CN104723680A - Flat off-line industrial printing machine - Google Patents

Abstract

The invention relates to a flat off-line industrial printing machine which solves the problems in the prior art. According to the technical scheme, the flat off-line industrial printing machine comprises a computer, a center control panel, a switch and at least one printing unit, the computer and the center control panel are electrically connected with the switch, the switch is electrically connected with the input end of each printing unit, and each printing unit comprises a sprayer plate and a sprayer. Each sprayer plate comprises a sprayer drive circuit, a network interface, a sprayer data interface, a serial port, a power interface and a data storage circuit, wherein a power source supplies power to the sprayer plate through the power interface, the output end of the network interface and the output end of the serial port are connected with the data storage circuit, the input end of the network interface is connected with switch, the serial port is a parameter setting input port, the sprayer data interface is electrically connected with the corresponding sprayer, and the input end of the sprayer data interface is electrically connected with the data storage circuit through the sprayer drive circuit.

Description

The off line industry stamp printer of flattening

Technical field

The present invention is a kind of printing imprint apparatus, particularly relates to a kind of off line industry stamp printer of flattening.

Background technology

At present, existing domestic industry stamp system of processing is divided into two large types substantially: 1, conventional roll axial filament print type, uses roll shaft to coordinate the silk screen of corresponding pattern, and printing and dyeing decorative pattern is to certain material; 2, digital spray printing printing system, which uses conventional digital Printing techniques, coordinates print system spray printing decorative pattern on certain material.There is following shortcoming in above-mentioned two kinds of modes: roll shaft stamp mode has following defect: 1, print quality is poor respectively, and print quality is by the restriction of the precision of silk screen own.Use the silk screen of degree of precision can bring the raising of cost, and long-time printing can cause the damage of silk screen, product maintenance cost is high and inconvenient.2 colors are not bright-coloured, the restriction of serigraphy process, and the figure colour causing silk screen to print off is single, and color is bright-coloured not, and color gamut is narrow.3, cannot print and dye on the material of lines that has levels, limitation is very large.Digital spray printing printing system type has following defect: (1) print system complex structure, after corresponding shower nozzle breaks down, replacing board is loaded down with trivial details, affect production efficiency (2) and off line cannot store data, do not meet Industrial Printing stability requirement, when communication line breaks down during long-time printing, affect print quality and production efficiency.

Summary of the invention

The object of the invention is the weak point overcoming above conventional art, propose a kind of off line industry stamp printer of flattening.

The technical solution adopted for the present invention to solve the technical problems is: a kind of off line industry stamp printer of flattening, by Power supply, comprise computer, control board, switch and at least one print unit, described computer and control board are all electrically connected with described switch, described switch is also electrically connected with the input end of each described print unit, each described print unit comprises a shower plate and a shower nozzle, described shower plate comprises nozzle driving circuit, network interface, nozzle data mouth, serial ports, power interface and data storage circuitry, described power supply is powered to shower plate by power interface, the output of described network interface is all connected with described data storage circuitry with the output of serial ports, the input of described network interface is connected with described switch, described serial ports is setting parameter input port, described nozzle data mouth is electrically connected with described shower nozzle, the input of nozzle data mouth is electrically connected with data storage circuitry by nozzle driving circuit.This printing solution is applicable to multiple field and industry, and be not only used in the industries such as ceramic floor, glass, acrylic, weaving and advertisement, economic benefit is large.This design is improved the board comprised traditional responsible data configuration board and control nozzle printing and is carried out function synthesis, and data configuration and Print Control all synthesize use one piece of board and control, and reduce the error in data transmission.When nozzle control panel card damages, reduce on nozzle printing impact, easily change, use flexibly, replace traditional USB mode and transmit data.Prior art improves nozzle control panel, by pin-saving chip synthesis on one piece of board, board memory space is made to become large, can print data be cached in nozzle control panel like this, storage expansion space is large, after print data has been uploaded, can off-line printing, further achieve the stability of Industrial Printing.Nozzle control panel after improvement, primarily of control board and nozzle control panel composition, connects switch realization data communication each other by netting twine, installation wiring on shower nozzle is connected to more flat by 30P flat wire, be connected with switch by netting twine, autgmentability is stronger, maintains easily and investigates.The object of the invention is to be achieved through the following technical solutions: database and shower nozzle drive plate are integrated on one piece of shower plate, PC (computer) end uses netting twine to be connected with all shower plates by switch, one piece of shower plate correspondence shower nozzle.

As preferably, the master chip in described nozzle driving circuit adopts Epson E09A7218A chip.

