JP4087598B2 - Printer circuit connection self-diagnosis device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a printer circuit connection self-diagnosis device for determining whether a device such as a thermal head provided in a printer body is connected.
[0002]
[Prior art]
In a printer such as a label printer, an electrical device such as a circuit board and a thermal head or a motor is electrically connected by a connector. In many cases, the front surface is covered with a cover so that an operator cannot easily touch it. Yes.
In such a printer, printing is performed on a printing medium via a connector and a thermal head by a control signal from a microprocessor (CPU) provided on the circuit board, or printing medium is printed via a connector and a motor. Control is carried out.
[0003]
By the way, connectors for electrically connecting circuit boards and devices such as thermal heads and motors are often removed during device replacement, maintenance, and inspection, but they are not easily touched by operators. Since the front surface was covered with, the connector was first removed after removing the cover. In such maintenance and inspection, if the number of printers is large or multiple people are working, the connection of the connector may be forgotten after the work is completed. Could not be confirmed easily by visual inspection.
[0004]
As mentioned above, even though you forgot to connect the device to the connector on the circuit board, when the power is turned on for confirmation after the maintenance / inspection is completed, the device does not operate and the front of the connector is covered with a cover. The problem is that it is difficult to understand where the problem is, and it is necessary to remove the cover again when it turns out that the connector is forgotten only after the printer is turned off when the power is turned on. was there.
For this reason, there are printers that send signals to individual devices and check the connection by replying to them. However, if the number and type of connected devices are different, it will be necessary to change the control program each time. However, there is a problem that it takes time to confirm each of the signals.
[0005]
[Problems to be solved by the invention]
SUMMARY OF THE INVENTION An object of the present invention is to provide a printer circuit connection self-diagnosis device that can easily check a connection state between a circuit board in a printer body and a device.
[0006]
[Means for Solving the Problems]
In order to achieve the above object, the invention of claim 1 outputs a diagnostic signal from a circuit board to a thermal head and a motor device provided in a printer body, and sends a reply to the outputted diagnostic signal from the device to the circuit board. A printer circuit connection self-diagnosis device for confirming device connection by returning the device to the thermal head device, wherein the thermal head device receives the device input terminal of the thermal head and the diagnostic signal input from the device input terminal. A thermal head device connector comprising at least a thermal head device output terminal that outputs a short circuit in the body, and the motor device has a device input terminal of the motor and an input from the device input terminal. The diagnostic signal is short-circuited in the motor device body. To the device output terminal of the motor, the device connector of the motor characterized by at least is provided with, on the circuit board includes a CPU for controlling each section of the circuit substrate and the device, said the device input terminals of said thermal head a substrate output terminals of the thermal head for supplying a diagnostic signal, and the board connector of the thermal head characterized by at least a substrate input terminal, a thermal head receiving said diagnosis signal outputted from the device output terminal of the thermal head, the motor A motor board connector that includes at least a motor board output terminal that supplies the diagnostic signal to the device input terminal; and a motor board input terminal that receives the diagnostic signal output from the device output terminal of the motor; the diagnostic signal also the thermal head from the CPU side An input supply line to be input to one of the substrate output terminals of the motor of the board connector, and a substrate output terminals of the board input terminals and the other board connector board connector in which the input supply line is connected to the substrate output terminals sequentially A connection line connected in series and a signal ground line connecting a board input terminal of the last board connector to a signal ground are provided, and the thermal head and motor device connector and the thermal head and motor board connector When in the connected state, when the input supply line side connected to the CPU and the signal ground line side are in series via a thermal head and a motor device, and the thermal head and the motor device are connected to a circuit board The diagnostic circuit in which the diagnostic signal flows in series is formed by the circuit board and the device. A circuit connection self-diagnosis device for a printer.
[0008]
According to a second aspect of the present invention, the diagnostic signal of the printer circuit connection self-diagnosis device can be generated when the printer body is turned on.
[0009]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, a preferred embodiment of the present invention will be described with reference to FIGS.
FIG. 1 is a diagram showing a configuration example of an embodiment of a label printer 50 among printers on which devices such as a thermal head of the present invention are mounted.
