KR200439307Y1 - A load cell with ip address - Google Patents

Abstract

The load cell with the IP address includes a power supply and a weight sensor, the power supply being a bridge power supply and an electrical power supply. The load cell having the IP address further includes an IP conversion board or an IP conversion box capable of converting analog signals output by the weight sensor into digital signals, wherein the power supply, the weight sensor and the IP conversion board or IP conversion box is serially connected in series. Circuit inspection and parameter correction will be performed on the load cell having the IP address of the present invention. At the stage of detection and application, angular differences will be tested and calibrated. The load cell with IP address of the present invention is characterized by strong anti-interference capability, very accurate weighing precision and high transmission rate. It is easy to detect and is suitable for weighing under static, dynamic and high speed conditions.

Description

Load cell with IP address {A LOAD CELL WITH IP ADDRESS}

The present invention relates to a weight measuring device, and more particularly to a load cell having an IP address.

Currently, domestic load cells include a metal elastic body and a resistance strain gage. When the load cells are loaded by pressure or weight, deformation of the elastic body of the metal occurs and the resistance strain gauge outputs an analog electrical signal. Since the analog electrical signal has a weak anti-interference capability, it is inconvenient to detect the exact state of each sensor. Due to low transmission rate, inconvenience in combination and low weighing precision, digital load cells that output RS232 serial interface signals are particularly dynamic and Not suitable for weighing under high speed conditions.

It is an object of the present invention to provide a load cell having an IP address which solves the above mentioned problems and accurately weighs.

In order to achieve the above object, a technical solution according to the present invention is as follows: A load cell having an IP address includes a power supply and a weight sensor, and the power supply is a bridge power supply and an electric power supply. The load cell having the IP address further includes an IP conversion board or an IP conversion box capable of converting analog signals output by the weight sensor into digital signals, wherein the power supply, the weight sensor and the IP conversion board or IP conversion box is serially connected in series.

The IP conversion board or IP conversion box is connected to an operational amplifier, an A / D converter, a logic controller, an Mcu microcontroller or a DSP digital signal processor, a program memory, a computer or an Ethernet weighing meter, and an Ethernet controller having an IP address. It includes. The signal output terminal of the weight sensor is connected to the signal input terminal of the operational amplifier, and the operational amplifier is connected to the Mcu microcontroller or DSP digital signal processor, the Ethernet controller, the logic controller and the program memory through the A / D converter. Connected. The operational amplifier circuit of the operational amplifier includes a 12V power supply, an INA128 chip and an R19 resistor.

The weight sensor is a resistance strain type sensor having a bridge circuit comprising two strain resistances and two equivalent-value resistances. Lead 1 of the bridge circuit is connected to the positive pole of the power supply, lead 2 of the bridge circuit is connected to pin 2 of the operational amplifier INA128 chip, lead 3 of the bridge circuit is grounded, and the bridge Lead 4 of the circuit is connected to pin 3 of the op amp INA128 chip.

Circuit inspection and parameter correction will be performed on the load cell having the IP address of the present invention. At the stage of detection and application, angular differences will be tested and calibrated.

During the maintenance, by inputting the original parameters of the load cell with the IP address via Ethernet, the data of the electronic scale instrument can be kept unchanged. Using the weighing software provided by the manufacturer, the user can independently combine an IP addressed load cell with various electrical calibration instruments. If the volume of the weight sensor permits, an IP conversion board that converts the analog signals of the weight sensor into Ethernet signals can be coupled to the weight sensor. If the weight sensor's volume is relatively small, the analog signals output by the weight sensor are transmitted via cable to the IP conversion box, and then converted into Ethernet signals and then output.

The load cell with IP address of the present invention is characterized by strong anti-interference capability, very accurate weighing precision and high transmission rate. It is easy to detect and is suitable for weighing under static, dynamic and high speed conditions.

1 is an electrical principle block diagram of a load cell having an IP address according to the present invention.

2 is a circuit diagram of a weight sensor of a load cell having an IP address according to the present invention.

3 is a circuit diagram of an operational amplifier of a load cell having an IP address according to the present invention.

4 is a circuit diagram of an A / D converter of a load cell having an IP address according to the present invention.

