JPH0350662B2 - - Google Patents

Description

[Detailed Description of the Invention] [Industrial Application Field] The present invention is a system in which work instructions for workpieces on a production line are given at each work station based on information transmitted from a mobile communication device attached to the workpiece. Concerning an article manufacturing control system.

[Conventional technology]

Conventionally, as a manufacturing control system for this type of article, there is one described, for example, in Japanese Patent Application Laid-Open No. 57-211437. This system has a basic configuration in which a mobile communication device is attached to the workpiece on the production line, and a fixed communication device is installed at each work station to transmit information to and from the mobile communication device. Transmit work-specific information (specifications, model, standards, etc.) fixedly stored in the device from the mobile communication device, and perform work at the work station based on the above-mentioned unique information received by the fixed communication device. Directives are beginning to be given.

By the way, in the above system, the unique information stored in the mobile communication device attached to the workpiece is fixed, so it is impossible to change the specifications for the workpiece within the production line, and the production plan cannot be changed. The drawback was that it was not possible to respond to changes in a timely manner.

Therefore, the inventors of the present application solved the above drawbacks,
We have proposed a system in Japanese Patent Application No. 59-226686 that allows specifications to be changed for workpieces within the production line. This involves new writing of information to be sent to the work station (work information for the work) in the mobile communication device attached to the workpiece based on commands from the fixed communication device installed corresponding to each work station. The device is equipped with a storage means (specifically, a RAM) that enables the storage.

According to such a system, at one work station, when data corresponding to new production information is input from a terminal device connected to a fixed communication device, for example, data corresponding to new production information is input based on instructions from the fixed communication device that input this data. The above storage means (RAM) in the mobile communication device attached to the target work
The above new production information is written in. and,
At the subsequent work station, new production information written in this storage means (RAM) is transmitted from the mobile communication device, and the new production information written in this storage means (RAM) is transmitted from the mobile communication device, and the corresponding processing is performed based on the new production information from the mobile communication device received by the fixed communication device. A work order is issued at a work station. Therefore, specifications for the workpiece can be changed within the production line.

[Problem that the invention seeks to solve]

However, in the case of the above-mentioned product manufacturing control system, when rewriting the contents of the storage means (RAM) or reading information at each work station, there is a risk of information destruction due to external disturbances (noise, etc.). Therefore, in the case where the information in the storage means (RAM) is lost, it is not possible to identify the workpiece to which the mobile communication device is attached, so the original production information cannot be stored in the storage means (RAM).
cannot be reproduced within.

[Means for solving problems]

The present invention has been made by focusing on the above-mentioned problems, and provides an article that allows the original information to be reproduced in the storage means (RAM) even if the information in the storage means (RAM) is lost. This realizes a manufacturing management system. In addition to the above-mentioned storage means (RAM) in the mobile communication device, the configuration can be read based on commands from the fixed communication device installed corresponding to each work station, and the unique information given to the work Another read-only storage means in which number information is stored in advance is provided.

[Embodiments of the Invention] Hereinafter, embodiments of the present invention will be described based on the drawings.

Taking automobile manufacturing as an example, the basic configuration of the system is shown in FIG. 3.
In the figure, 1 is a production line composed of conveyors, etc., 2 is a car body as a workpiece, and a mobile communication device 10 is attached to a predetermined part of the car body 2 being transported on the production line 1 (this The mobile communication device 10 is attached to the vehicle body 2, for example, in the first step of the manufacturing line 1). On the other hand, a fixed communication device 30 is installed at each work station for transmitting information with the mobile communication device 10, and this fixed communication device 30 is always activated within a predetermined range of the production line 1 via an antenna 31. Information is being sent. This fixed communication device 30
When the vehicle body 2 moves within a range where activation information is received from the mobile communication device 10, the mobile communication device 10 is activated based on the activation information and transmits production information stored in advance. The production information transmitted from the mobile communication device 10 in this way is transmitted to the antenna 31.
When the fixed communication device 30 receives the production information via Issue work instructions. For example, a robot installed at the work station performs a predetermined work on the vehicle body 2 in accordance with the work command.

Here, mobile communication device 1 attached to vehicle body 2
The specific configuration of 0 is shown in FIG. 1, for example.

