JPH052958U - Double line printer - Google Patents

Abstract

(57) [Summary] (Correction) [Purpose] To obtain a double line printer that can further improve the printing speed by printing several forms at once with the multi-head. [Structure] Data received via the communication interface 4 is stored in a reception buffer in the memory 2, the data is sequentially transferred to the page buffers 9a and 9b page by page, and stored in the page buffer page by page. The font memory 3 reads the data in units of line units and the data stored in each of the following pages, which are sequentially read out in units of line units at the positions corresponding to the line unit data.
The print data converted via the print data stored in the image buffer 9c is arranged so as to be printed in the line direction of the sheet of the form, and the print data is transferred via the print data control unit 5 to the print mechanism unit (head driver 6, space). Motor driver 7
And the LF motor driver 8) to output a plurality of heads 6
Printing is performed by moving a to 6n in the row direction.

Description

[Detailed description of the device]

[0001]

[Industrial applications]

  The present invention improves printing speed by printing several forms at once by using multiple heads. Regarding a double line printer that can.

[0002]

[Prior art]

  Conventional multi-head printer removes the limitation of wire dot printing speed It was devised for the purpose of using the n print heads to achieve the same speed. It is possible to obtain n times the printing speed.

[0003]   FIG. 8 is a block circuit diagram showing the configuration of a conventional multi-head printer. In the figure In the figure, 1 is a CPU, which stores the character code from the communication interface. (Described later) and stores the font data corresponding to the character code. The printer takes out the data and controls the printing of the multi-head printing mechanism and the printing of the head. Two A is a memory, which is a program section for communication control and print control, and is printed in character units. Image the line buffer that stores character data and the print data in the line buffer. It consists of an image buffer unit that expands to data. 3 is a font memory, above The image data corresponding to the character code is stored. 4 is the I / F section (Communication interface section) receives the character code sent from the host device And sends it to the CPU 1.

[0004]   A print data control unit 5A includes a CPU, a buffer unit, a head control unit, and a space controller. -The font from the font memory 3 is composed of a controller and an LF motor controller. Temporarily stores the data in the buffer, and also stores the stored font data. Print control to and. 6 is a head driver, which is a head controller of the print data control unit 5A. A plurality of print heads 6a to 6n based on the control signal and font data from the controller. Drive the head of. Reference numeral 7 is a space motor driver of the print data control unit 5A. The control signal from the space motor control section is used to control multiple print jobs. The space motor 7a is rotationally driven so as to move the space relative to the pads 6a to 6n. Let Reference numeral 8 is an LF motor driver, which is an LF motor control unit of the print data control unit 5A. The LF motor sends the required amount of printing paper by the control signal from the LF code from 8a is driven to rotate.

[0005]   The conventional multi-head printer is configured as described above, and FIG. 9 shows I of FIG. FIG. 10 is a flowchart showing the reception operation of the F / F section, and FIG. 10 is a flowchart showing the printing operation of FIG. -, And its operation will be described.

[0006]   First, in step 100, the CPU 1 receives the data from the device via the I / F unit 4. Determine if it is ready, and if it is ready, The process proceeds to step 101 and waits if it is not in a receivable state.

[0007]   In step 101, the CPU 1 transmits the data from the host device via the I / F unit 4. Received print data, the print data is sequentially received from the beginning of the line buffer in the memory 2. -Store the data.

[0008]   In step 102, the CPU 1 puts the LF code in the received print data. If there is an LF code, proceed to step 104. Otherwise, go to step 103.

[0009]   In step 103, the CPU 1 stores the print data in the line buffer in the memory 2. Determines if it is full and if the row buffer is full, If it is not in the full state, the process returns to step 101.

[0010]   In step 104, the CPU 1 stops receiving the I / F unit 4, Go to 05.

[0011]   In step 105, the CPU 1 stores the character code stored in the line buffer. The codes are taken out in order from the beginning and converted to the address corresponding to that character code. Then, the converted address is output to the font memory 3.

[0012]   In step 106, font memos sequentially addressed from the CPU 1 Extract font data from memory 3 and start from the top of the image buffer in memory 2. Store in order.

[0013]   In step 107, the CPU 1 causes the image buffer in the memory 2 to be full. State, and if the image buffer is full, If not, the process returns to step 106.

[0014]   In step 108, the CPU 1 permits reception of the I / F unit 4, Go to 109.

