JPH0946294A - Printing data communication system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To surely transmit printing data even when communication impossibility is caused by electromagnetic wave noise, etc., when printing data is transmitted from a portable terminal equipment to a printer device by radio communication. SOLUTION: When printing data is transmitted from the portable terminal equipment 1 by feeble radio waves, the portable terminal equipment 1 is mounted on a label printer 2 unless printing is normally operated on the label printer 2 side. Then, printing data is transmitted from the portable terminal equipment to the label printer 2 by infrared-ray communication.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to print data communication provided with a mobile terminal device for transmitting print data and a printer device for receiving print data transmitted from the mobile terminal device and performing a printing operation. Regarding the system.

[0002]

2. Description of the Related Art Conventionally, in the package receiving business of the transportation industry,
Each worker has a mobile terminal device with a barcode scanner,
A portable label printer for performing label printing is provided, and when the barcode attached to the luggage is read by the portable terminal device, the portable terminal device generates print data based on this barcode and the print data is printed by the label printer. Send to. As a result, the label printer performs a printing operation and issues a label. Here, weak wireless communication or specific low power wireless communication has been used as means for communicating print data from the mobile terminal device to the label printer.

[0003]

However, in particular,
Since the surrounding environment is constantly changing outdoors, if weak radio is used, it often becomes impossible to communicate due to the influence of electromagnetic noise, which is particularly noticeable near a television tower. In addition, if the low power radio is used, the size of the transmission unit becomes large, so it is not suitable for portable use, and since radio waves cannot be emitted unless the availability of 4 channels is confirmed by carrier sense, data transmission to the printer is delayed. Occurs. An object of the present invention is to make it possible to reliably transmit print data even when communication failure occurs due to electromagnetic wave noise or the like when print data is transmitted from a mobile terminal device to a printer device by wireless communication.

[0004]

The means of the present invention are as follows. In a print data communication system including a mobile terminal device that communicates print data and a printer device that receives the print data transmitted from the mobile terminal device and performs a printing operation, the mobile terminal device wirelessly transmits the print data. A wireless transmission means for transmitting by communication and an optical transmission means for transmitting print data by optical communication, wherein the printer device receives the print data wirelessly communicated from the mobile terminal device, and the mobile terminal device. From the wireless transmission means to the optical transmission means, and a detection means for detecting switching between the wireless transmission means and the optical transmission means is provided, and the wireless transmission is performed according to the detection result of the detection means. Means or optical transmission means is selectively activated. While the mobile terminal device is attached to the printer device,
The detection means may activate the optical transmission means. Further, the wireless transmission means may be a weak wireless communication means, and the optical transmission means may be an infrared communication means. Now, when the print data is transmitted by the wireless transmission means, whether or not communication is impossible can be confirmed by, for example, whether or not the printing operation is normally performed on the printer device side. Here, when the portable terminal device is attached to the printer device side, for example, when it is confirmed that communication is impossible, the detection unit activates the optical transmission unit instead of the wireless transmission unit. Therefore, when print data is transmitted from the mobile terminal device to the printer device by weak radio, the print data can be reliably transmitted even if communication failure occurs due to electromagnetic noise or the like.

[0005]

BEST MODE FOR CARRYING OUT THE INVENTION An embodiment of the present invention will be described below with reference to FIGS. FIG. 1 is an external view showing a mobile terminal device and a mobile label printer that form a print data communication system. The mobile terminal device 1 has a bar code scanner, and its entire shape is a hand scanner type. When the barcode is read by the mobile terminal device 1, the mobile terminal device 1 generates print data based on the barcode and transmits the print data to the label printer 2 side by weak wireless communication or infrared communication. That is, in the present embodiment, a so-called two-way method in which when the print data is transmitted to the label printer 2 by weak radio and communication becomes impossible, the portable terminal device 1 is mounted on the label printer 2 and switched to infrared communication, It is adopted. The label printer 2 is attached to the waist belt of the worker, prints the label of the print data transmitted from the mobile terminal device 1, and issues the label R.