In the figure, reference numeral 11 is a writable memory (hereinafter referred to as RAM) that stores production information (specifications, model, standards, etc.) for the vehicle body 2, and the information in this RAM 11 is stored, for example, in the initial process of the manufacturing line 1. It can be written or rewritten at any work station. Reference numeral 12 denotes a read-only memory (hereinafter referred to as ROM) that stores number information unique to the vehicle body 2 based on, for example, the series of orders in which the vehicle body 2 is put into the production line 1, and the number information in this ROM 12 is as follows. For example, the number information is written in advance by a ROM writer or the like before the vehicle body 2 is put on the production line 1. In this case, when the mobile communication device 10 is attached to the vehicle body 2, the number information in the vehicle body 2 and the ROM 12 is A one-on-one correspondence will be taken.

13a and 13b are receiving and transmitting antennas, respectively;
14 is an amplifier that amplifies the signal (for example, based on the PCM system) from the fixed communication device 30 that is input via the receiving antenna 13a, 15 is a demodulation circuit that demodulates the received signal via the amplifier 14, and 16 is the fixed communication device 30. The demodulation signal from the demodulation circuit 15 based on the signal from the RAM 11 or the ROM is input, and the command information contained in this signal is input.
This is a comparison circuit that compares and determines whether it is a write or read command for 12. 17
is the RAM via this comparison circuit 16 according to the command information (write command) determined by the comparison circuit 16.
A shift register 11 serially stores and outputs the signal data to be written in. A gate circuit 18 distributes the signal data via the shift register 17 to the RAM 11 in accordance with the above command information.
In addition, 19 and 20 are unique oscillation frequencies ₁ and _2, respectively.
₁ from oscillator 19.
The signal is used as a timing signal in the shift register 17. 21 is RAM1 read out according to the above command information (read command)
A gate output circuit 22 switches the output of data signals from the RAM 11 or the ROM 12 via the gate output circuit 21 to the oscillators 19, 22 corresponding to "0" or "1" thereof. 20 is a modulation circuit that modulates the signal ₁ and ₂ from the modulation circuit 22; 23 is an amplifier that amplifies the modulation signal from the modulation circuit 22;
A predetermined amplification is performed on the modulated signal based on the information read from the ROM 12, and the transmitting antenna 13
It is now transmitted from b. In addition, 2 in the figure
4 is a power switch, and this power switch 24
When the mobile communication device 10 receives the activation information from the fixed communication device 30, the battery B is sent to each part.
It supplies power.

On the other hand, the specific configuration of the fixed communication device 30 installed at each work station is, for example, as shown in FIG. Demodulation circuit 33 demodulating the output signal, demodulation circuit 3
The mobile communication device 10 has a microcomputer 36 for processing demodulated signals from the mobile communication device 10.
, that is, the production information stored in the RAM 11 or the unique number information of the vehicle body 2 stored in the ROM 12.
The arithmetic processing results are transmitted to the control computer 40 via the interface circuit 37. The microcomputer 36 also has a function of creating production information to be transmitted to the mobile communication device 10 based on operation input from an externally provided keyboard device (not shown). The data created in step 36 is transmitted to the mobile communication device 10 via the modulation circuit 35, the amplifier circuit 34 and the transmission antenna 31b. Here, the modulation circuit 35 receives data from the microcomputer 36, for example.
It is PCM modulated, and the format of this modulation signal is that command information (read and write commands for RAM 11, read commands for ROM 12, etc.) is placed before the part corresponding to the original production information.
has been added.

In the above-described system, normally at each work station, the mobile communication device 10 is activated upon receiving activation information from the fixed communication device 30;
Furthermore, in the comparison circuit 16, if the command from the fixed communication device 30 is a read command, the RAM 11
The production information in the ROM 12 and the number information in the ROM 12 are transmitted. When the fixed communication device 30 receives the above-mentioned production information and number information, the internal microcomputer 36 performs a general error check, etc., and also performs arithmetic processing on the received data, and outputs the corresponding production information and number information. It is transmitted to the control computer 40. After that, the control computer 40 compares the input production information with information stored in advance regarding the vehicle body 2 specified by the number information, confirms whether the production information is for the vehicle body 2, and determines whether the production information is for the vehicle body 2. 2, a work command based on the input production information is transmitted to a robot or the like installed at the work station.

