of milk ingested has been measured. The producer will later receive compensation for the volume of milk taken in. Such a measurement is not very accurate.

The object of the invention is to provide a method and device with which the weight of a container on a mobile installation can be determined.

The invention provides a method for this purpose comprising the following steps: A. registering load applied in one direction on the pressure / signal transducers by means of at least one pressure / signal transducer placed between the mobile installation and the container, B. registering the angular position of the mobile installation relative to the direction of the gravitational force by means of an angle / signal transducer, C. supplying the signals output by the transducers to a data processing unit, and D. unit calculate the weight of the container. The invention further provides an apparatus comprising: at least one pressure / signal transducer to be placed between a container and a mobile installation, an angle / signal transducer to be connected to the container or the mobile installation, a data processing unit for processing the measuring signals and a display device for displaying the processed data.

By supporting the container on at least one pressure / signal transducer, the load applied to the pressure signal transducer will be measured provided that the direction of the force applied by the container is the same as the direction of measurement of the pressure / signal transducer. The problem when measuring the weight of a container on a mobile installation is the varying angle position of the mobile installation. The direction of the force applied by the container will usually be different from the measuring direction of the pressure / signal transducer. If there is an angle difference between the direction of the force applied by the container and the measuring direction of the pressure / signal transducer, only part of the force exerted by the container will be measured by the pressure / signal transducer. If it is known how large the angle is between the direction of the load exerted by the container and the measuring direction of the pressure / signal transducer, it is possible to calculate the total load exerted by the container. This total load is equal to the measured load divided by the cosine of the angle between the measuring direction and the applied total load (F = x / cos a). The direction of the total load exerted by the container is equal to the direction of the gravitational force. It is thus possible to calculate the total load exerted by the container from the measured load if the angular position of the pressure / signal transducer relative to the gravitational force is known. An angle / signal transducer is provided to measure this angular position. From the measurement results, it is possible to determine the weight of the container in the data processing unit using the above formula, regardless of the angular position of the mobile installation.

The measuring signals output by the transducer are preferably signals whose frequency is proportional to the values measured by the transducer. The measurement signals are preferably converted into digital counting signals by means of an A / D converter. This makes it possible to measure with high accuracy.

The device is preferably characterized in that the container is a tank full of milk and the mobile installation is a truck. Especially when loading milk from a producer with the aid of a truck, it is important to measure with great accuracy how much milk has been loaded. A farmyard is usually not completely flat, so that a milk truck will usually not be completely horizontal.

Preferably, four pressure / signal transducers are arranged between the tank and the truck. The tank will hereby be securely connected to the truck.

The invention will be further elucidated on the basis of the non-limitative exemplary embodiment shown in the figures. Herein: fig. 1 shows a partly cut-away perspective view of a truck with a milk tank provided with a device according to the present invention, fig. 2 shows a perspective view of a detail of the device from fig. 1, and fig. 3 shows a perspective view of another detail of the device shown in fig. 1.

Fig. 1 shows a truck 1 provided with a tank for milk 2. The tank 2 is provided with a frame supporting the tank 2. The frame 3 and the chassis 4 of the truck 1 are only through the intervention of pressure / signal transducers 5 linked together. The measuring direction of the pressure / signal transducers 5 will usually be chosen to coincide with the direction of the gravitational force when the chassis 4 of the truck 1 is in a horizontal position. An angle / signal transducer 6 is mounted on the chassis of the truck 1. The measuring signals output by transducers 5, 6 are supplied by cables 7 to a central data processing unit 8. The weight of the container 2 can be determined with the data processing unit 8.

Figures 2 and 3 show a detail view of the connection between the frame 3 supporting the tank 2 and the chassis 4 of the truck 1, which is made only through the intervention of the pressure / signal transducers 5. The pressure / signal transducers 5 and the angle / signal transducer 6 shown in Fig. 3 are provided with cables 7 for discharging the obtained measuring signals.

Claims (6)

A method for determining the weight of a container on a mobile installation comprising the following steps: A. registering in one direction on the pressure-signal transducer placed in at least one direction between the mobile installation and the container. pressure applied to pressure / signal transducers, B. recording the angular position of the mobile installation relative to the direction of the gravitational force by means of an angle / signal transducer, C. supplying the data supplied by the transducers to a data processing unit signals issued, and D. calculating the weight of the container by the data processing unit. Method according to claim 1, characterized in that the measuring signals output by the transducer are signals whose frequency is proportional to the values measured by the transducer. Method according to claim 2, characterized in that the measuring signals are converted into digital counting signals by means of an A / D converter. Device for performing a method according to any one of claims 1-3, comprising: at least one pressure / signal transducer to be placed between a container and a mobile installation, an angle / signal to be connected to the container or the mobile installation transducer, a data processing unit for processing the measuring signals and a display device for displaying the processed data. Device according to claim 4, characterized in that the container is a tank for milk and the mobile installation is a truck. Device according to claim 5, characterized in that four pressure / signal transducers are arranged between the tank and the truck.