5 is a circuit diagram of a logic controller of a load cell having an IP address according to the present invention.

6 is a circuit diagram of an Mcu microcontroller or DSP digital signal processor of a load cell having an IP address according to the present invention.

7 is a circuit diagram of a program memory of a load cell having an IP address according to the present invention.

8 is a circuit diagram of an Ethernet controller having an IP address connected to a computer or an Ethernet weighing machine of a load cell having an IP address according to the present invention.

9 is a schematic diagram of a bridge type structure of a load cell having an IP address according to the present invention.

10 is a schematic diagram of a column type structure of a load cell having an IP address according to the present invention.

11 is a schematic diagram of a plug-in type structure of a load cell having an IP address according to the present invention.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings and embodiments.

As shown in FIG. 1, the load cell having an IP address of the present invention includes a power supply 1 and a weight sensor 2, which is a bridge power supply and an electric power supply. And an IP conversion board or IP conversion box 3 capable of converting analog signals output by the weight sensor 2 into digital signals, wherein the power supply 1, the weight sensor 2, and The IP conversion board or IP conversion box 3 is continuously connected in series.

The IP conversion board or IP conversion box 3 comprises an operational amplifier 4, an A / D converter 5, a logic controller 6, an Mcu microcontroller or a DSP digital signal processor 7, a program memory 8 and It includes an Ethernet controller 9 connected to a computer or an Ethernet weighing meter and having an IP address. The signal output terminal of the weight sensor 2 is connected to the signal input terminal of the operational amplifier 4, and the operational amplifier 4 is connected to the Mcu microcontroller or DSP digital signal processor through the A / D converter 5 7), the Ethernet controller 9, the logic controller 6 and the program memory (8). The operational amplifier circuit of the operational amplifier 4 includes a 12V power supply, an INA128 chip and an R19 resistor.

As shown in FIG. 2, the weight sensor 2 has a resistance strain type sensor having a bridge circuit including two strain resistances and two equivalent-value resistances. )to be. Lead 1 of the bridge circuit is connected to the positive pole of the power supply 1, lead 2 of the bridge circuit is connected to pin 2 of the INA128 chip of the operational amplifier 4, and lead 3 of the bridge circuit. Is grounded, and lead 4 of the bridge circuit is connected to pin 3 of the INA128 chip of the operational amplifier 4.

As shown in FIG. 3, pin 7 of the INA128 chip of the operational amplifier 4 is connected to the positive pole of the 12V power supply, and pin 4 of the INA128 chip is connected to the negative pole of the 12V power supply. Pins 1 and 8 of the INA128 chip are connected to the R19 resistor, pin 2 of the INA128 chip is connected to the lead 2 of the weight sensor 2, and pin 3 of the INA128 chip is the weight Pin 4 of the sensor 2, pin 5 of the INA128 chip is grounded, pin 6 of the INA128 chip is connected to resistor R1 in series, and pin 9 of the A / D converter 5 is then connected. Is connected to.

As shown in FIG. 4, the conversion circuit of the A / D converter 5 includes an A / D converter 5, a resistor R1 and a capacitor C1. Pin 9 of the A / D converter 5 is connected in series with the resistor R1 and then connected to pin 6 of the INA128 chip of the operational amplifier 4, and pin 9 of the A / D converter 5 is The signal is grounded in series with the capacitor C1, and the pin 19 of the A / D converter 5 is connected to the pin 35 of the logic controller 6, and the A / D converter 5 Pin 20 of is connected to pin 36 of the logic controller 6.

As shown in Fig. 5, the logic controller 6 is a PLD element. Pin 35 of the PLD is connected to pin 19 of the A / D converter 5, pin 36 of the PLD is connected to pin 20 of the A / D converter 5, and 50 of the PLD is connected. Pin 1 is connected to the anode of the power supply 1, pin 25 of the PLD is grounded, and pin 78 of the PLD is connected to pin 108 of the digital signal processor 7.

