JPS5996980A - Printer - Google Patents

Abstract

PURPOSE:To lessen current capacity of a power source by controlling a carrier driver and a line feed driver so as not to be driven simultaneously. CONSTITUTION:A carrier BUSY signal from a carrier motor drive control circuit 14 is applied through an inverter to intercept a paper feed data setting signal PFDS from a printer control circuit 18 with an AND gate 22. Consequently, a paper feed motor 13 for feeding paper won't be driven when a carrier motor 12 for shift driving a carrier having a print head thereon sideways with respect to a paper is driven. Likewise, the motor 12 is controlled so as not to be driven when the motor 13 is driven. This enables the controlling of a carrier driver and a line feed driver so as not to be driven simultaneously thereby lessening current capacity of the power source of a printer with along with a simple power source and a small construction.

Description

DETAILED DESCRIPTION OF THE INVENTION Technical Field The present invention relates to printers employing a serial method, such as boolean printers and dot impact printers.

BACKGROUND OF THE INVENTION In general, printers of this type are equipped with a carrier motor that feeds the carrier in a direction transverse to the paper, a line feed motor that feeds the paper, a wheel motor, an ink ribbon motor, and the like. In this case, the carrier motor and line feed motor are simultaneously driven to increase the printing speed of the printer. However, in order to drive the carrier motor and the line feed motor simultaneously, the current capacity of the power supply must be increased so that both motors can operate simultaneously. Increasing the power supply capacity in this way increases cost and weight. For example, the RP1300 printer manufactured by Ricoh Co., Ltd. has a power supply capacity of approximately 900 mA for +5V, 2.6A for carrier motor control for ±15V, 1.6A for line feed motor control, and 1 for selection motor.
．． SB is used by 9 people, IC is used by 10 SV.
Although the new technology reduces the electrical connection, ±15V is related to the printing speed because the carrier motor, line feed motor, and selection motor are driven simultaneously, so 6. This requires a power supply capacity of IA or more.

Further, the speed increase due to simultaneous driving of the carrier motor and the line feed motor is 30 characters/second, but it is only about 1 character/second9, which is not a good idea in terms of cost performance.

SUMMARY OF THE INVENTION The present invention has been made in view of the above points, and an object of the present invention is to provide a printer that requires a small current capacity of a power supply and can be made light in weight at a low cost.

composition An embodiment of the present invention will be described based on the drawings.

First, Fig. 1 schematically shows an example of a printer, in which a carrier (2) is provided facing a platen (1) on which paper (not shown) is set, and a grate/(1). It is movable along a parallel guide axis (3).

Konocarrier (2) has a type wheel (4) and a hammer.
It is equipped with a head mechanism such as <5), and is also equipped with a ribbon cassette (7) for the ink ribbon (6). The type wheel (4) is connected to the selection motor (8), and the ribbon cassette (7) is equipped with a ribbon motor (9). Wire stretched between <11
The carrier motor (b) connected to this wire α type moves the shaft. On the other hand, the platen (1) shaft is connected to a line feed motor (to) via a gear, and the paper on the platen (1) is set to be fed by this line feed motor (6).

The control circuits for the carrier motor (b) and line feed motor q1 are constructed as shown in FIG. That is, the carrier motor 2 is driven via a motor driver α under the control of a carrier motor drive control circuit q4, and this motor driver 6C1 drives the carrier motor via a sensor (21, sensor amplifier g?J). It is fed back to the drive control circuit section.Here, the carrier motor drive control circuit α
The monk receives the carrier movement amount data from the printer control circuit (14) and also receives the carrier data set signal CD.
A signal S& is input from an AND gate (6) which inputs S and a signal obtained by inverting paper feed BUSY.
This is something that outputs . On the other hand, the line feed motor 4 is driven via a motor driver sil under the control of a paper feed motor drive control circuit. Here, the paper feed motor drive control circuit () receives paper feed amount data from the printer control circuit, and inputs the paper feed data set signal PFDS and a signal obtained by inverting the carrier BUSY. The signal Sc is input, and the paper feed BUSY is output to the printer control circuit 4.

In such a configuration, the operation will be explained with reference to the flowchart shown in FIG. Now, printer control circuit Q
When the carrier data set signal CDS is output from I19 together with the carrier movement amount data, the line feed motor 4 is not moving, so the paper feed BU
sY is not issued, and AND gate (2) is opened. As a result, a signal 1111a is generated to control the carrier motor drive control circuit. At the same time data is set in Φ, a carrier BUSY signal is output to the printer control circuit (time).Based on this carrier BUSY signal, the carrier data set signal CDS falls,
A signal sb is generated to the motor driver 4, the carrier motor (6) is driven, and the carrier (2) is fed.

Consider a case where the paper feed data set signal PFDS is output from the printer control circuit ah together with the paper feed amount data while the carrier motor (6) is being driven. In this case, carrier BUSY
Is the signal output and is it an AND gate? 4 is prohibited, so the signal Sc does not occur. Then, when the carrier BUSY signal falls due to the end of the carrier operation, the AND
Gate 4 is opened to generate signal Sc, which outputs paper feed BUSY.

When the half-feed data set signal PFDS based on this paper feed BUSY signal falls, a signal Sd is generated to the motor driver υ, and the line feed motor 0:1 is driven to feed the paper.

In this way, while the carrier motor (6) and line feed motor o1 are being driven, the other one is on standby, and both motors are not driven at the same time.
The current response of the power supply can be reduced.

As a result, a low cost and light power source can be achieved. By the way, RP manufactured by Ricoh Co., Ltd., which was exemplified in the conventional example
If this embodiment is applied to a 1300 printer, the power supply capacity will be only 4.5A.

In this embodiment, the control is performed using the block diagram shown in FIG. 2, but a microcomputer may also be used.

Effects As described above, the present invention controls the carrier drive device and the line feed mu device so that they are not driven at the same time, so the current valley of the power supply can be reduced, and a printer using a low-cost and light power supply noise can be realized. It is something that can be done.

[Brief explanation of the drawing]

The drawings show one embodiment of the present invention; FIG. 1 is a plan view, FIG. 2 is a block diagram, and FIG. 3 is a timing chart. 12...Carrier motor, 13...Countries with line feed motor q RoO'//JjJ A0 figure Pe1 abuse card EU5Y

Claims (1)

[Claims] A printer characterized in that a carrier drive device that feeds a carrier on which a print head is mounted in a direction transverse to paper and a line feed drive device that feeds paper are controlled so that they are not driven at the same time.