[0015]   In step 109, the CPU 1 causes the image buffer in the memory 2 to be in a full state. The font data stored in the print data control section 5A is transferred to the buffer of the print data control section 5A, Return to step 100.

[0016]   In step 110, the print data control unit 5A is in the print data control unit 5A. Font data stored in the buffer of -Through the motor driver 7, the head driver 6 and the LF motor driver 8 The pace motor 7a, the LF motor 8a, and the multiple print heads 6a to 6n Drive to print.

[0017]

[Problems to be solved by the device]

  In the conventional multi-head printer as described above, the size depending on the width of the print head However, there is a limit to the improvement in printing speed due to the use of multiple heads, and high-speed printing is limited. There was a problem that I could not answer the letter request.

[0018]   The present invention has been made to solve such problems, and prints several forms at a time. To obtain a double line printer that can improve the printing speed by And

[0019]

[Means for Solving the Problems]

  The double line printer according to the present invention is received via a communication interface. Buffer that stores the received data, and the data from that receive buffer is transferred. Multiple page buffers for printing that are stored for each page Address conversion table that converts addresses based on data from the buffer Convert to print data based on the address converted in the address conversion table The font memory and the printing data converted by the font memory are stored. It has a print image buffer and multiple heads, and is based on the above print data. The printing mechanism that performs printing and the data received via the communication interface The data is stored in the receive buffer, and the data is stored in the print page buffer for each page. In units of lines stored in the print page buffer for each page. Data and the data stored for each next page. The line-by-line data at the corresponding position is read sequentially and the read data is read. Data is converted to print data via the font memory, and the converted print data is printed. Arrange the data so that it will be printed in the line direction of the paper of multiple forms, and Data stored in the image buffer for printing. Is output to the printing mechanism section to move the plurality of heads in the row direction for printing. And a print control means. Also, the print control means is for printing Multiple consecutive pages of data stored in the page buffer for each page For each row of data in the corresponding position of The converted data is converted to print data via the font memory, and the converted data is converted. The printed data is arranged side by side so that it can be printed in the row direction of multiple forms. It is stored in the image buffer for printing and then stored in the image buffer for printing. Output the printing data to the printing mechanism and move the heads in the row direction. This is what is printed.

[0020]

[Action]

  In the present invention, the print control means receives the data via the communication interface. Stored data in the receive buffer and store it in the print page buffer for each page. Pages are sequentially transferred and stored in the print page buffer for each page. Data for each line and the data stored for each next page. The line-by-line data at the position corresponding to the data is read sequentially and The converted data is converted to print data via the font memory and the converted data is The above printing data is arranged side by side so that it can be printed in the line direction of the paper of multiple forms. The image stored in the image buffer for printing and the printing stored in the image buffer for printing Data is output to the printing mechanism section and the plurality of heads are moved in the row direction to print. To write. Further, the print control means stores the page in the print page buffer for each page. Corresponding positions for multiple consecutive pages of the stored data Read the line-by-line data in the table, and read the read data. Convert to print data via memory and convert the converted print data to multiple forms. Align them in the line direction of the paper so that they are printed in the image buffer for printing. The printing data stored in the printing image buffer is stored in the printing machine. The data is output to the structural portion and the plurality of heads are moved in the row direction for printing.

[0021]

【Example】

  FIG. 1 is a block circuit diagram of an embodiment of the present invention, and FIG. 2 is a block diagram of the print data controller of FIG. It is a block circuit diagram, and 1, 3, 4, 6-8 are the same as the conventional one. 2 is a memo Program for controlling communication of the I / F unit 4 with a memory (RAM), print data control unit It has a program for controlling data transfer to (described later) and a reception area. It The reception area has two buffers for storing print data for one page. (Reception buffer 1, reception buffer 2).

[0022]   A print data control unit 5 includes a CPU 5a, a memory 5b, a head control unit 5c, and a space. -It consists of a motor control unit 5d and an LF motor control unit 5e, and the CPU 5a is a memory. Based on the program stored in memory 5b, prints by accessing upper CPU1 While receiving the data, the received print data is converted and processed for printing. Character control. The memory 5b includes a data processing program, an address conversion table and And a print control program, etc. are stored, and print data from the upper CPU 1 is stored. The print data is received and sequentially stored in each page buffer (described later), and the print data is printed. Converted to font data, and the converted font data is converted into two page fonts. Edit the image buffer (described later) so that the lines of Font data), and control the printing of the edited font data. ing. The head controller 5c uses the edited font data code to The driver 6 is driven to control the print heads 6a to 6n. Space motor system The control portion 5d is configured to move the print heads 6a to 6n in a space during printing processing. -The motor driver 7 is driven to control the space motor 7a. LF motor system The control unit 5e analyzes the LF code in the edited font data, and the LF code is analyzed. LF motor driver 8 so that the necessary amount of line feed is included only when To control the LF motor 8a.

