KR970008083B1 - Vehicle weighing system - Google Patents

Abstract

A car weighing system capable of controlling weighing information by using a wireless transmitter is disclosed. In the system, a microcomputer(14) performs a weighing process of a weighing room and a weighing room process and performs an on line real time process with a host computer(15). An optical transmitter(21) is connected to the microcomputer(14) and transmits weighing information with a weighing room through an optical cable. A weight detector(20) detects a weight of the car. An A/D converter(13) converts the detected weight of the car into a digital signal. A detector(16) detects a location of the car. An antenna(12) receives a wireless signal from a tag(11).

Description

Mock wire wheel decoration assembly

1 is a work flow diagram for measuring the weight of a vehicle with a conventional vehicle weighing system.

2 is a block diagram of a conventional vehicle weighing system.

Figure 3 is a work flow chart for measuring the weight of the vehicle with the vehicle weighing system of the present invention.

4 is a block diagram of the vehicle weighing system of the present invention.

* Explanation of symbols for main parts of the drawings

1: punched card 3: card reader

4,14: microcomputer 5,15: host computer

7,13: A / D converter 9,19,19a: Weighbridge

10,20: weight detector 10a, 16: detector

21: optical transmission device 22: pre / optical converter

23: data link 24: data mux

A: Weighing Room B: Integrated Control Room

The present invention relates to a vehicle weighing system for measuring the weight of a vehicle, and more particularly, to a vehicle weighing system using a wireless transmitter capable of integrated management of weighing information input for each weighing room.

1 is a work flow chart for measuring the weight of a vehicle using a conventional vehicle weighing system. The vehicle to be weighed is picked up by a vehicle driver, and a plurality of punched cards 1 for each type of weighing are placed in a card reader 3 installed at the entrance of the weighing room. After reading the vehicle number and so on, match the vehicle to the weighbridge (9) and zero-car weighing.After the weighing, the vehicle is unloaded at the unloading place and weighed again at the weighbridge (9). The vehicle was weighed by receiving 6).

That is, the card reader 3 and the weight detector 10 of the weighing table 9 are connected to the microcomputer 4 installed in the weighing chamber as shown in the block diagram shown in FIG. The vehicle number is input to the processor 8 of the microcomputer 4, and then the analog signal measured by the weight detector 10 installed on the weighing table 9 is converted into a digital signal by the A / D converter 7 to convert the processor ( 8) is to be entered. Therefore, even at the time of tolerance measurement, the weighing information according to the vehicle weighing is inputted to the processor 8 and is database-stored and stored by the program pre-inputted in the processor 8 and transmitted to the host computer 5 through the transmission path. The host computer 5 aggregates and manages the weighing information transmitted from each weighing room.

However, the above-described conventional vehicle weighing system does not perform online real time processing since the transfer of weighing information to the microcomputer 4 and the host computer 5 installed in each weighing chamber is performed as a batch job. There was a problem that it took a long time to weigh the vehicle, and some codes such as product name code could not be displayed by punching the punching information on the punched card, and the vehicle that performed two weighings (zero and tolerance) was the same. In order to perform the weighing, the driver must get off and directly insert several punch cards for each weighing type into the card reader for the vehicle number and weighing information. There is a problem in that the inconvenience of using to hold a card and the excessive amount of time to weigh, paper cloth By using the card, there is difficulty in management due to recognition error, wear, limitation of recording of weighing information, and issuance at any time, and the worker has to work all the time in each weighing room, and additional workers are needed due to manual counting of various weighing tables. There was a problem of wasted work.

The present invention has been invented to solve various problems of the conventional vehicle weighing system. Instead of using a punch card, the information stored in the tag is stored using a tag storing a vehicle number and weighing information. The purpose of the present invention is to provide a vehicle weighing system using a wireless transmitter which can operate the metering room unattended by transmitting the radio to the integrated control room and can store and operate the metering information in the integrated control room.

The vehicle weighing system of the present invention for achieving the above object is a vehicle weighing system having a weighing table 19, a VTR 27, a monitor 28, an electric signboard 29 and a camera 31. A microcomputer 14 which performs processing and weighing performance processing and performs online real time processing with the host computer 15, and a microcomputer 14 of the integrated control room B, The digital signal is connected to the optical transmission device 21 for optically transmitting the measurement information with the measurement room A, the weight sensor 20 for measuring the weight of the vehicle, and the weight detector 20 through the digital signal. The optical transmitter 21 is connected to the A / D converter 13 for converting, the detector 16 for monitoring the position of the vehicle, the antenna 12 and the controller 17 for receiving the radio signal transmitted from the tag 11, and the controller 17. Characterized in that configured.

In addition, the optical transmission device 21 is composed of a pre / optical converter 22, a data link 23, a data mux 24.

