Incremental printing of symbolic information – Ink jet – Controller
Reexamination Certificate
1995-07-28
2001-06-19
Mahoney, Christopher E. (Department: 2851)
Incremental printing of symbolic information
Ink jet
Controller
C347S017000
Reexamination Certificate
active
06247777
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to a recording apparatus and method, and more particularly to temperature control and an accompanying process, and, even more particularly, to temperature overrise protection in the recording apparatus.
2. Description of the Related Art
A recording apparatus used in a printer, a copying machine and a facsimile machine is constructed to record an image comprising a dot pattern on a recording medium such as a paper or a plastic thin sheet, in accordance with recording information. Such a recording apparatus may be classified by recording systems thereof into an ink jet system, wire dot system, thermal transfer system and laser beam system. Of those, the ink jet system recording apparatus discharges ink droplets (recording liquid) from discharge ports (outlets or orifices) provided in a head and deposits them to a recording medium to record an image. It has been widely used because it satisfactorily meets general requirements of high speed recording, high resolution recording, high grade recording and low noise recording.
As a general construction to meet the above requirements, a high head drive frequency and a large number of recording elements are used. In such a case, energy applied to the recording head remarkably increases.
Particularly, in the ink jet system, in which air bubbles are generated in ink by using thermal energy to discharge ink droplets, this tendency is remarkable. For example, in the recording apparatus, a member for mounting a recording head, an ink tank, and a member for supplying ink serve to emit heat by energy application, and when the drive frequency is doubled while a volume and a surface area of those members are kept fixed, a relatively double amount of energy would be applied. When the number of discharge ports is doubled, a double amount of energy would be applied, similarly. In actuality, when the number of recording elements or discharge ports is increased, a volume near the discharge ports increases but a volume of other parts and a surface area thereof do not significantly increase. Thus, in the above case, approximately four times the energy would be applied to the substantially constant volume and surface area
In this case, for the ink jet system using thermal energy, several tens percent of the applied energy is emitted from recording head in the form of kinetic energy to discharge the ink and heat that is generated by the discharged ink. Thus, an approximately two-fold temperature rise is generated in the recording head by the application of four times the energy.
However, the temperature rise in such a recording head raises the following two problems.
A first problem is due to the fact that the temperature of the recording head becomes high due to the approximately two-fold temperature rise.
For example, when recording is done at a relatively high recording duty in a temperature environment of 30° C., a temperature in the apparatus rises approximately 10° C. by the temperature rise of a power supply, a motor and a driver in the recording apparatus. In this case, if a recording head with a relatively low drive frequency and a relatively small number of discharge ports is used, the temperature rise will be approximately 25° C. even for full painting or 100% duty recording, but when the drive frequency is doubled and the number of discharge ports of the recording head is doubled, the temperature rise will be double, that is, approximately 50° C. By summing the environment temperature and the temperature rises, the temperature of the recording head is approximately 65° C. for the low drive frequency and the small number of discharge ports while it is approximately 90° C. for the high drive frequency and the large number of discharge ports.
When the temperature of the recording head reaches approximately 90° C., failure of discharge is apt to occur. Further, in an apparatus in which the recording head is exchangeable or it may be touched by a user, it is necessary to pay attention to prevent the user from touching the recording head while the recording head is at a high temperature.
A second problem relates to a break mode of the recording head.
As explained above, the recording head temperature may reach 90° C. depending on the recording status. In this case, even if four times the energy is applied to the recording head, the temperature rise thereof is approximately two times because several tens percent of energy is ejected out of the recording head as thermal and kinetic energies when the ink is discharged. However, although the operation is that described above when the ink is normally discharged, the ink is not supplied to the recording head when an ink tank is empty and no ink to be discharged is present or when air bubbles stay in an ink supply path to block the supply of the ink. In such cases, a so-called empty heat state in which the recording head is driven without ink occurs.
In this case, since four times the energy is supplied with no ink discharged as in the above example, the energy for the discharge of the ink causes the abrupt rise of the temperature of the recording head so that the temperature of the recording head reaches one hundred and several tens ° C. As a result, plastic parts of the recording head exceed a thermal deformation temperature and they may be deformed, adhered portions may be torn off by the abrupt thermal expansion or the ink near the heater is burned making the heater inoperable.
The break mode which is inherent to the ink jet system is different from a break mode in the conventional thermal transfer system or wire dot system in which the temperature gently rises by continuous recording to cause breakage due to the temperature overrise determined by a heat capacity of the recording head unit. The existence of such a break mode makes difficult the solution by various countermeasures for the conventional break mode.
SUMMARY OF THE INVENTION
It is an object of the present invention to provide a recording apparatus and method which allows prevention of an abrupt overrise of temperature which leads to breakage of a recording head per se.
It is another object of the present invention to provide a recording apparatus and method which allows prevention of a user from touching a recording head which is at a high temperature.
In order to achieve the above objects, the present invention provides a recording apparatus for recording on a recording medium by using a recording head, comprising acquiring means for acquiring information on a temperature of an outer wall of said recording head; and control means for controlling an operation of said recording apparatus based on the temperature information of the outer wall acquired by said acquiring means.
Further, the present invention provides a recording method for recording on a recording medium by using a recording head, comprising the steps of acquiring information on a temperature of an outer wall of said recording head; and controlling an operation of said recording apparatus based on the temperature information of the outer wall acquired by said acquiring step.
In accordance with the present invention, when a temperature of an outer wall of a recording head reaches a high temperature such as a temperature which is dangerous if touched by a user, the recording operation is suspended until it reaches a safe temperature.
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Canon Kabushiki Kaisha
Fitzpatrick ,Cella, Harper & Scinto
Mahoney Christopher E.
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