JP2001165601A - Weight measuring device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a weight measuring device capable of easily setting a temperature correction data in the change of the combination of a weight detecting mechanism part with an electronic circuit part while adapting an arithmetic method capable of precisely correcting the temperature of the weight detecting mechanism. SOLUTION: This weight measuring device comprises a temperature sensor 4 provided on a weight detecting mechanism part 1 to correct the temperature by the arithmetic calculation of the output of the weight detecting mechanism part 1 in an electronic circuit part 10. The natural temperature correction data of the weight detecting mechanism part 1 is preliminarily measured and stored or recorded in the weight detecting mechanism part 1, and the stored content is read or the recorded content is inputted in the combination of the electronic circuit part 10, whereby the temperature correction data of the weight detecting mechanism part 1 is set to the electronic circuit part 10. According to this, the setting of the temperature correction data in the change of the combination can be facilitated.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a weight measuring device including an electronic balance and an electronic balance.

[0002]

2. Description of the Related Art Generally, in a weight measuring device such as an electronic balance or an electronic balance, a weight detecting mechanism for outputting a weight detecting signal corresponding to a load on a plate and a weight detecting signal from the weight detecting mechanism are input. The electronic circuit unit mainly determines an weighing display value to be displayed on the display.

The weight detecting mechanism is, for example, a load cell in a load cell type electronic balance, and an electromagnetic force balancing mechanism in an electromagnetic force balance type electronic balance. Since the weight detection signal changes depending on the temperature, it is necessary to correct the temperature. Various methods of correcting the temperature of the weight detection signal in the conventional weight measuring device have been put into practical use.
There are different ways.

One of them is to dispose a temperature sensor close to the weight detecting mechanism, and to combine the weight detecting mechanism with the electronic circuit in an unloaded state and at least one point before shipping the device. In an arbitrary load state, the weight is measured at two or more points and taken into the electronic circuit section, so that the temperature correction coefficient and the like are calculated and stored in the electronic circuit section, and the actual At the time of measurement, this method is a software method in which the temperature of the weight detection signal is corrected using the data stored in the electronic circuit unit and the output of the temperature sensor.

[0005] Another method is to adjust the weight detection mechanism in a hardware manner, for example, by attaching a resistor having a temperature coefficient capable of compensating for the temperature of the weight detection output.

[0006]

Among the above-described methods of correcting the temperature of the weight detection signal in the conventional weight measuring device, the method of adjusting the weight detection mechanism in a hardware manner is based on the temperature of the weight detection signal. There is a problem that it is difficult to correct the change with high accuracy.

On the other hand, in the method of correcting the output of the weight detecting mechanism section by software using an electronic circuit section, although the temperature can be corrected with higher accuracy than the above-mentioned method, the electronic circuit section is replaced with another one. If the combination of the weight detection mechanism and the electronic circuit is changed, such as replacement, the data such as temperature correction coefficients are collected again according to the new procedure and the electronic circuit based on the new procedure. In such a case, it is necessary to calculate and memorize the data, and the operation is troublesome.

The present invention has been made in view of such circumstances, and uses a software method capable of performing relatively high-precision temperature correction while changing the combination of a weight detection mechanism and an electronic circuit. An object of the present invention is to provide a weighing device that can easily set data for temperature correction in such a case.

[0009]

According to a first aspect of the present invention, there is provided a weight measuring apparatus for outputting a weight detection signal corresponding to a load on a plate and a weight provided with a temperature sensor. A detection mechanism unit, and an electronic circuit unit that inputs a weight detection signal from the weight detection mechanism unit and a temperature detection signal from the temperature sensor, corrects the temperature of the weight detection signal, and determines a weighing display value. In the weight measuring device, a memory for storing temperature correction data of a weight detection signal unique to the weight detection mechanism, which is measured in advance, is attached to the weight detection mechanism, and the electronic circuit unit includes: It is characterized in that it is configured to read out the contents of the memory and use it for temperature correction of the weight detection signal.