[0023]   A buffer memory 9 includes a page 1 buffer 9a, a page 2 buffer 9b and an image buffer 9. It consists of a message buffer 9c, each page buffer 9a, 9b and an image buffer. The printer 9c is connected to the bus of the print data control unit 5. And each page buff Has a capacity for one page, and the image buffer 9c has a capacity of two pages. It has a capacity for rows and connects the rows of two page buffers under the control of the CPU 5a. And store it in the image buffer 9c.

[0024]   The double line printer of the present invention is constructed as described above, and FIG. A flowchart (1) showing the receiving operation via the I / F section, and FIG. 4 shows the I / F section of FIG. FIG. 5 is a flow chart showing the receiving operation via the 6 is a flowchart showing the transfer operation of FIG. 1, and FIG. 6 is a flowchart showing the printing operation of FIG. ), FIG. 7 is a flowchart (2) showing the printing operation of FIG. 1, and the operation will be described.

[0025]   In step 1, CPU 1 can store print data in reception buffers 1 and 2. If it can be stored, proceed to step 2 and store it. If not, wait.

[0026]   In step 2, the CPU 1 determines whether the I / F unit 4 is ready to receive. If it can be received, the process proceeds to step 3. If it cannot be received, the process waits.

[0027]   In step 3, the CPU 1 causes the I / F unit 4 to print data (characters). Code) and store them sequentially from the head address of the reception buffer 1.

[0028]   In step 4, the CPU 1 puts an FF code in the received character code. If there is an FF code, proceed to step 5 and if there is an FF code, If there is not, go to step 6.

[0029]   In step 5, the CPU 1 prohibits storage in the reception buffer 1 and Proceed to 13.

[0030]   In step 6, the CPU 1 has the LF code in the received print data. It is judged whether or not there is an LF code, and if there is an LF code, the process proceeds to step 8 and there is no LF code. If so, go to step 7.

[0031]   In step 7, the CPU 1 receives print data for one line in the receive buffer 1. If the print data is full, Proceed to step 8 and step 3 if the print data is not full. Return to.

[0032]   In step 8, the CPU 1 prints the received print data in the receive buffer 1. If the reception buffer 1 is not full, the process proceeds to step 5 Proceeds to step 9.

[0033]   In step 9, the CPU 1 prints data on the next empty line of the receiving buffer 1. Is stored and the process proceeds to step 10.

[0034]   In step 10, the CPU 1 includes the FF code in the received print data. If there is an FF code, the process proceeds to step 5, and the FF code is not If not, go to step 11.

[0035]   At step 11, the CPU 1 includes the LF code in the received print data. It is judged whether or not there is an LF code, and if there is an LF code, the process returns to step 8 and there is no LF code. If so, go to step 12.

[0036]   In step 12, the CPU 1 causes the receiving buffer 1 to receive the print data for one line. If the print data is full, it is judged whether it is in the received state. Returns to step 8, and if the print data is not full, then step Return to 9.

[0037]   In step 13, the CPU 1 prohibits the storage of the receiving buffer 1 in step 5. After that, the print data is received again via the I / F unit 4 and the head of the receiving buffer 2 is received. The data is stored in order from the address, and the process proceeds to step 14.

[0038]   In step 14, the CPU 1 includes the FF code in the received print data. If there is an FF code, the process proceeds to step 15, where the FF code is If no, go to step 16.

[0039]   In step 15, the CPU 1 prohibits the storage in the reception buffer 2 and Go to page 23.

[0040]   At step 16, the CPU 1 includes the LF code in the received print data. It is determined whether or not there is an LF code, and if there is an LF code, the process proceeds to step 18, where the LF code is If no, go to step 17.

[0041]   In step 17, the CPU 1 causes the receive buffer 2 to receive the print data for one line. If the print data is full, it is judged whether it is in the received state. Goes to step 18, and if the print data is not full, step Return to page 13.