FIG. 2 is a block diagram of the portable terminal device 1. The CPU 1-1 is a central processing unit that controls the overall operation of the mobile terminal device 1 in accordance with various programs stored in the ROM 1-2.
U1-1 has a keyboard 1-3 and a barcode scanner 1
-4, display device 1-5, weak radio transmission device 1-
6. The infrared interface unit 1-7 is connected and controls the input / output operation thereof. The power source unit 1-8 uses a secondary battery as a main power source. When the mobile terminal device 1 is placed on an I / O box or a charger (not shown) to charge the secondary battery, the power supply terminal 1-8 The power supply unit 1-8 is charged via 9. Here, the short circuit detection unit 1-
Reference numeral 10 detects whether or not the mobile terminal device 1 is attached to the label printer 2 based on whether or not the power supply terminal 1-9 is in a short-circuited state, and gives this detection signal to the CPU 1-1. Here, when the mobile terminal device 1 is attached to the label printer 2, the power supply terminals 1-9 are short-circuited, and the CPU 1-1
Switches from weak radio communication to infrared communication based on the detection signal of the short-circuit detector 1-10. Work memory 1-11
Temporarily stores transmission data and reception data, and
The mobile terminal device 1 has a configuration area 1-12 and a form configuration area 1-13.
The form setting area 1-13 is a memory that stores a unique identification code that associates the label printer 2 with the label printer 2.

FIG. 3 is a block diagram of the label printer 2. The CPU 2-1 controls the overall operation of the label printer 2 in accordance with various programs stored in the ROM 2-2. As its peripheral devices, the CPU 2-1 includes a printer 2-3, a weak radio receiver 2-4, and an infrared interface. The unit 2-5 and the micro switch 2-6 are connected to control the input / output operations of them. The micro switch 2-6 detects whether or not the mobile terminal device 1 is attached to the label printer 2, and is turned on when the mobile terminal device 1 is attached. Here, when the micro switch 2-6 is off, the CPU 2-1 controls the feeble wireless reception device 2
-4 is activated to take in the print data wirelessly communicated from the mobile terminal device 1, and the micro switch 2-6
When is turned on, the CPU 2-1 activates the infrared interface unit 2-5, fetches the print data transmitted via infrared communication from the mobile terminal device 1, and stores the work memory 2-7.
To temporarily memorize. The print data in the work memory 2-7 is sent to the printer 2-3 and the label is printed. The work memory 2-7 temporarily stores print data and also has an ID.
It has a setting area 2-8 and a form setting area 2-9.

FIG. 4 shows a portable terminal device 1 and a label printer 2.
It is the figure which showed the mounting part with. On the side of the mobile terminal device 1, a flat plate-shaped protrusion 1-14 provided at the lower end thereof
In addition to the pair of power supply terminals 1-9, the light receiving element 1-15 and the light emitting element 1 which form the infrared interface section 1-7.
-16 and 1-17 are provided. In addition, the light receiving element 1
-15 is a phototransistor and the light emitting element 1-1.
Reference numerals 6 and 1-17 are configured by light emitting diodes, and the light receiving element 1-15 and the light emitting element 1-17 are for infrared communication with the label printer 2, and the light emitting element 1-
Reference numeral 16 denotes infrared communication with the above-mentioned I / O box. Further, on the label printer 2 side, a receiving portion 2-10 into which the lower end portion of the mobile terminal device 1 is inserted is formed at the upper end portion thereof, and a projection portion 1-14 of the mobile terminal device 1 is inserted into the receiving portion 2-10. A mouth 2-11 is formed. A concave-shaped short-circuit terminal 2-12 is constantly urged upward in the insertion port 2-11 by a spring, and when the mobile terminal device 1 is mounted on the label printer 2, the short-circuit terminal 2-12. A pair of power supply terminals 1 to which both legs of -12 correspond
It contacts -9, short-circuits between the pair of power supply terminals 1-9, and turns on the microswitch 2-6. In addition, a light receiving element 2-13 and a light emitting element 2-14, which form an infrared interface section 2-5, are provided in the insertion port 2-11, and when the portable terminal device 1 is attached to the label printer 2. Further, the light receiving element 2-13 faces the light emitting element 1-17 on the side of the mobile terminal device 1, and the light emitting element 2-14 faces the light receiving element 1-15.

