JPS58196427A - Load cell balance - Google Patents

Abstract

PURPOSE:To obtain a load cell balance that is fast in measurement and has weight indication which does not flash light by selecting automatically the strength of prevention process in accordance to the existence and non-existence of outside noises. CONSTITUTION:An outside noise sensing circuit 15 is provided with a gate 18 that is connected to an antenna 17 through a capacitor 16. On the input side of the gate 18 a resistor R1 19 and R2 20 are connected to establish near the threshhold voltage an input voltage based on the supply voltage Vp. If there is no outside noise, the output of a load cell 1 is arithmetically processed to display the results on a display 7. Prevention of flashing of light in the display is simple and measurement speed is high. If it is feared that an A/D converter 4 and others may mis operate due to outside electro-magnetic waves and other outside large noises, the Vout of the gate 18 becomes a high voltage and output signal CPU 9 is given to make offering. Accordingly flashing of light due to outside noises is prevented.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a load cell scale equipped with a display that digitally displays the contents of a measurement.

Conventionally, in a load cell scale equipped with a digital display,
A sudden change in load occurs when an object to be weighed is placed on the tray and removed. Therefore, if the data is displayed as is, the displayed content on the display will change rapidly, and especially just before it stabilizes, the displayed content will flicker, slowing down the metering speed. For this reason, flickering prevention programs have conventionally been set to prevent flickering.

Various conventional means have been adopted for such flickering prevention processing, examples of which are as follows. In other words, data is output at predetermined intervals, and each time the data is sent, it forms N groups including the latest data, and calculates how many identical pieces of data are in these N pieces. Count and select and display the data with the most identical values and the newest data.

Therefore, the data to be displayed changes slowly, and the data display immediately before stabilization quickly stabilizes without flickering.

Therefore, in order to speed up the weighing speed, the number N to be sampled is normally set to a small number to prevent flickering and eliminate delays in weight display.

However, the problem in this case is that there is a large possibility that the data will be distorted due to the influence of external noise.

On the other hand, in order to strongly prevent flickering in the weight display, it is possible to set the number of samples N to a large value to perform strong flickering prevention processing, and thereby prevent the display from changing even if there is external noise. However, such a method has the disadvantage that the metering speed is slow.

The present invention was developed in view of these points, and provides a load cell scale that automatically switches the strength of the flickering prevention process depending on the presence or absence of external noise, and thereby has a fast weighing speed and does not cause flickering in the weight display. The purpose is to obtain.

The present invention sets two types of flicker prevention programs, normal flicker prevention processing and strong flicker prevention processing, in a data processing device including a CPU, and switches the flicker prevention program using a signal from an external noise detection circuit. Therefore, when there is no external noise, flickering is prevented when the metering speed is high, and when there is external noise, flickering due to the external noise is suppressed.

An embodiment of the present invention will be described based on the drawings.

First, a load cell (1) to which a saucer (not shown) is connected
A differential amplifier (2) is provided in this load cell (1).
), a frequency filter (3), and an AD converter (4) are connected in sequence, and the AD converter (4) of and is connected to "o'" (5).

A display and keyboard controller (6) is also provided, and a display (7) for digital display and a keyboard (8) are connected to the display and keyboard controller (6).

Tweet, CPU (9) To RAM CL□ To ROM
A data processing device (6) is provided at the bottom. A data bus line (c) and an address bus line α are connected between the CPU (9), RAM αQ, ROMα, the % port (5), and the display and keyboard controller (6). ing.

Further, an external noise detection circuit (g) is connected to the CPU (9). This external noise detection circuit (g) sets the input potential based on the gate source Vplc connected to the antenna (b) via the capacitor a→ to around the threshold potential. For example, when Vp is 5V, the threshold potential is set near 2V, and the relationship between VIN and VOUT is as shown in FIG. 2, and VOUT changes greatly due to external noise.

Two types of flicker prevention programs are set within the data processing device (6) to prevent flickering caused by the display (7).

One of them is a normal flicker prevention treatment of 6D, and the other is a strong flicker prevention treatment. This strong flicker prevention processing also includes temporarily fixing the displayed content.

In such a configuration, when there is no external noise such as external radio waves, normal flicker prevention processing is set to be performed. Therefore, the output from the load cell (1) is processed and displayed on the display (7), but flicker prevention is simple and the metering speed is fast.

However, when there is a risk that the AD converter (4) etc. may malfunction due to external radio waves or other external noise, the third
Interrupt processing is performed as shown in the figure.

In other words, if there is external noise, the threshold potential of the gate (c) is exceeded, so the votr of the gate cL→
'r is at a high potential, and its output signal is given to the CPU (9) to perform interrupt processing to set a "noise presence flag" in a predetermined area of the RAM α1, as shown in FIG.

When the "noise presence flag" is set in this manner, program selection is performed in the main routine as shown in FIG.

That is, if the "noise presence flag" is not set, the above-mentioned normal flicker prevention processing is performed, and if the "noise presence flag" is set, strong flicker prevention processing is performed. Then, the noise presence flag is reset.

Therefore, flickering due to the influence of external noise is prevented.

As described above, the present invention has a data processing device equipped with a CPU and a display device, and the present invention allows the execution of a flicker prevention program to be divided into a normal flicker prevention process and a strong flicker prevention process based on the output of an external noise detection circuit. This allows you to perform weighing at a high speed when there is no external noise, and prevents the display from flickering when there is external noise. Secondly, reliability during measurement can be improved.

[Brief explanation of drawings]

The drawings show one embodiment of the present invention; Fig. 1 is a block diagram, Fig. 2 is a graph showing the relationship between input and output of gates, Fig. 3 is a flowchart during interrupt processing, and Fig. 4 is a flicker. It is a flowchart of prevention processing.

Claims (1)

[Claims] A data processing device equipped with a CPU that processes a signal from a load cell, and a display device that displays the output of the data processing device, the display content of the display device based on a change in the output from the load cell. The weight display flicker prevention program that causes gradual changes is set to two types: normal flicker prevention processing and strong flicker prevention processing, and when external noise is detected and the level of the external noise exceeds a predetermined value, the normal flicker prevention program is set. 1. A load cell weigher, characterized in that an external noise detection circuit is connected to the CPU, and the external noise detection circuit generates an interrupt signal for switching the flicker prevention process to the strong flicker prevention process.