As shown in the figure, the label printer 50 prints on the label 1 by generating heat from a control unit 10 that controls each unit and a plurality of heating elements arranged in a row in a direction orthogonal to the conveyance direction of the label 1. The thermal head 5 to be performed, a stepping motor (hereinafter simply referred to as a motor) 7 that is driven by the control of the control unit 10, and the motor 7 that is transmitted via the belt 8 are rotated by the rotational force, and will be described later. A label 2 attached to the mount 2 and the mount 2 constituting the label continuous body 3 set on the supply shaft 4 to be peeled and transported, and a platen roller 6 that presses the label 1 against the thermal head 5, and a label continuous A light receiving unit 4 that rotatably supports the body 3, a light emitting unit that emits predetermined light, and light that is emitted from the light emitting unit and reflected by an identification mark (not shown) of the mount 2 is received and received. The light-reflecting sensor 9 for position detection comprising a light-receiving unit that outputs an electrical signal corresponding to the light-receiving unit, a light-emitting unit that emits predetermined light, and light emitted from the light-emitting unit is received and the intensity of the received light is increased. A medium detecting unit that includes a light receiving unit that outputs a corresponding electrical signal, and that includes a light emitting unit and a light receiving unit sandwiching the label continuous body 3, and detects the end of the label continuous body 3 based on the amount of light received by the light receiving unit Sensor 40.
[0010]
FIG. 2 is a block diagram showing an example of the electrical configuration of the embodiment of FIG. As shown in the figure, a control unit 10 includes a ROM (read only memory) 12 that stores a predetermined control program, and a CPU (central processing unit) that operates according to the control program stored in the ROM 12 and controls each unit. 11, a random access memory (RAM) 13 that stores various data and print images necessary for the operation of the CPU 11, and a pulse transporting mechanism that controls the motor 7 and the like. A control signal corresponding to print data such as characters, figures, and barcodes to be printed supplied from the label conveyance control circuit 14 and the CPU 11 based on the print image stored in the RAM 13 is generated and sent to the thermal head 5. The thermal head control circuit 15 for supplying and performing the printing operation, and the light emitting part of the light reflection sensor 9 under the control of the CPU 11 In addition to emitting light, the electrical signal output from the light receiving unit is received and the identification mark detection circuit 16 supplied to the CPU 11 and the light emitting unit of the media detection sensor 40 are controlled under the control of the CPU 11 to emit light. The label break detection circuit 17 that receives an electrical signal output from the light receiving unit and supplies it to the CPU 11, the operation panel 18 for inputting various data, and the operation panel control circuit 19 for controlling the data transfer to the operation panel 18. And an online communication control circuit 21 that controls data exchange with an externally connected host computer (host CPU) 20, and a connector input port 22 into which various connector connection information 45 is input. .
[0011]
FIG. 3 is a schematic explanatory diagram illustrating a connection state between a circuit board 30 constituting a part of the control unit 10 of the printer 50 and a device such as a thermal head.
As shown in the figure, the circuit board 30 mainly includes a supply voltage 31, a resistor 32, an inverter 33, a CPU 11 having an input port (not shown), a plurality of board connectors 34 and 35, and an input supply line. 36, a signal ground line 37, and a connection line 38 for connecting the plurality of board connectors 34, 35.
For convenience, the circuit board 30 in FIG. 3 will be described assuming that two board connectors 34 and 35 are provided.
[0012]
The first board connector 34 is a connector for the thermal head 5 and is provided with a plurality of terminals (not shown), of which at least two are terminals for inputting and outputting diagnostic signals. That is, one terminal is a substrate output terminal 34a for supplying a signal to a device connector of the thermal head 5 described later, and the other terminal is a substrate input terminal 34b for receiving a signal from the device connector of the thermal head 5. It is.
The second board connector 35 is a connector for the motor 7, and is provided with a plurality of terminals (not shown), of which at least two are terminals for inputting and outputting diagnostic signals. That is, one terminal is a board output terminal 35a for supplying a signal to a device connector of the motor 7 described later, and the other terminal is a board input terminal 35b for receiving a signal from the device connector of the motor 7. .
One end of the signal ground line 37 is connected to the board input terminal 34b of the first board connector 34, and the other end of the signal ground line 37 is connected to the signal ground SG. The board output terminal 34 a is connected to the board input terminal 35 b of the second board connector 35 through the connection line 38.
Further, the second substrate output terminal 35a is connected to one end of the input supply line 36, while the other end of the input supply line 36 is connected to the CPU 11 side via an inverter 33 described later.
[0013]
The CPU 11 is supplied with the voltage inverted by the inverter 33 via the substrate voltage 31 and the resistor 32.
The substrate voltage 31 is connected to the input supply line 36 via a resistor 32.