[0010] In order to achieve the same object, a second aspect is provided.
The weight measuring device of the invention according to the present invention is characterized in that, in place of the memory, a recording medium that records in advance information relating to temperature correction data of a weight detection signal unique to the weight detection mechanism unit, in the weight detection mechanism unit. Attached,
The electronic circuit section is characterized by being configured to be connectable to input means for inputting the recorded contents.

Here, in the invention according to the second aspect, the information relating to the temperature correction data recorded on the recording medium includes:
In addition to the data for temperature correction of the weight detection mechanism itself, the number may be a number from which the data for temperature correction of the weight detection mechanism can be searched. That is, for example, the serial number is recorded in the weight detection mechanism unit, and a table in which each serial number and the temperature correction data of each weight detection mechanism unit are separately stored is stored in the weight detection mechanism unit. The temperature correction data of the weight detection mechanism may be known from the recorded serial number.

According to the present invention, there is provided a weight measuring apparatus for correcting the temperature of an output of a weight detecting mechanism by an operation in an electronic circuit section, wherein data for temperature correction of the output of the weight detecting mechanism is stored in the weight detecting mechanism. By letting them know or recording them, they try to achieve their intended purpose.

In other words, in the invention according to the first aspect, data for temperature correction specific to each weight detection mechanism to which the temperature sensor is attached is stored in a memory provided in each weight detection mechanism. In advance, the electronic circuit reads out the contents stored in the memory and provides it for temperature correction. Thus, even if the combination of the weight detection mechanism and the electronic circuit is changed as needed, the electronic circuit can always perform the temperature correction of the weight detection signal using the temperature correction data unique to the combination partner.

According to the second aspect of the present invention, the information relating to the temperature correction data unique to each weight detection mechanism is recorded in each weight detection mechanism, while the electronic circuit is used for input means such as a keyboard. The connection enables input of temperature correction data based on the recorded contents.
Even in such a configuration, even if the combination of the weight detection mechanism unit and the electronic circuit unit is changed, by inputting the temperature correction data based on the record on the weight detection mechanism unit side to the electronic circuit unit to be combined, Temperature correction data can be easily set.

[0015]

Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a block diagram showing a configuration of an embodiment of the present invention, and shows an example in which the present invention is applied to a load cell type electronic balance.

The load cell 1 serving as a weight detecting mechanism has a bottom at one end fixed to a base 2 and a weighing dish 3 at an upper portion at the other end. The load cell 1 is provided with a temperature sensor 4 such as a thermistor and a non-volatile memory 5 such as an EEPROM. Then, the nonvolatile memory 5
, The temperature correction data unique to the load cell 1 is written.

The temperature correction data written in the non-volatile memory 5 is composed of coefficients of a temperature correction arithmetic expression, for example, a quadratic expression, and is measured before the load cell 1 is combined with the electronic circuit unit 10 described later. In each of the no-load state where nothing is placed on the plate 3 and the state where one or more known loads equal to or less than the weighing of the load cell 1 are placed on the weighing pan 3, the temperature of the load cell 1 is raised to two or more arbitrary points. The output can be obtained by changing the temperature and reading the output of the load cell 1 in each state into a personal computer. The temperature correction data thus obtained is unique to each load cell 1, and the nonvolatile memory 5 in which the unique temperature correction data is written is mounted on the load cell 1. Is done.

The outputs of the load cell 1 and the temperature sensor 4 are taken into the electronic circuit section 10. Electronic circuit section 10
Is an arithmetic processing unit 11 mainly composed of a CPU, an amplifier 12 for amplifying the output of the load cell 1, and an A for digitizing the output of the amplifier 12 and the output of the temperature sensor 4, respectively.
It comprises a -D converter 13, a display 14 for displaying the weighing display value obtained by the arithmetic processing unit 11, and the like.

