KR19980031757A - Nozzle Cleaning in Inkjet Printers - Google Patents

Abstract

The present invention relates to a nozzle-specific cleaning method in an inkjet printer, and more particularly, to a nozzle-specific cleaning method in an inkjet printer for reducing ink consumption by cleaning only a clogged nozzle portion when a nozzle is clogged. When the nozzle is blocked in a process of testing the nozzle to check whether the nozzle is operating normally, determining whether the nozzle is blocked in the process of performing the nozzle test, and determining whether the nozzle is blocked When the nozzle cleaning menu is selected, the nozzle cleaning menu is selected and the nozzle cleaning menu is executed, the blocked nozzle number is selected and the blocked nozzle number is selected when the blocked nozzle number is selected. It is composed of the process of cleaning the corresponding nozzle number If prevent the consumption of the nozzle hole is clogged by any cleaning by operating only the nozzle is possible, the effect of extending the life of the ink cartridge.

Description

Method for cleaning by a nozzle in a inkjet printer

The present invention relates to a nozzle-by-nozzle cleaning method in an inkjet printer, and more particularly, to a nozzle-by-nozzle cleaning method in an inkjet printer for reducing ink consumption by cleaning only a clogged nozzle portion when the nozzle is clogged.

In general, the liquid ink filled in the head of the inkjet printer should be quick-drying to be dried as soon as possible when exposed to the atmosphere, so the ink waiting at the spray nozzle is also fast-drying. Therefore, in the printing standby state, drying of the nozzle more than a certain amount cannot be avoided, and it should be wiped off as it is contaminated with foreign matter such as dust attached to the oil film on the nozzle surface. That is, the ink buried around the nozzle hole during printing also affects the direction of the main injection drop and may cause the adsorption of dust in the air, eventually causing the nozzle to be clogged.

For this reason, in inkjet printers that have been commercialized until recently, when the nozzles of an ink cartridge are clogged or nozzle cleaning is performed to return the nozzles to a normal state, when the ink cartridge cleaning menu is selected, all nozzles are driven to clean the nozzles. Is being carried out. The ink cartridge cleaning method has a problem in that unnecessary ink is consumed because all the nozzles are driven and cleaned.

Therefore, an object of the present invention is to enable the nozzle cleaning by selecting only the nozzle when the nozzle is clogged in order to prevent unnecessary consumption of ink and to extend the service life of the ink cartridge.

Looking at the nozzle driving apparatus of the inkjet printer first to achieve the object as follows.

1 is a block diagram of a nozzle driving apparatus in a general inkjet printer, in which a head unit 10 equipped with a nozzle for ejecting ink for printing printing and a nozzle mounted on the head unit 10 are common. A switching unit 20 for sensing a potential and performing a switching operation, and a central processing unit (hereinafter referred to as CPU) 30 for sensing a switching signal output by the switching operation of the switch unit 20.

The operation of the nozzle driving apparatus of the ink jet printer configured as described above is as follows.

The head 11 equipped with a nozzle for ejecting ink for printing a print has four common terminals in the case of mono, and fourteen nozzles are connected to each common terminal. The common terminal to which 14 nozzles are connected receives the voltage V _H induced by the resistors R1, R2, R3, and R4. When any head nozzle among the heads to which the voltage V _H is applied is turned on, the potential of one of the common terminals 1, 2, 3, and 4 drops. When the potential of one of the common terminals 1, 2, 3, and 4 drops, one of the diodes D1, D2, D3, and D4 is turned on so that the anode of the zener diode ZD of the switch unit 20 is turned on. The potential at one end drops. Since the potential at the anode end of the Zener diode ZD drops, the Zener voltage is lowered below the reference low voltage, thereby lowering the base potential of the transistor Q1, thereby turning off the transistor Q1.