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

In the present invention, the tag 11 used as the wireless transmitter is classified by code such as product name, origin, destination, transport company, contract number, and the like so that the vehicle driver can easily operate the tip switch of the tag 11. In addition, the information necessary for the adjustment of the controller 17 may be separately adjusted through the antenna 12, and the tag 11 may be attached to the vehicle or directly operated by hand.

As shown in FIG. 4, the present invention provides a microcomputer 14 for performing weighing processing of each weighing chamber, weighing record processing, online real-time processing with the host computer 15, output of various weighing records, and screen support. A weight detector 20 for measuring the weight of the vehicle, an A / D converter 13 for converting the weight value measured by the weight detector 20 into a digital signal, and installed on the floor of the weighing table 19 to adjust the position of the vehicle The controller 16, the metering room A, and the integrated control room B, which transmits radio signals from the detector 16 and tag 11 to detect and convert the signals received by the antenna 12 into digital signals and output them to the optical transmission device 21. The optical transmission device 21 for optically transmitting the metering information between the microcomputer 14 of the () is interconnected.

The optical transmission device 21 is composed of an electrical / optical converter 22, a data link 23, and a data mux 24, the electrical / optical converter 22 is a video or audio signal to the optical cable 26 It is for converting the optical signal transmitted or transmitted to the integrated control room (B) through the VTR (27) and the monitor 28 as an electrical signal, the data mux 24 and the digital signal transmitted from the controller 17 The signal measured by the detector 16 installed in the weighbridge 19 and the digital signals converted by the A / D converter 13 are combined and transmitted to the data link 23, or the signal transmitted through the optical cable 26 It is for transmitting the electric signal converted in the data link 23 of the integrated control room (B) to the microcomputer (14). In addition, the data link 23 converts an electrical signal excluding an image (or audio) signal into an optical signal or converts the transmitted optical signal into an electrical signal and outputs the electrical signal to the data mux 24 of the integrated control room B. .

First, when the signal received by the antenna 12 by the radio transmission from the tag 11 is input to the controller 17, the signal is converted into a digital signal is input to the microcomputer 14 by the optical transmission device 21, so The microcomputer 14 analyzes an input signal using various code tables (vehicle code, product name code, etc.), and then sends a signal to the electronic display panel 29 through the optical transmission device 21 to "measure" the electronic display panel 29. After the vehicle driver confirms this and enters the vehicle on the weighbridge 19, the microcomputer 14 analyzes the signal detected by the detector 16 to display a notice such as “move forward position”. 29), the vehicle stops at the correct position and the vehicle is weighed.

When the vehicle is positioned on the weighbridge 19, the microcomputer 14 inputs the A / D converter 13, the optical transmission device 21, etc., which change the weight value measured by the weight detector 20 into a digital signal. Receive and store each item in a file (File) and calculates the actual weight of the shipment by comparing it with the tolerance measurement, and prints the printer 32 to issue a slip (30).

The vehicle driver who has finished weighing at the weighbridge 19 checks the sign "Weighing completed" on the display board 29 and unloads the cargo at the unloading place and closes to the weighbridge 19, which has weighed zero cars. The vehicle weighing is completed by receiving the document 30 by tolerance measuring in 19a.

On the other hand, the camera 31 installed in the metering room (A) photographs the vehicle number of the entering vehicle, the departure of the transport, and the like, and monitors it through the monitor 28 installed in the integrated control room (B) and simultaneously records in the VTR 27 By doing so, the unmanned weighing can be done effectively.

As shown in FIG. 3, the working process procedure of the present invention has a similar aspect as compared with the prior art, but the present invention does not necessarily have a tolerance weighing on the weighing table where the zero difference weighing is performed, so that the weighing process can proceed efficiently and quickly. In addition, it is possible to unify the weighing work by integrating and managing the weighing information measured in each weighing room in the integrated control room, and it is possible to operate the unmanned weighing room by using the camera and the sign board, thus preventing the waste of manpower. have.

Claims (2)

In a vehicle weighing system including a weighing table 19, a VTR 27, a monitor 28, an electronic sign 29, and a camera 31, each weighing chamber weighing process and a weighing record process are performed and It is connected to the microcomputer 14 that performs online real time processing and the microcomputer 14 of the integrated control room B, and optically transmits the weighing information with the metering room A through the optical cable 26. To the optical transmission device 21, the weight detector 20 for measuring the weight of the vehicle, the A / D converter 13 for converting the measured weight value into a digital signal and the position of the vehicle. Vehicle measuring system using a wireless transmitter, characterized in that the optical transmission device 21 is connected to the detector (16), the antenna (12) and the controller (17) receiving the radio signal transmitted from the tag (11). 2. The vehicle weighing system using a wireless transmitter according to claim 1, wherein the optical transmission device (21) is composed of an electric / optical converter (22), a data link (23), and a data mux (24).