[0042]   In step 18, the CPU 1 stores the received print data in the reception buffer 2. If it is in the full state, the process proceeds to step 15 and the reception buffer 2 is not in the full state. If so, go to step 19.

[0043]   In step 19, the CPU 1 prints data on the next empty line of the receiving buffer 2. Data is stored and the process proceeds to step 20.

[0044]   In step 20, the CPU 1 includes the FF code in the received print data. If there is an FF code, the process proceeds to step 15, where the FF code is If no, go to step 21.

[0045]   In step 21, the CPU 1 includes the LF code in the received print data. It is judged whether or not there is an LF code, and if there is an LF code, the process returns to step 18 and the LF code If no, go to step 22.

[0046]   In step 22, the CPU 1 causes the reception buffer 2 to receive the print data for one line. If the print data is full, the status is Return to step 18, and if the print data is not full, step 19 Return to.

[0047]   In step 23, the CPU 1 stops the reception of the I / F unit 4 and then proceeds to step 24. Proceed to (transfer processing).

[0048]   At step 24, the CPU 1 accesses the CPU 5a of the print data control unit 5. The print data stored in the receive buffers 1 and 2 in the memory 2 from the head address. The data is transferred in order, and the CPU 5a of the print data control unit 5 transfers the pages 1 in the order of transfer. The data is stored from the head address of the buffer 9a.

[0049]   In step 25, the CPU 1 prints data stored in the receiving buffers 1 and 2. It is determined whether the data has been transferred to the print data control unit 5, and if the transfer is completed, the If the transfer is not completed, the process returns to step 24.

[0050]   In step 26, the CPU 1 permits the reception buffers 1 and 2 to store data. It

[0051]   In step 27, the CPU 1 again permits the reception of the I / F unit 4 and is in the reception state. to go into.

[0052]   In step 28, the CPU 5a of the print data control unit 5 is the upper CPU 1 Print data transferred from the page 1 buffer 9a and page 2 buffer 9b It is judged whether or not it is in the full state, and the page 1 buffer 9a and the page 2 buffer If 9b is in the full state, proceed to step 29, otherwise wait. It

[0053]   At step 29, the CPU 5a determines the page and page of the page 1 buffer 9a. It is stored in the first row of the page 1 buffer 9a so that the respective rows of the 2 buffer 9b are connected. Printed data is sequentially taken out from the head address, and when finished, page 2 buffer 9b The print data stored in the first line of the Proceed to.

[0054]   In step 30, the CPU 5a determines the first line and page of the page 1 buffer 9a. -The print data is sequentially converted from the first line of the 2nd buffer 9b to the address of the memory 5b. Output to the table and the print data output from the address conversion table. -The address corresponding to the character (character code) is output to the font memory and Go to step 31.

[0055]   In step 31, the CPU 5a outputs the font output from the font memory 3. Data is stored in order from the head address of the image buffer 9c.

[0056]   In step 32, the CPU 5a completes the font conversion for one line of two forms. If the font conversion is completed, go to step 33 and If the conversion has not been completed, the process returns to step 31.

[0057]   In step 33, the CPU 5a issues a drive command to the space motor control section 5d. Is output to drive the space motor driver 7 to control the rotation of the space motor 7a. At the same time, a print command is output to the head controller 5c to drive the head driver 6. , The font data stored in the image buffer 9c from the print heads 6a to 6n. Print (for example, 1 line for 2 forms is printed via the print head), Proceed to step 34.

[0058]   In step 34, the CPU 5a finishes printing the font data for two forms. If the printing is completed, the process proceeds to step 35, and the printing is completed. If not, the process returns to step 33.

[0059]   In step 35, the CPU 5a instructs the space motor control section 5d to stop. Is output to stop the space motor driver 7, stop the space motor 7a, and Proceed to step 36.

[0060]   In step 36, the CPU 5a determines the page 1 buffer 9a and the page 2 buffer. It is judged whether the font data is taken out from the last line of the buffer 9b, and If the font data is extracted from the line, the process returns to step 28 and the last line is If the font data is taken out from the first line, the process proceeds to step 37.

[0061]   In step 37, the CPU 5a determines the page and page of the page 1 buffer 9a. It is stored in the next row of the page 1 buffer 9a so that each row of the 2 buffer 9b is connected. The printed data is taken out one by one, and when it is finished, it is moved to the next line of the page 2 buffer 9b. The stored print data is sequentially taken out, and the process proceeds to step 38.