As preferably, described data storage circuitry comprises master control system chip and pin-saving chip, described pin-saving chip and master control system chip electrical connect, the output of master control system chip is electrically connected by the input of nozzle driving circuit with nozzle data mouth, and the input of master control system chip is connected with network interface and serial port power respectively.

As preferably, be integrated with grating decoder above described shower plate, output and the described master control system chip electrical of described grating decoder connect.Be integrated with grating decoder above shower plate, realize the positioning action of ink droplet, grating reading accuracy 180dpi, simultaneously by software process, realize the grating reading accuracy not having 4 dot printings of 1dpi can realize up to 720dpi.

As preferably, shower plate is equipped with UVLED cure lamp, input and the master control system chip electrical of UVLED cure lamp connect.Shower plate is equipped with environmental protection UVLED cure lamp simultaneously, can use environment-friendly type UV ink, and this ink can be applied and outdoor pattern, and this ink is non-volatile simultaneously, to human body fanout free region; UV lamp uses 700ma drive current, and solidification optical wavelength 395nm, light wave transformation efficiency is up to 60%.As preferably, described nozzle driving circuit comprises inductance L 4, inductance L 5, resistance R24, resistance R25, resistance R26, resistance R27, resistance R28, resistance R29, resistance R76, resistance R77, resistance R78, resistance R34, resistance R35, resistance R36, resistance R38, resistance R39, electric capacity C42, electric capacity C43, electric capacity C44, electric capacity C45, electric capacity C46, electric capacity C47, electric capacity C48, electric capacity C52, electric capacity C53, electric capacity C54, electric capacity C56, electric capacity C57, electric capacity C58, electric capacity C59, first amplifier, second amplifier, TLV5620 chip, first step-down chip, second step-down chip, Zener diode D4, Zener diode D6, light emitting diode D5 and light emitting diode D7, the first step-down chip and the second step-down chip are LM22675 chip, the DATA pin of TLV5620 chip, the CLK pin of TLV5620 chip, the LOAD pin of TLV5620 chip is connected with the master chip in nozzle driving circuit respectively with the LDAC pin of TLV5620 chip, the DATA pin of described TLV5620 chip connects 5V power supply by resistance R24, the CLK pin of TLV5620 chip connects 5V power supply by resistance R76, the LOAD pin of TLV5620 chip connects 5V power supply by resistance R77, the LDAC pin of TLV5620 chip connects 5V power supply by resistance R78, the vdd terminal of TLV5620 chip connects 5V power supply, the DACA pin of TLV5620 chip is connected with the positive input terminal of the first amplifier, the negative input end of the first amplifier is connected with the output of the first amplifier, the output of the first amplifier is held with the FB of the first step-down chip and is connected, the FB end of the first step-down chip is by resistance R26 ground connection, the VIN termination 3.6V power supply of the first step-down chip, the VIN end of the first step-down chip is also respectively by electric capacity C43 and electric capacity C44 ground connection, the EN end of the first step-down chip is connected with the master chip in nozzle driving circuit, the EN end of the first step-down chip is by resistance R28 ground connection, the BOOT of the first step-down chip is held with the SW of the first step-down chip by electric capacity C42 and is connected, the SW end of the first step-down chip is connected with the negative electrode of Zener diode D4, the plus earth of Zener diode D4, the negative electrode of Zener diode D4 is connected with the first end of inductance L 4, second end of inductance L 4 is held with the FB of the first step-down chip by resistance R27 and is connected, second end of inductance L 4 is also respectively by electric capacity C45, electric capacity C46, electric capacity C47 and electric capacity C48 ground connection, the second end of inductance L 4 is also connected with the anode of light emitting diode D5 by resistance R29, the minus earth of diode D5, and the second end of inductance L 4 is connected with shower nozzle, the DACA pin of TLV5620 chip is connected with the positive input terminal of the second amplifier, the negative input end of the second amplifier is connected with the output of the second amplifier, the output of the second amplifier is held with the FB of the second step-down chip and is connected, the FB end of the second step-down chip is by resistance R35 ground connection, the VIN termination 3.6V power supply of the second step-down chip, the VIN end of the second step-down chip is also respectively by electric capacity C53 and electric capacity C54 ground connection, the EN end of the second step-down chip is connected with the master chip in nozzle driving circuit, the EN end of the second step-down chip is by resistance R38 ground connection, the BOOT of the second step-down chip is held with the SW of the second step-down chip by electric capacity C52 and is connected, the SW end of the second step-down chip is connected with the negative electrode of Zener diode D6, the plus earth of Zener diode D6, the negative electrode of Zener diode D6 is connected with the first end of inductance L 5, second end of inductance L 5 is held with the FB of the second step-down chip by resistance R36 and is connected, second end of inductance L 5 is also respectively by electric capacity C56, electric capacity C57, electric capacity C58 and electric capacity C59 ground connection, second end of inductance L 5 is also connected with the anode of light emitting diode D7 by resistance R39, the minus earth of diode D7, second end of inductance L 5 is connected with shower nozzle.