[0014]
The thermal head 5 as a device is provided with a control cable 39 in which a large number of conductors (not shown) are wired, and two of the conductors (not shown) of the cable 39 are diagnostic signal conductors. It is used as 39a and 39b so that a diagnostic signal can be exchanged with the circuit board 30.
[0015]
A device connector 40 provided with a plurality of terminals (not shown) is provided at the distal end portion of the cable 39, of which at least two are terminals for diagnostic signal input / output, and one terminal is A device input terminal 40a corresponding to the substrate output terminal 34a of the substrate connector 34, and the other terminal is a device output terminal 40b corresponding to the substrate input terminal 34b. The thermal head 5 is provided with a loop line 41 so that the device input terminal 40a and the device output terminal 40b are electrically connected. That is, when a diagnostic signal is input to the device input terminal 40a, the diagnostic signal that has reached the thermal head 5 via the conductor 39a of the cable 39 passes through the loop line 41 without affecting the operation of the thermal head 5. Folded and sent to the device output terminal 40b via the conductor 39b.
[0016]
When the board connector 34 and the device connector 40 are connected, the board output terminal 34a and the device input terminal 40a, and the board input terminal 34b and the device output terminal 40b are connected to each other, and the circuit board 30 and the thermal head 5 Diagnostic signals can be exchanged between the two.
[0017]
The motor 7 is provided with a control cable 42 in which a large number of conductors (not shown) are wired as in the previous thermal head 5, and two of the conductors (not shown) of the cable 42 are diagnosed. It is used as signal input / output leads 42a and 42b so that a diagnostic signal can be exchanged with the circuit board 30.
[0018]
A device connector 43 provided with a plurality of terminals (not shown) is provided at the distal end portion of the cable 42, of which at least two are terminals for diagnosis signal input / output, and one terminal is It is a device input terminal 43a corresponding to the substrate output terminal 35a of the substrate connector 35, and the other terminal is a device output terminal 43b corresponding to the substrate input terminal 35b. The motor 7 is provided with a loop line 44 so that the device input terminal 43a and the device output terminal 43b are electrically connected. That is, when a diagnostic signal is input to the device input terminal 43a, the diagnostic signal that has reached the motor 7 via the conductor 42a of the cable 42 is turned back through the loop line 44 without affecting the operation of the motor 7. It is sent to the device output terminal 43b via the conducting wire 42b.
[0019]
When the board connector 35 and the device connector 43 are connected, the board output terminal 35a and the device input terminal 43a, and the board input terminal 35b and the device output terminal 43b are connected to each other, and the circuit board 30 and the motor 7 are connected. Diagnostic signals can be exchanged between them.
[0020]
In the printer having the above-described configuration, an operation for self-diagnosis of whether or not a device is connected to the circuit board will be described.
[0021]
First, as shown in FIG. 3, the operation when the connector 40 of the thermal head 5 as a device and the connector 43 of the motor 7 are correctly connected to the circuit board 30 will be described.
[0022]
In order to confirm whether or not the device is connected to the circuit board 30, “self-diagnosis start” is input from the operation panel 18 by pressing a button (not shown).
[0023]
When “start self-diagnosis” is input, 5 volts of the substrate voltage 31 is supplied into the circuit board 30.
[0024]
The substrate voltage 31 is supplied as a resistor 32, an input supply line 36, a substrate output terminal 35a, a device input terminal 43a, and a conducting wire 42a, is turned back through the loop wire 44 of the motor 7, and is passed through the conducting wire 42b and the device output terminal 43b. It reaches the substrate input terminal 35b of the substrate 30 .
[0025]
The voltage reaching the board input terminal 35 b further reaches the board output terminal 34 a of the board connector 34 via the connection line 38, is supplied as the device input terminal 40 a and the conductor 39 a, and is turned back through the loop line 41 of the thermal head 5. The circuit board 30 reaches the board input terminal 34b of the circuit board 30 through the conductor 39b and the device output terminal 40b.
[0026]
Since the voltage reaching the substrate input terminal 34b is grounded at the signal ground SG via the signal ground line 37, the supplied substrate voltage 31 of 5 volts becomes 0 volts.
[0027]
When the substrate voltage 31 becomes 0 volts, the voltage conducted to the CPU 11 through the resistor 32 is inverted by the inverter 33 and converted to 5 volts, which is recognized by the CPU 11.