As shown in Fig. 6, the digital signal processor 7 is an Mcu microcontroller or a DSP digital signal processor and its digital signal processing circuitry connects the Mcu microcontroller or DSP digital signal processor 7 and a power supply 1 to each other. Include. Pin 11 of the Mcu microcontroller or DSP digital signal processor 7 is connected to pin 5 of the program memory 8 and pin 13 of the Mcu microcontroller or DSP digital signal processor 7 is the power. Pin 14 of the Mcu microcontroller or DSP digital signal processor 7 is connected to pin 8 of the program memory 8 and connected to the positive terminal of the supply 1, and the Mcu microcontroller or DSP digital signal processor Pins 12 of (7) are grounded, and pins 4, 5, 6 and 7 of the Mcu microcontroller or DSP digital signal processor 7 are connected to the computer or Ethernet weighing machine respectively and the IP address is Are connected to pins 1, 2, 3, and 6 of the Ethernet controller 9.

As shown in FIG. 7, the program memory circuit of the program memory 8 includes a program memory 8 and a power supply 1. Pin 6 of the program memory 8 is connected to the positive pole of the power supply 1, pin 7 of the program memory 8 is grounded, and pin 5 of the program memory 8 is the Mcu. Pin 11 of the microcontroller or DSP digital signal processor 7 and pin 8 of the program memory 8 are connected to pin 14 of the Mcu microcontroller or DSP digital signal processor 7.

As shown in Fig. 8, pins 1, 2, 3 and 6 of the Ethernet controller 9 having the IP address are respectively 4, 5, 6 and 6 of the digital signal processor 7; It is connected to pin 7.

As shown in Figs. 9 and 10, the IP conversion board 3 is coupled to a bridge type and column type weight sensor 2, respectively. As shown in FIG. 11, the IP conversion box 3 is also connected to the weight sensor 2 via a cable 14 and then to a computer or an Ethernet weighing machine.

The load cell having an IP address of the present invention is formed by connecting a power supply 1, the weight sensor 2, and the IP conversion board or IP conversion box 3. The operation of the load cell is described below. When the load cell having the IP address is loaded by weight or pressure, analog electrical signals are output by the metal elastic body 10 and the resistance strain gage 11. The analog electrical signals are output through leads 2 and 4 of the weight sensor 2 and then input to pins 2 and 3 of the operational amplifier 4. After being amplified in the operational amplifier 4, the analog electrical signals are transferred from the pin 6 of the operational amplifier 4 to the A / D analog-to-digital converter 5 and converted into digital signals. The converted digital signals are transferred from pins 19 and 20 of the A / D analog-to-digital converter 5 to pins 35 and 36 of the logic controller 6. Under the control of an Mcu microcontroller or DSP digital signal processor 7, the logic controller 6 outputs the digital signals from pin 78 and forwards them to pin 108 of the DSP digital signal processor 7. The DSP digital signal processor 7 executes commands in the program memory 8 and outputs data as an Ethernet signal through the Ethernet controller 9, which is transmitted to a computer or an Ethernet weighing machine.

For the load cell having the IP address of the present invention, circuit inspection and parameter correction will be performed. At the stage of detection and application, angular differences will be tested and calibrated.

During the maintenance, by inputting the original parameters of the load cell with the IP address via Ethernet, the data of the electronic scale instrument can be kept unchanged. Using the weighing software provided by the manufacturer, the user can independently combine an IP addressed load cell with various electrical calibration instruments. If the volume of the weight sensor 2 permits, an IP conversion board 3 that converts the analog signals of the weight sensor 2 into Ethernet signals can be coupled to the weight sensor 2. If the volume of the weight sensor 2 is relatively small, the analog signals output by the weight sensor 2 are transmitted to the IP conversion box 3 via the cable 14 and then converted into Ethernet signals. Is output.

Claims (10)