Substantial effect of the present invention is: the object of the invention is the weak point overcoming above-mentioned conventional art, a kind of industrial inkjet improving print system proposed prints, make data transmission efficiency higher, print more flexible, safeguard simpler, reduce maintenance cost, improve formation efficiency, save manufacturing cost.

Accompanying drawing explanation

Fig. 1 is a kind of structural representation of entirety of the present invention;

Fig. 2 is a kind of schematic diagram of partial circuit figure in the present invention;

In figure: 1, control board, 2, computer, 3, switch, 4, network interface, 5, nozzle data mouth, 6, serial ports, 7, power interface, 8, shower nozzle.

Detailed description of the invention

Below by specific embodiment, and by reference to the accompanying drawings, technical scheme of the present invention is described in further detail.

Embodiment:

A kind of off line industry stamp printer (see accompanying drawing 1 to 2) of flattening, by Power supply, comprise computer 2, control board 1, switch 3 and two print units, described computer and control board are all electrically connected with described switch, described switch is also electrically connected with the input end of each described print unit, each described print unit comprises a shower plate and a shower nozzle 8, described shower plate comprises nozzle driving circuit, network interface 4, nozzle data mouth 5, serial ports 6, power interface 7 and data storage circuitry, described power supply is powered to shower plate by power interface, the output of described network interface is all connected with described data storage circuitry with the output of serial ports, the input of described network interface is connected with described switch, described serial ports is setting parameter input port, described nozzle data mouth is electrically connected with described shower nozzle, the input of nozzle data mouth is electrically connected with data storage circuitry by nozzle driving circuit.Master chip in described nozzle driving circuit adopts Epson E09A7218A chip.Described data storage circuitry comprises master control system chip and pin-saving chip, described pin-saving chip and master control system chip electrical connect, the output of master control system chip is electrically connected by the input of nozzle driving circuit with nozzle data mouth, and the input of master control system chip is connected with network interface and serial port power respectively.Be integrated with grating decoder above described shower plate, output and the described master control system chip electrical of described grating decoder connect.Shower plate is equipped with UVLED cure lamp, input and the master control system chip electrical of UVLED cure lamp connect.