[0028]
As described above, when all of the devices (in this embodiment, the thermal head 5 and the motor 7) are connected to the circuit board 30, diagnostic signals flow in series via the devices sequentially connected to the circuit board 30. A “diagnostic series circuit” is formed, and the substrate voltage 31 side and the signal ground SG side become conductive, and the voltage of 5 volts supplied from the substrate voltage 31 becomes 0 volts due to the ground. At this time, the voltage supplied from the substrate voltage 31 to the CPU 11 via the resistor 32 and the inverter 33 is changed to 5 volts by the inverter 33, and the CPU 11 confirms a diagnostic signal of 5 volts. A self-diagnosis of “device connection OK” is made.
[0029]
On the other hand, if at least one device is not connected to the circuit board 30, a non-conductive portion is generated between the substrate voltage 31 side and the signal ground SG side, and the 5-volt substrate voltage 31 passes through the resistor 32 and the CPU 11. Inverted and converted by the inverter 33 during transmission to 0 volts, and the CPU 11 recognizes the voltage (diagnostic signal) 0 volts. At this time, the self-diagnosis of “device connection NG” is performed. It is.
[0030]
As described above, when all the devices are connected to the circuit board 30 , a “diagnosis series circuit” connected in series through the devices is formed, so that a diagnostic signal is not sent to each device, It is possible to easily perform self-diagnosis as to whether or not all devices are in a connected state only by supplying the substrate voltage 31 once.
[0031]
In the above-described embodiment, an example in which the “self-diagnosis start” operation is performed from the operation panel 18 has been described. However, the present invention is not limited to this, and it is automatically performed when the printer is turned on. Self-diagnosis may be performed.
[0032]
【The invention's effect】
In the printer circuit connection self-diagnosis device according to the present invention, when the thermal head and the motor device are connected to the circuit board, a diagnostic series circuit in which a diagnostic signal flows in series is formed by the circuit board and the device. There is an effect that the self-diagnosis of whether the thermal head and the motor device are connected or not can be easily performed without sending a diagnostic signal to each device.
[Brief description of the drawings]
FIG. 1 is a schematic diagram illustrating an overall configuration of a printer according to an embodiment of the present invention.
FIG. 2 is a block diagram illustrating a configuration of a control unit of the printer.
FIG. 3 is a circuit explanatory diagram illustrating a connection state between a circuit board and a device of the printer.
[Explanation of symbols]
SG signal ground 5 thermal head 6 platen roller 7 stepping motor (motor)
10 Control unit 11 CPU
30 Circuit board 34, 35 Board connector 40, 43 Device connector 50 Label printer

Claims (2)

The circuit connection self of the printer that confirms the connection of the printer by outputting a diagnostic signal from the circuit board to the thermal head and motor device provided in the printer body and returning a response to the output diagnostic signal from the device to the circuit board. a diagnostic apparatus, wherein the thermal head device, the device input terminals of the thermal head, the device output terminal of the thermal head and outputting the short said diagnostic signal input from the device input terminal a thermal head device body And a device connector for a thermal head comprising at least a device input terminal of the motor, and the diagnostic signal input from the device input terminal is short-circuited in the motor device body and output to the motor device. Less device output terminal of motor Device connector of the motor comprising is also provided, on the circuit board includes a CPU for controlling each section of the circuit substrate and the device, of the thermal head for supplying said diagnostic signal to the device input terminal of the thermal head substrate A thermal head substrate connector comprising at least an output terminal, a thermal head substrate input terminal for receiving the diagnostic signal output from the device output terminal of the thermal head, and the diagnostic signal to the device input terminal of the motor. A motor board connector including at least a motor board output terminal of the motor to be supplied; a motor board input terminal for receiving the diagnostic signal output from the device output terminal of the motor; and the diagnostic signal from the CPU side. one substrate output terminals of the board connector of said thermal head or motor An input supply line for input, a connection line for sequentially connecting a board input terminal of a board connector to which the input supply line is connected to the board output terminal, and a board output terminal of another board connector, and the last board A signal ground line for connecting a board input terminal of the connector to a signal ground, and an input connected to the CPU when the device connector of the thermal head and the motor and the board connector of the thermal head and the motor are in a connected state. When the supply line side and the signal ground line side are in series via a thermal head and a motor device, and the thermal head and the motor device are connected to a circuit board, the circuit board and the device cause the diagnostic signal A diagnostic series circuit is formed in which the circuit is connected in series. Self-diagnosis device. 2. The printer circuit connection self-diagnosis device according to claim 1, wherein the diagnostic signal is issued when the printer main body is turned on.

Images