The weight detection signal from the load cell 1 is amplified by the amplifier 12, digitized by the A / D converter 3, and taken into the arithmetic processing unit 11 every moment. Further, the temperature detection signal from the temperature sensor 4 is also digitized by the A / D converter 13 and then taken into the arithmetic processing unit 11 every moment. Further, the nonvolatile memory 5 mounted on the load cell 1 is connected to the arithmetic processing unit 11 and the content is read.

The arithmetic circuit section 11 performs temperature correction on the weight detection data fetched every moment using the temperature detection data also fetched every moment and the data for temperature correction written in the nonvolatile memory 5. The weight value on the weighing pan 3 is displayed on the display 14 by multiplying the data by the span coefficient stored separately after averaging the data.

According to the above embodiment, the temperature correction data unique to each load cell 1 is
From the nonvolatile memory 5 attached to the electronic circuit unit 10
Is read by the arithmetic processing unit 11 and used for temperature correction of the output of the load cell 1. Therefore, even if the combination of the load cell 1 and the electronic circuit unit 10 is changed, the temperature correction data of the load cell 1 is newly obtained, Work such as resetting is completely unnecessary.

Next, another embodiment of the present invention will be described. FIG. 2 is a block diagram showing the configuration. The feature of this example is that the temperature correction data of the load cell 1 obtained in the same manner as in the above-described embodiment is described on a label 21 and attached to the load cell 1. An external input device 22 such as a keyboard can be connected to the electronic circuit unit 10 via an input port. The external input device 22 is connected to the electronic circuit unit 10 so that the temperature of the load cell 1 described on the label 21 can be measured. By entering correction data,
The temperature correction data is stored in the arithmetic processing unit 11. The other components constituting the electronic circuit section 10, ie, the amplifier 12, the A / D converter 13, and the display 14 are the same as those in the previous example.

In the embodiment shown in FIG. 2, when changing the combination of the load cell 1 and the electronic circuit section 10, an external input device 22 is connected to input the contents of the label 21 attached to the load cell 1. By simply doing so, accurate temperature correction data can be easily set.

The content described on the label 21 does not need to be the data for temperature correction of the load cell 1 itself. For example, a serial number unique to the load cell 1 is described and stored in a separately stored table or the like. Individual serial numbers and temperature correction data may be recorded.

In each of the above embodiments, an example in which the present invention is applied to a load cell type electronic balance is shown. However, the present invention can be equally applied to, for example, an electromagnetic balance of an electromagnetic force balance type. .

FIG. 3 is a block diagram showing the configuration of an embodiment to which the present invention is applied to an electronic balance of an electromagnetic force balance type.
In this example, the weight detection mechanism unit 30 includes the permanent magnet 3
1a, a pole piece 31b, a yoke 31c, a force coil 31d, etc., an electromagnetic force generator 31; a displacement sensor 33 for detecting the displacement of the weighing dish 32; To control the current flowing through the force coil 31d
The servo circuit 34 includes a control circuit 34a and a current amplifier 34b. This weight detection mechanism 3
0, the operation of the servo mechanism 34 causes the weighing pan 3
The current flowing through the force coil 31d is controlled so as to generate an electromagnetic force having a magnitude that keeps the displacement of the weighing pan 32 at 0 against the load on the force coil 31d.
Is proportional to the weight on the weighing pan 32, and the voltage signal obtained by converting the current flowing through the force coil 31d by the resistor 35 becomes the weight detection signal.

In the weight detecting mechanism 30, for example, a temperature sensor 36 is attached to a permanent magnet 31a of the electromagnetic force generating device 31, and a yoke 31c is similarly attached to the yoke 31c in the same manner as in the previous embodiments. A non-volatile memory 37 for storing temperature correction data of the weight detection mechanism unit 30 which is measured in advance by the above method is mounted.

The electronic circuit section 40 includes an arithmetic processing section 41 mainly composed of a CPU, an A / D converter 42 for digitizing a weight detection signal and a temperature detection signal, and an arithmetic processing section 41.
And a display 43 for displaying the weighing display value determined by the above. The arithmetic processing unit 41
Is connected to a non-volatile memory 36, and reads the stored contents to provide temperature correction of the weight detection data.