Described nozzle driving circuit comprises inductance L 4, inductance L 5, resistance R24, resistance R25, resistance R26, resistance R27, resistance R28, resistance R29, resistance R76, resistance R77, resistance R78, resistance R34, resistance R35, resistance R36, resistance R38, resistance R39, electric capacity C42, electric capacity C43, electric capacity C44, electric capacity C45, electric capacity C46, electric capacity C47, electric capacity C48, electric capacity C52, electric capacity C53, electric capacity C54, electric capacity C56, electric capacity C57, electric capacity C58, electric capacity C59, first amplifier, second amplifier, TLV5620 chip, first step-down chip, second step-down chip, Zener diode D4, Zener diode D6, light emitting diode D5 and light emitting diode D7, the first step-down chip and the second step-down chip are LM22675 chip, the DATA pin of TLV5620 chip, the CLK pin of TLV5620 chip, the LOAD pin of TLV5620 chip is connected with the master chip in nozzle driving circuit respectively with the LDAC pin of TLV5620 chip, the DATA pin of described TLV5620 chip connects 5V power supply by resistance R24, the CLK pin of TLV5620 chip connects 5V power supply by resistance R76, the LOAD pin of TLV5620 chip connects 5V power supply by resistance R77, the LDAC pin of TLV5620 chip connects 5V power supply by resistance R78, the vdd terminal of TLV5620 chip connects 5V power supply, the DACA pin of TLV5620 chip is connected with the positive input terminal of the first amplifier, the negative input end of the first amplifier is connected with the output of the first amplifier, the output of the first amplifier is held with the FB of the first step-down chip and is connected, the FB end of the first step-down chip is by resistance R26 ground connection, the VIN termination 3.6V power supply of the first step-down chip, the VIN end of the first step-down chip is also respectively by electric capacity C43 and electric capacity C44 ground connection, the EN end of the first step-down chip is connected with the master chip in nozzle driving circuit, the EN end of the first step-down chip is by resistance R28 ground connection, the BOOT of the first step-down chip is held with the SW of the first step-down chip by electric capacity C42 and is connected, the SW end of the first step-down chip is connected with the negative electrode of Zener diode D4, the plus earth of Zener diode D4, the negative electrode of Zener diode D4 is connected with the first end of inductance L 4, second end of inductance L 4 is held with the FB of the first step-down chip by resistance R27 and is connected, second end of inductance L 4 is also respectively by electric capacity C45, electric capacity C46, electric capacity C47 and electric capacity C48 ground connection, the second end of inductance L 4 is also connected with the anode of light emitting diode D5 by resistance R29, the minus earth of diode D5, and the second end of inductance L 4 is connected with shower nozzle, the DACA pin of TLV5620 chip is connected with the positive input terminal of the second amplifier, the negative input end of the second amplifier is connected with the output of the second amplifier, the output of the second amplifier is held with the FB of the second step-down chip and is connected, the FB end of the second step-down chip is by resistance R35 ground connection, the VIN termination 3.6V power supply of the second step-down chip, the VIN end of the second step-down chip is also respectively by electric capacity C53 and electric capacity C54 ground connection, the EN end of the second step-down chip is connected with the master chip in nozzle driving circuit, the EN end of the second step-down chip is by resistance R38 ground connection, the BOOT of the second step-down chip is held with the SW of the second step-down chip by electric capacity C52 and is connected, the SW end of the second step-down chip is connected with the negative electrode of Zener diode D6, the plus earth of Zener diode D6, the negative electrode of Zener diode D6 is connected with the first end of inductance L 5, second end of inductance L 5 is held with the FB of the second step-down chip by resistance R36 and is connected, second end of inductance L 5 is also respectively by electric capacity C56, electric capacity C57, electric capacity C58 and electric capacity C59 ground connection, second end of inductance L 5 is also connected with the anode of light emitting diode D7 by resistance R39, the minus earth of diode D7, second end of inductance L 5 is connected with shower nozzle.

This printing solution of the present embodiment is applicable to multiple field and industry, and be not only used in the industries such as ceramic floor, glass, acrylic, weaving and advertisement, economic benefit is large.This design is improved the board comprised traditional responsible data configuration board and control nozzle printing and is carried out function synthesis, and data configuration and Print Control all synthesize use one piece of board and control, and reduce the error in data transmission.When nozzle control panel card damages, reduce on nozzle printing impact, easily change, use flexibly, replace traditional USB mode and transmit data.Prior art improves nozzle control panel, by pin-saving chip synthesis on one piece of board, board memory space is made to become large, can print data be cached in nozzle control panel like this, storage expansion space is large, after print data has been uploaded, can off-line printing, further achieve the stability of Industrial Printing.Nozzle control panel after improvement, primarily of control board and nozzle control panel composition, connects switch realization data communication each other by netting twine, installation wiring on shower nozzle is connected to more flat by 30P flat wire, be connected with switch by netting twine, autgmentability is stronger, maintains easily and investigates.The object of the invention is to be achieved through the following technical solutions: database and shower nozzle drive plate are integrated on one piece of shower plate, PC (computer) end uses netting twine to be connected with all shower plates by switch, one piece of shower plate correspondence shower nozzle.

Above-described embodiment is one of the present invention preferably scheme, not does any pro forma restriction to the present invention, also has other variant and remodeling under the prerequisite not exceeding the technical scheme described in claim.

Claims (6)

1. the off line industry stamp printer of a flattening, by Power supply, it is characterized in that: comprise computer, control board, switch and at least one print unit, described computer and control board are all electrically connected with described switch, described switch is also electrically connected with the input end of each described print unit, each described print unit comprises a shower plate and a shower nozzle, described shower plate comprises nozzle driving circuit, network interface, nozzle data mouth, serial ports, power interface and data storage circuitry, described power supply is powered to shower plate by power interface, the output of described network interface is all connected with described data storage circuitry with the output of serial ports, the input of described network interface is connected with described switch, described serial ports is setting parameter input port, described nozzle data mouth is electrically connected with described shower nozzle, the input of nozzle data mouth is electrically connected with data storage circuitry by nozzle driving circuit.

2. the off line industry stamp printer of flattening according to claim 1, is characterized in that: the master chip in described nozzle driving circuit adopts Epson E09A7218A chip.

3. the off line industry stamp printer of flattening according to claim 1, it is characterized in that: described data storage circuitry comprises master control system chip and pin-saving chip, described pin-saving chip and master control system chip electrical connect, the output of master control system chip is electrically connected by the input of nozzle driving circuit with nozzle data mouth, and the input of master control system chip is connected with network interface and serial port power respectively.