[0062]   In step 38, the CPU 5a determines the next line and page of the page 1 buffer 9a. -The print data from the next line of the buffer 2b is sequentially converted into the address of the memory 5b. Output to the table and the print data output from the address conversion table. -The address corresponding to the data (character code) is output to the font data and Proceed to Step 39.

[0063]   In step 39, the CPU 5a outputs the font output from the font memory 3. An empty address in the image buffer 9c (the font data is stored before The next address is stored in order, and the process proceeds to step 40.

[0064]   At step 40, the CPU 5a finishes the font conversion for one line of two forms. If the font conversion is completed, go to step 41 to check for full status. If not, the process returns to step 39.

[0065]   In step 41, the CPU 5a causes the space motor controller 5d to drive the fingers. Command is output to drive the space motor driver 7 to rotate the space motor 7a. In addition to controlling, the print command is output to the head controller 5c to drive the head driver 6. The font data stored in the image buffer 9c. n (for example, 2 lines for the form are printed through the print head). Proceed to step 42.

[0066]   In step 42, the CPU 5a finishes printing the font data for two forms. If printing is finished, proceed to step 43 to finish printing. If not, the process returns to step 41.

[0067]   In step 43, the CPU 5a instructs the space motor control unit 5d to stop. Is output to stop the space motor 7a, and the process returns to step 36.

[0068]   In this way, printing speed can be improved by printing two forms at once. You can In the above embodiment, two forms were printed at one time, but it is limited to two forms. Page buffer for several pages, image buffer for several pages, and It is also possible to print several forms at once using the printing mechanism with multiple heads. It

[0069]

[Effect of device]

  As described above, according to the present invention, the printing data in units of lines for several pages are arranged side by side. Since all of them are printed, it becomes possible to print several forms at a time. It is possible to provide a high-speed printer by further improving the printing speed by adopting a chip head. Wear.

[Brief description of drawings]

FIG. 1 is a block circuit diagram of an embodiment of the present invention.

FIG. 2 is a block circuit diagram of a print data control unit in FIG.

3 is a flowchart (1) showing a receiving operation via the I / F unit in FIG.

4 is a flowchart (2) showing a receiving operation via the I / F unit of FIG.

5 is a flowchart showing a transfer operation to the page buffer of FIG.

6 is a flowchart (1) showing the printing operation of FIG.

7 is a flowchart (2) showing the printing operation of FIG.

FIG. 8 is a block circuit diagram showing a configuration of a conventional multi-head printer.

9 is a flowchart showing a receiving operation of the I / F unit in FIG.

FIG. 10 is a flowchart showing the printing operation of the I / F section in FIG.

[Explanation of symbols]

1 CPU 2 memory 3 font memory 4 I / F section 5 Print data control unit 6 head driver 6a to 6n print head 7 Space motor driver 7a space motor 8 LF motor driver 8a LF motor 9 buffer memory 9a page 1 buffer 9b page 2 buffer 9c image buffer

Claims (2)

[Scope of utility model registration request] 1. A reception buffer in which data received via a communication interface is stored, and a plurality of print page buffers in which data from the reception buffer is transferred and stored for each page. An address conversion table for converting an address based on the data from the print page buffer; a font memory for converting the print data based on the address converted by the address conversion table; A print image buffer for storing print data, a print mechanism section having a plurality of heads for performing printing based on the print data, and data received via the communication interface for the receive buffer. Stored in the print page buffer, the data is sequentially transferred to the print page buffer page by page, and the data is stored in the print page buffer. Data in units of rows stored for each page and data in units of the next page stored at the position corresponding to the data in units of rows are sequentially read out and read out. Data is converted into printing data through the font memory, and the converted printing data is stored in the printing image buffer side by side so as to be printed in the row direction of the paper of a plurality of forms, and the printing data is printed. A double line printer, comprising: print control means for outputting the print data stored in the image buffer to the print mechanism section to move the plurality of heads in the row direction for printing. 2. The print control means reads out line-by-line data at corresponding positions of a plurality of consecutive pages from the data stored in the print page buffer for each page, and reads the data. Convert the output data to print data via the font memory,
The converted print data is arranged so as to be printed in the row direction of a plurality of form sheets and stored in the print image buffer, and the print data stored in the print image buffer is output to the print mechanism unit. 2. The double line printer according to claim 1, wherein the plurality of heads are moved in the row direction for printing.