That is, the arithmetic processing unit 41 fetches the weight detection data and the temperature detection data every moment as in the embodiment of FIG.
In addition to performing temperature correction of the weight detection data using the temperature correction data written in 7, weight data averaging processing and determination of a weighing display value using a span coefficient are performed, and the value is displayed on the display 43. To be displayed.

Also in this embodiment, since the temperature correction data of the weight detecting mechanism 30 is read from the nonvolatile memory 37 to the electronic circuit section 40, the weight detecting mechanism 3
Even if the combination of 0 and the electronic circuit unit 40 is changed, the operation of obtaining or setting the data for temperature correction becomes unnecessary.

Incidentally, even in such an electromagnetic force balance type electronic balance or the like, as in the embodiment of FIG. 2, a recording medium such as a label on which information relating to temperature correction data of the weight detecting mechanism is recorded is used. Needless to say, it may be attached to the weight detection mechanism.

[0032]

As described above, according to the present invention, there is provided a weight measuring apparatus for correcting the temperature of a weight detection signal in an electronic circuit section by using the output of a temperature sensor provided in a weight detection mechanism. Since information related to the temperature correction data unique to the mechanism is stored or recorded on the mechanism, the conventional mechanism for changing the combination of the weight detection mechanism and the electronic circuit can be used. Unlike other types of weight measuring devices, it is not necessary to change the temperature and collect the data to obtain the temperature correction data of the weight detection mechanism after the combination is changed. It is now possible to make settings.

[Brief description of the drawings]

FIG. 1 is a block diagram showing a configuration of an embodiment in which the invention according to claim 1 is applied to a load cell type electronic balance.

FIG. 2 is a block diagram showing a configuration of an embodiment in which the invention according to claim 2 is applied to a load cell type electronic balance.

FIG. 3 is a block diagram showing a configuration of a portable device according to an embodiment in which the invention according to claim 1 is applied to an electronic balance of an electromagnetic force balance type.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Load cell (weight detection mechanism part) 2 Base 3 Weighing pan 4 Temperature sensor 5 Nonvolatile memory 10 Electronic circuit part 11 Operation processing part 12 Amplifier 13 A / D converter 14 Display 21 Label 22 External input device 30 Weight detection mechanism part Reference Signs List 31 electromagnetic force generator 31a permanent magnet 31b pole piece 31c yoke 31d force coil 32 weighing dish 33 displacement sensor 34 servo mechanism 34a PID control circuit 34b current amplifier circuit 35 resistor 36 temperature sensor 37 nonvolatile memory 40 electronic circuit section 41 arithmetic processing section 42 A / D converter 43 Display

 ──────────────────────────────────────────────────続 き Continued on the front page F term (reference) 2F061 AA02 AA60 DD03 DD22 EE02 EE35 EE44 GG11 HH92 HH93 JJ01 VV51 2F063 AA02 AA50 CA40 CB01 CC01 DA04 DC08 DD06 DD08 EC03 EC11 EC21 EC26 GA01 KA05 LA00

Claims (2)

[Claims] A weight detection signal corresponding to a load on a plate is output, and a weight detection mechanism provided with a temperature sensor, a weight detection signal from the weight detection mechanism and a temperature detection signal from the temperature sensor are output. A weight measuring device provided with an electronic circuit for inputting and correcting the temperature of the weight detection signal to determine a weighing display value, wherein the weight detection mechanism is provided with an electronic circuit unit which is unique to the weight detection mechanism previously measured. A memory for storing the temperature correction data of the weight detection signal is attached, and the electronic circuit section is configured to read the contents of the memory and to provide the temperature correction for the weight detection signal. Weight detector. 2. A recording medium in which information relating to previously measured temperature correction data of a weight detection signal unique to the weight detection mechanism is attached to the weight detection mechanism instead of the memory. And a weight measuring device, wherein the electronic circuit section is configured to be connectable to input means for inputting the recorded content.