4. the off line industry stamp printer of flattening according to claim 1, it is characterized in that: be integrated with grating decoder above described shower plate, output and the described master control system chip electrical of described grating decoder connect.

5. the off line industry stamp printer of flattening according to claim 3, it is characterized in that: shower plate is equipped with UVLED cure lamp, input and the master control system chip electrical of UVLED cure lamp connect.

6. the off line industry stamp printer of flattening according to claim 3, is characterized in that: described nozzle driving circuit comprises inductance L 4, inductance L 5, resistance R24, resistance R25, resistance R26, resistance R27, resistance R28, resistance R29, resistance R76, resistance R77, resistance R78, resistance R34, resistance R35, resistance R36, resistance R38, resistance R39, electric capacity C42, electric capacity C43, electric capacity C44, electric capacity C45, electric capacity C46, electric capacity C47, electric capacity C48, electric capacity C52, electric capacity C53, electric capacity C54, electric capacity C56, electric capacity C57, electric capacity C58, electric capacity C59, first amplifier, second amplifier, TLV5620 chip, first step-down chip, second step-down chip, Zener diode D4, Zener diode D6, light emitting diode D5 and light emitting diode D7, the first step-down chip and the second step-down chip are LM22675 chip, the DATA pin of TLV5620 chip, the CLK pin of TLV5620 chip, the LOAD pin of TLV5620 chip is connected with the master chip in nozzle driving circuit respectively with the LDAC pin of TLV5620 chip, the DATA pin of described TLV5620 chip connects 5V power supply by resistance R24, the CLK pin of TLV5620 chip connects 5V power supply by resistance R76, the LOAD pin of TLV5620 chip connects 5V power supply by resistance R77, the LDAC pin of TLV5620 chip connects 5V power supply by resistance R78, the vdd terminal of TLV5620 chip connects 5V power supply, the DACA pin of TLV5620 chip is connected with the positive input terminal of the first amplifier, the negative input end of the first amplifier is connected with the output of the first amplifier, the output of the first amplifier is held with the FB of the first step-down chip and is connected, the FB end of the first step-down chip is by resistance R26 ground connection, the VIN termination 3.6V power supply of the first step-down chip, the VIN end of the first step-down chip is also respectively by electric capacity C43 and electric capacity C44 ground connection, the EN end of the first step-down chip is connected with the master chip in nozzle driving circuit, the EN end of the first step-down chip is by resistance R28 ground connection, the BOOT of the first step-down chip is held with the SW of the first step-down chip by electric capacity C42 and is connected, the SW end of the first step-down chip is connected with the negative electrode of Zener diode D4, the plus earth of Zener diode D4, the negative electrode of Zener diode D4 is connected with the first end of inductance L 4, second end of inductance L 4 is held with the FB of the first step-down chip by resistance R27 and is connected, second end of inductance L 4 is also respectively by electric capacity C45, electric capacity C46, electric capacity C47 and electric capacity C48 ground connection, the second end of inductance L 4 is also connected with the anode of light emitting diode D5 by resistance R29, the minus earth of diode D5, and the second end of inductance L 4 is connected with shower nozzle, the DACA pin of TLV5620 chip is connected with the positive input terminal of the second amplifier, the negative input end of the second amplifier is connected with the output of the second amplifier, the output of the second amplifier is held with the FB of the second step-down chip and is connected, the FB end of the second step-down chip is by resistance R35 ground connection, the VIN termination 3.6V power supply of the second step-down chip, the VIN end of the second step-down chip is also respectively by electric capacity C53 and electric capacity C54 ground connection, the EN end of the second step-down chip is connected with the master chip in nozzle driving circuit, the EN end of the second step-down chip is by resistance R38 ground connection, the BOOT of the second step-down chip is held with the SW of the second step-down chip by electric capacity C52 and is connected, the SW end of the second step-down chip is connected with the negative electrode of Zener diode D6, the plus earth of Zener diode D6, the negative electrode of Zener diode D6 is connected with the first end of inductance L 5, second end of inductance L 5 is held with the FB of the second step-down chip by resistance R36 and is connected, second end of inductance L 5 is also respectively by electric capacity C56, electric capacity C57, electric capacity C58 and electric capacity C59 ground connection, second end of inductance L 5 is also connected with the anode of light emitting diode D7 by resistance R39, the minus earth of diode D7, second end of inductance L 5 is connected with shower nozzle.