Furthermore, when changing the specifications of the vehicle body 2 within the production line 1, the fixed communication device 30 processes the change work information input from the keyboard device etc. using the internal microcomputer 36, and updates the new production line with the written information. Submit information. When the mobile communication device 10 attached to the vehicle body 2 receives the information and the internal comparison circuit 16 determines that it is a write command, the subsequent new production information is transmitted via the shift register 17 and the gate circuit 18. The data is sequentially written to RAM11 serially. When the new production information is written to the RAM 11 in this manner, the new production information will be read from the RAM 11 in the same manner as described above at subsequent work stations, and work will be performed in accordance with the specification change. Furthermore, when the RAM 11 is rewritten in this way, the control computer 4
0, the information stored in advance regarding the vehicle body 2 specified by the number information is changed in accordance with the rewriting.

In the process of normal operation as described above, if the information in the RAM 11 is destroyed due to a disturbance or the like, the information in the mobile communication device 10 is destroyed at the work station based on a command from the fixed communication device 30.
When each piece of information in the RAM 11 and ROM 12 is read out, the control computer 40 reads the production information corresponding to the stored information because the information stored corresponding to the number information and the production information do not match. Commands new writing. Then, based on the command from the fixed communication device 30, the mobile communication device 1
The production information is written in the RAM 11 in the mobile communication device 10 in the same manner as described above, and the original production information is reproduced in the mobile communication device 10.

Note that the mobile communication device 10 is fixed to a holder 50, for example, as shown in FIG.
will be attached to a work such as the vehicle body 2, and a card 60 is inserted into this holder 50 with a clip 51 etc., and the production information in the RAM 11 in the mobile communication device 10 is stored on this card 60.
If the number information in the ROM 12 is recorded, the manufacturing management system can be applied even to a line that is not completely automated and includes some manual work steps. That is, in the manual work process, work is performed according to the production information written on the card 60. Furthermore, when the contents of the RAM 11 in the mobile communication device 10 are rewritten, the card 60 is updated in accordance with the rewritten information.
All you have to do is change the description.

Furthermore, the present invention is not limited to the manufacture of automobile bodies, but can of course be applied to the manufacture of units such as engines, electrical appliances, parts, etc.

〔Effect of the invention〕

As explained above, according to the present invention, in addition to the storage means in which new production information can be written in the mobile communication device, it is also possible to read out production information based on commands from the fixed communication device. Since a read-only storage means is provided in which the assigned unique number is stored in advance, the host device following the fixed communication device can identify the workpiece based on the above unique number information read by the fixed communication device. Therefore, even if the contents of the writable storage means are destroyed, the original production information can be reproduced in the mobile communication device based on the unique number management information. Therefore, a more reliable system can be realized.

[Brief explanation of drawings]

FIG. 1 is a block diagram showing a specific example of a mobile communication device in an example of the product manufacturing management system according to the present invention when the manufacturing of automobiles is assumed, and FIG. A block diagram showing a specific example of a fixed communication device in an example of such a manufacturing management system for automobiles, FIG. FIG. 4 is a perspective view showing an example of how the mobile communication device is attached. 10...Mobile communication device, 11...RAM, 12
...ROM, 13a...Receiving antenna, 13b
...Transmission antenna, 14, 23...Amplifier, 1
5... Demodulation circuit, 16... Comparison circuit, 17... Shift register, 18... Gate circuit, 19, 20
...Oscillator, 21...Gate output circuit, 22...
Modulation circuit, 30... Fixed communication device, 31... Transmission/reception antenna, 32, 34... Amplification circuit, 33...
... Demodulation circuit, 35 ... Modulation circuit, 36 ... Microcomputer, 37 ... Interface circuit,
40... Control computer, 50... Holder,
51...Clip, 60...Card.

Claims (1)

[Claims] 1. It has a mobile communication device attached to a workpiece on a production line, a fixed communication device installed corresponding to each work station and transmitting information with the mobile communication device, and a fixed communication device installed in the mobile communication device. , comprising a storage means that enables new writing of production information for the workpiece based on commands from the fixed communication device, and receives production information in the storage means transmitted from the mobile communication device by the fixed communication device. In an article manufacturing management system that issues work instructions for workpieces at the work station based on production information received by the fixed communication device, the mobile communication device includes a communication device that receives information from the fixed communication device. What is claimed is: 1. A manufacturing management system for articles, which is capable of being read based on a command, and further comprises a read-only storage means that stores in advance unique number information given to the workpiece.