Next, the overall operation of the print data communication system will be described with reference to FIGS. Here, FIG.
FIG. 6A shows data transmitted by infrared communication between the mobile terminal device 1 and the label printer 2 at the start of work of the day, and FIG. 6 shows the start of work of the mobile terminal device 1 at the start of work. It is a flow chart showing processing.
First, it is checked whether or not the mobile terminal device 1 is attached to the label printer 2 (step A1), and a standby state is established until it is connected to the printer. Here, when the lower end portion of the mobile terminal device 1 is inserted into the receiving portion 2-10 of the label printer 2 and the pair of power supply terminals 1-9 are short-circuited by the short-circuit terminal 2-12, the short-circuit detection portion 1-10. CP by the detection signal of
U1-1 detects that it is connected to the printer. Then, in order to link the mobile terminal device 1 and the label printer 2, the mobile terminal device 1 transmits an inquiry signal (ENQ signal) to the label printer 2 by infrared communication, and the label printer 2 affirms by infrared communication accordingly. When the response signal (ACK signal) is transmitted (step A2), the mobile terminal device 1 transmits a printer information transmission command to the label printer 2 by infrared communication (step A3). Here, when the ID code and the form information as printer information are transmitted from the label printer 2 by infrared communication, the portable terminal device 1 receives this and reads it into the work memory 1-11 (step A4), The ID code is set in the ID setting area 1-12 (step A5). And the label printer 2
Compare the form information sent from the form information set in the form setting area 1-13,
When a mismatch between the two is detected (step A6), the contents of the form setting area 1-13 are transmitted to the label printer 2 side by infrared communication, and the form setting area 2-
The form information set to 9 is rewritten (step A7). Such processing is processing for matching the ID code and the form information of the mobile terminal device 1 and the label printer 2. Then, the process proceeds to step A8, and a buzzer (not shown) notifies the end of the start-up process.

After that, when the bar code is read by the portable terminal device 1, the printing process according to the flowchart shown in FIG. 7 is executed. First, in order to start up the label printer 2 in the sleep state, dummy data is transmitted by weak radio (step B1). And I
The D code is wirelessly communicated (step B2), and the print data generated based on the bar code information is transmitted by weak radio (step B3). FIG. 5B shows data transmitted from the mobile terminal device 1 to the label printer 2 in this case. As a result, the label printer 2 performs the label printing operation of the print data, but at this time, if the communication is impossible due to electromagnetic noise or the like, the printing operation is not normally performed. Therefore, immediately after reading the barcode, it is possible to confirm whether or not the communication is impossible depending on whether or not the printing operation is normally performed. If the printing operation is normally performed, the confirmation key is operated (step B4).
Then, although the printing process ends, if the confirmation key is not operated, the process proceeds to step B5 to check whether the mobile terminal device 1 is connected to the label printer 2.
Then, until the printer is connected to the printer or the confirmation key is operated, a standby state is set in which steps B4 and B5 are looped. Here, when the portable terminal device 1 is attached to the label printer 2 and the power supply terminals 1-9 are short-circuited, the CPU 1
-1 transmits an ENQ signal by infrared communication to the label printer 2 in order to establish a link between the mobile terminal device 1 and the label printer 2, and when the ACK signal is transmitted from the label printer 2 accordingly. (Step B6), the print data is transmitted to the label printer 2 together with the data print command by infrared communication (Step B7). FIG. 5C shows data transmitted from the mobile terminal device 1 to the label printer 2 in this case.

FIG. 8 is a flow chart showing the weak radio communication operation in the label printer 2. Now, in the sleep mode setting state (step C1), when wireless communication is received (step C2), it is checked whether the data is dummy data (step C3), and the process returns to step C2 until the dummy data is received. Here, when the dummy data is received, the sleep mode is canceled (step C4),
The wireless data is received (step C5). Then, the received ID code is compared with the ID code in the ID setting area 2-8, and on condition that they match (step C6), the data printing operation is started and the label printing is performed (step C7).