Power supply 1; And A weight sensor 2, The power supply 1 is a bridge power supply and an electric power supply, And an IP conversion board or IP conversion box 3 capable of converting analog signals output by the weight sensor 2 into digital signals, wherein the power supply 1, the weight sensor 2, and The IP conversion board or IP conversion box 3 is connected in series continuously, The IP conversion board or IP conversion box 3 comprises an operational amplifier 4, an A / D converter 5, a logic controller 6, an Mcu microcontroller or a DSP digital signal processor 7, a program memory 8 and An Ethernet controller 9 connected to a computer or an Ethernet weigher and having an IP address, The signal output terminal of the weight sensor 2 is connected to the signal input terminal of the operational amplifier 4, and the operational amplifier 4 is connected to the Mcu microcontroller or DSP digital signal processor through the A / D converter 5 7), connected to the Ethernet controller 9, the logic controller 6 and the program memory 8, The operational amplifier circuit of the operational amplifier (4) comprises a 12V power supply, an INA128 chip and an R19 resistor. The method of claim 1, The weight sensor 2 is a resistance strain type sensor having a bridge circuit comprising two strain resistances and two equivalent-value resistances, Lead 1 of the bridge circuit is connected to the positive pole of the power supply 1, lead 2 of the bridge circuit is connected to pin 2 of the INA128 chip of the operational amplifier 4, and lead 3 of the bridge circuit. Is grounded, lead 4 of the bridge circuit is connected to pin 3 of the INA128 chip of the operational amplifier (4), Pin 7 of the INA128 chip of the operational amplifier 4 is connected to the positive pole of the 12V power supply, pin 4 of the INA128 chip is connected to the negative pole of the 12V power supply, and pin 1 of the INA128 chip 8 Pin 1 is connected to the R19 resistor, pin 2 of the INA128 chip is connected to lead 2 of the weight sensor 2, and pin 3 of the INA128 chip is lead 4 of the weight sensor 2 Pin 5 of the INA128 chip is grounded, and the pin 6 of the INA128 chip is connected to a resistor R1 in series and then connected to pin 9 of the A / D converter 5. Load cell having. The method of claim 1, The conversion circuit of the A / D converter 5 includes an A / D converter 5, a resistor R1 and a capacitor C1; Pin 9 of the A / D converter 5 is connected in series with the resistor R1 and then connected to pin 6 of the INA128 chip of the operational amplifier 4, and pin 9 of the A / D converter 5 is The signal is grounded in series with the capacitor C1, and the pin 19 of the A / D converter 5 is connected to the pin 35 of the logic controller 6, and the A / D converter 5 Pin 20 is connected to pin 36 of the logic controller 6, The logic controller 6 is a PLD element; Pin 35 of the PLD is connected to pin 19 of the A / D converter 5, pin 36 of the PLD is connected to pin 20 of the A / D converter 5, and 50 of the PLD is connected. The pin 1 is connected to the anode of the power supply 1, the pin 25 of the PLD is grounded, and the pin 78 of the PLD is connected to pin 108 of the digital signal processor 7. Load cell with address. The method of claim 1, Said digital signal processor (7) is an Mcu microcontroller or DSP digital signal processor and its digital signal processing circuit comprises an Mcu microcontroller or DSP digital signal processor (7) and a power supply (1); Pin 11 of the Mcu microcontroller or DSP digital signal processor 7 is connected to pin 5 of the program memory 8 and pin 13 of the Mcu microcontroller or DSP digital signal processor 7 is the power. Pin 14 of the Mcu microcontroller or DSP digital signal processor 7 is connected to pin 8 of the program memory 8 and connected to the positive terminal of the supply 1, and the Mcu microcontroller or DSP digital signal processor Pins 12 of (7) are grounded, and pins 4, 5, 6 and 7 of the Mcu microcontroller or DSP digital signal processor 7 are connected to the computer or Ethernet weighing machine respectively and the IP address is Connected to pins 1, 2, 3, and 6 of the Ethernet controller 9, The program memory circuit of the program memory 8 comprises a program memory 8 and a power supply 1; Pin 6 of the program memory 8 is connected to the positive pole of the power supply 1, pin 7 of the program memory 8 is grounded, and pin 5 of the program memory 8 is the Mcu. Pin 11 of the microcontroller or DSP digital signal processor 7 and pin 8 of the program memory 8 are connected to pin 14 of the Mcu microcontroller or DSP digital signal processor 7. Load cell having an IP address. The method of claim 1, Pins 1, 2, 3 and 6 of the Ethernet controller 9 having the IP address are connected to pins 4, 5, 6 and 7 of the digital signal processor 7, respectively. IP conversion board or IP conversion box (3) is a load cell having an IP address, characterized in that coupled to the weight sensor (2) or connected to the weight sensor (2) via a cable (14). delete delete delete delete delete

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