When the transistor is turned off, the collector potential changes from low to high, and the response signal is transmitted to the CPU 30 to determine the normal state of the head nozzle. That is, when a check signal is transmitted to an arbitrary nozzle, the response signal is sensed through the collector terminal of the transistor Q1, and when it is changed from low to high, the corresponding nozzle is determined to be in a normal state. At this time, if the state is kept low, the nozzle is determined to be in an error state.

Therefore, an object of the present invention is to inspect the nozzle state of an inkjet printer using such a circuit, and to clean only the nozzle which has been generated when an error (when no ink is generated through the nozzle hole) occurs.

1 is a block diagram of a nozzle driving apparatus in an inkjet printer;

Figure 2 shows a cleaning method for each nozzle in the inkjet printer according to the present invention

It is a flow chart.

The present invention having such an object will be described with reference to the accompanying drawings.

2 is a flow chart illustrating a cleaning method for each nozzle in the inkjet printer according to the present invention, the process of turning on the power of the inkjet printer (S41), and for checking whether the nozzle operates normally when the power of the inkjet printer is initially turned on. In the step S42 of executing a nozzle test, the step S43 of determining whether the nozzle is blocked in the step S42 of executing the nozzle test, and the step S43 of determining whether the nozzle is blocked, If clogged, the process of selecting a nozzle cleaning menu (S44), the process of selecting the nozzle cleaning nozzle number (S45) and the clogged nozzle number is selected in the process (S45) When the nozzle number is selected, the process of cleaning the clogged nozzle is performed in order to clean only the corresponding nozzle (S46), and when the clogged nozzle cleaning is completed, the process is terminated (S47). have.

Referring to the flow of the present disease is made in the same process in detail as follows.

The power of the inkjet printer is turned on through the process of turning on the power for the first time (S41) to use the inkjet printer. When the power of the inkjet printer is turned on, an initialization process for checking the operation of the inkjet printer is performed. The inkjet printer will run the initialization process by selecting the nozzle test menu to test the nozzles.

In the process of executing the nozzle test (S42), if foreign matter is generated in the nozzle or the ink is ejected and the remaining ink droplets are not completely wiped, due to the quick drying of the ink to block the hole of the nozzle. Therefore, when the nozzle test process (S42) is executed, it is determined whether the nozzle hole is blocked through the process (S43) of determining whether the nozzle hole is blocked.

If it is determined that the nozzle hole is blocked through the process of determining whether the nozzle hole is blocked (S43), the nozzle test process (S42) is stopped, and the process proceeds to the step (S44) of executing the nozzle cleaning menu. When determining which nozzle hole is blocked in the process of determining the blockage of the nozzle hole (S43), the cleaning menu is selected. If the blocked nozzle number is selected through the process of selecting the blocked nozzle number (S45) during the process of executing the cleaning menu (S44), only the nozzle is cleaned through the process of performing the nozzle cleaning (S46). When cleaning of the clogged nozzle holes is completed, the process of initializing the inkjet printer is completed (S47). In this case, if the nozzle hole is normal in the process of determining the clogging of the nozzle hole (S43), the process of completing the test of the nozzle (S47) is performed.

Therefore, the present invention has the effect of extending the service life of the ink cartridge by preventing the unnecessary consumption of ink and cleaning only by driving the nozzle when any nozzle hole is clogged.

Claims (2)

Performing a nozzle test to check whether the nozzle is operating normally when the inkjet printer is powered on for the first time; Determining whether the nozzles are clogged during the nozzle test; Selecting a nozzle cleaning menu when the nozzle is blocked in the process of determining whether the nozzle is blocked; Selecting a clogged nozzle number when the nozzle cleaning menu is executed in the process of selecting the nozzle cleaning menu; And cleaning the corresponding nozzle number when the blocked nozzle number is selected in the process of selecting the blocked nozzle number. The method of claim 1, And the nozzle cleaning menu is executed when the nozzle is blocked in the process of determining whether the nozzle is blocked, and when the nozzle is not blocked, a nozzle test is completed.