In FIG. 9, the portable terminal device 1 has a label printer 2
6 is a flowchart showing an operation of the label printer 2 which is started to be executed when the label printer 2 is connected to. First, after establishing a link between the mobile terminal device 1 and the label printer 2 (step D1), the infrared interface unit 2-5 is activated (step D2). Then, the data transmitted from the mobile terminal device 1 by infrared communication is received (step D3). When the command data is received (step D4), the type of command data is determined (step D5). Here, if the printer information transmission command is transmitted at the start of work, the CPU 2-1 uses the infrared communication to set the printer information in the ID setting area 2-
8, the contents of the form setting area 2-9 the mobile terminal device 1
(Step D6). If it is a data print command, the received print data is printed out and the label is printed (step D7).

As described above, when print data is transmitted from the portable terminal device 1 to the label printer 2 by weak radio, if communication failure occurs due to electromagnetic noise,
Since the portable terminal device 1 is attached to the label printer 2 and switched to infrared communication to transmit print data,
The print data can be reliably transmitted to the label printer 2. Further, whether or not the portable terminal device 1 is attached to the label printer 2 is detected by the short circuit detection unit 1-10 and the micro switch 2-6. Therefore, the weak wireless communication can be automatically switched to the infrared communication. Is possible.

In the above-described embodiment, the portable terminal device 1 and the label printer 2 are brought into contact with each other to perform infrared communication, but infrared communication may be performed in a non-contact state. Further, although the label printer 2 is a portable printer as an example, it may be a stationary printer, and the portable terminal device 1 is not limited to one having a barcode scanner, and may be any portable terminal device. May be.

[0015]

According to the present invention, when print data is transmitted from a portable terminal device to a printer device by wireless communication, the print data can be reliably transmitted even if communication failure occurs due to electromagnetic noise or the like. .

[Brief description of drawings]

FIG. 1 is an external view of a mobile terminal device 1 and a label printer 2 that form a print data communication system.

FIG. 2 is a block configuration diagram of a mobile terminal device 1.

FIG. 3 is a block configuration diagram of a label printer 2.

FIG. 4 is a view showing a mounting portion of the mobile terminal device 1 and the label printer 2.

FIG. 5 is a diagram showing data transmitted between the mobile terminal device 1 and the label printer 2.

FIG. 6 is a flowchart showing a start-up process at the start-up of the mobile terminal device 1.

FIG. 7 is a flowchart showing a printing process that is started when a barcode is read in the mobile terminal device 1.

FIG. 8 is a flowchart showing a weak radio reception operation in the label printer 2.

FIG. 9 is a flowchart showing the operation of the label printer 2, which is started when the mobile terminal device 1 is connected to the label printer 2.

[Explanation of Codes] 1 Mobile terminal device 1-1, 2-1 CPU 1-2, 2-2 ROM 1-6 Weak wireless transmission device 1-7, 2-5 Infrared interface unit 1-9 Power supply terminal 1-10 Short-circuit detection unit 2 Label printer 2-3 Printer 2-4 Weak wireless receiver 2-6 Micro switch 2-12 Short-circuit terminal

Claims (3)

[Claims] 1. A print data communication system comprising: a mobile terminal device for communicating print data; and a printer device for receiving print data transmitted from the mobile terminal device and performing a printing operation. Has a wireless transmission means for transmitting print data by wireless communication and an optical transmission means for transmitting print data by optical communication. The printer device receives wirelessly the print data wirelessly communicated from the portable terminal device. And a light receiving means for receiving print data optically transmitted from the mobile terminal device, and a detecting means for detecting switching between the wireless transmitting means and the optical transmitting means is provided, and the detecting means detects the detecting means. A print data communication system characterized in that the wireless transmission means or the optical transmission means is selectively activated according to the result. 2. The print data communication system according to claim 1, wherein the detecting means activates the light transmitting means while the portable terminal device is mounted on the printer device. 3. The print data communication system according to claim 1, wherein the wireless transmission means is a weak wireless communication means, and the optical transmission means is an infrared communication means.