JPH03144458A - Method and device for removing paint film at drum terminal part - Google Patents

Abstract

PURPOSE:To accurately and easily remove a paint film at a drum terminal part and in a short time by burning or sublimating the paint film by irradiating the paint film at the drum terminal part to be removed with a laser beam with prescribed wavelength. CONSTITUTION:The laser beam oscillated from a VAG laser unit 21 is directly irradiated to the lower terminal part of a drum 50 in a state where a prism 31 is retreated from its optical path, and in a state where the prism 31 is in the optical path, the laser beam is refracted on the prism 31, then, is reflected on a reflecting mirror 33, and is irradiated to the inner peripheral plane of the lower terminal part of the drum 50. Such operation is repeated at high speed, and the paint film on the outer peripheral plane and that on the inner peripheral plane of the lower terminal part of the drum 50 are irradiated with the laser beam alternately, thereby, the paint film at an irradiated part is burned or sublimated. Thereby, it is possible to surely remove the paint film on the outer and inner peripheral planes of the drum terminal part in a short time.

Description

Detailed Description of the Invention (Industrial Application Field) The present invention is applicable to, for example, when manufacturing an electrophotographic photoreceptor drum in which a coating film of a photosensitive substance is formed on the outer peripheral surface and inner peripheral surface of the drum. The present invention relates to a method for removing a coating film from an end of a drum, which is carried out to remove unnecessary coating films from the outer circumferential surface and inner circumferential surface of the end portion, and an apparatus used to carry out the method.

(Prior art) For example, a photosensitive drum used in an image forming apparatus has a coating film of a photosensitive substance formed on the outer peripheral surface of the drum, such as an aluminum tube, and an image is formed on the coating film of the photosensitive substance. It is formed. Such a photoreceptor drum is manufactured, for example, by a dipping method. In this immersion method, a drum made of aluminum tube or the like is held in a substantially vertical position, the drum is immersed in a coating limb containing a photosensitive substance, and the drum is pulled up from the coating liquid to coat the outer circumferential surface of the drum. Forms a photosensitive coating. In such a dipping method, a coating film is formed on the entire outer circumferential surface of the drum including the end portion, and a coating film is also formed on the inner circumferential surface of the lower part of the drum. However, since it is necessary to attach a flange to the end of the mysterious light drum or conductive treatment to the end, unnecessary coating films formed on the outer and inner peripheral surfaces of the end are removed by the immersion process. It is removed in the paint film removal step that is carried out after the process.

In the coating film removal process, the coating film on the photoreceptor drum can be dissolved.
For example, the lower ends of a plurality of vertically supported photoreceptor drums are immersed in a processing liquid made of a solvent such as tetrahydrofuran (THF), and the photoreceptor drums and the processing liquid are moved up and down relative to each other. A method of removing the coating film from the lower end of a photoreceptor drum is known. A method of cutting with a cutting blade is also known.

(Problem to be Solved by the Invention) However, in the method of removing the paint film by immersing the end of the drum in a processing liquid such as a solvent, the process is performed while the end of the drum is immersed in the processing liquid. The liquid and the drum must be oscillated relative to each other, which may cause the processing liquid to adhere to a photosensitive layer on the drum that does not need to be removed, thereby adversely affecting the photosensitive layer. Further, the treatment liquid becomes contaminated with dissolved substances from the paint film removed from the drum over time, and the paint film removal ability gradually decreases, so there is a possibility that the state of the paint film removal is not constant. Furthermore, since an organic solvent is usually used as the processing liquid, there is also the problem that an explosion-proof structure or the like is required.

When cutting the paint film at the end of the drum with a cutting blade, it is usually necessary to cut the paint film at the end of each drum.
Workability is poor, and there is also a risk that the cutting waste may be scattered around, which may have an adverse effect on the photosensitive layer.

The present invention solves the above-mentioned conventional problems, and its purpose is to provide a coating film on the outer and inner peripheral surfaces of the drum end that can be removed accurately, extremely easily, and in a short period of time. An object of the present invention is to provide a coating film removal method and device.

(Means for Solving the Problems) A method for removing a coating film on an end of a drum according to the present invention is a method for removing a coating film on an end of a drum on which a coating film has been formed, the method comprising: The present invention is characterized in that the paint film at the end of the drum to be removed is irradiated with laser light of a predetermined wavelength to burn or sublimate the paint film, thereby achieving the above object.

Further, the drum end coating film removing device of the present invention is a drum end coating film removing device for removing each coating film on a drum in which a coating film is formed on the outer circumferential surface and the inner circumferential surface of the drum end. There is a laser light source section capable of oscillating laser light of a predetermined wavelength, and the laser light emitted from the laser light source section is alternately irradiated onto the outer peripheral surface and inner peripheral surface of the end of the drum from which the coating film is to be removed. The apparatus further includes an optical path changing section that changes the optical path of the laser beam, thereby achieving the above object.

(Example) The present invention will be described below with reference to Examples.

The apparatus of the present invention used to carry out the method of removing a coating film from the end of a drum according to the present invention is used, for example, when manufacturing an electrophotographic photoreceptor drum in which a coating film of a photosensitive substance is formed on the outer peripheral surface of the drum. be done. As shown in FIG.
A chucking device 10 capable of raising/lowering and rotating the drum 50, a laser light source section 20 capable of emitting laser light of a predetermined wavelength with a predetermined output, and changing the optical path of the laser light emitted from the laser light source section 20. An optical path changing section 30 is provided.

The laser light source 20 includes, for example, a YAG (yttrium aluminum garnet) laser unit 21 that oscillates a laser beam with a wavelength that burns or sublimates a coating film of a photosensitive material formed on the outer peripheral surface of the drum 50. Power supply section 22 for applying high voltage to the laser unit 21
and has. The power supply unit 22 is capable of adjusting the voltage applied to the YAG laser unit 21, and by adjusting the voltage, the output of the laser beam oscillated from the YAG laser unit 21 is adjusted. The YAG laser unit 21 is disposed facing the lower end of the drum 50 from which the coating film is to be removed, and oscillates a laser beam substantially horizontally.

The optical path changing section 30 interposed between the laser light source section 20 and the drum 50 includes a prism 31 arranged so as to be able to enter and exit the optical path of the laser light emitted from the laser light source section 21. and an elevating means 32 for elevating and lowering the prism 31 at high speed to enter and exit the optical path of the laser beam. As the elevating means 32, an air cylinder, a motor, or the like is used. When the prism 31 enters the optical path of the laser beam by the elevating means 32, it refracts the optical path of the laser beam slightly downward. and,
A reflecting mirror 33 is disposed in the optical path of the laser beam refracted by the prism 31. The reflecting mirror 33 directs the laser beam refracted by the prism 31 to the chucking device 10.
The light is reflected toward the inner peripheral surface of the lower end of the drum 50, which is vertically supported by the drum 50. A cooling water flow pipe 3 is provided in the prism 31 in order to suppress heating caused by the laser beam passing through the prism 31.
4 are arranged.

A suction device 40 is disposed near the lower end of the drum 50 vertically supported by the chucking device 10, and the suction device 40 removes the lower end of the drum 50 that has been burned or sublimated by the laser beam. Paint film components are absorbed.

The operation of the apparatus for removing the coating film on the end of the drum having such a structure is as follows. The drum 50 is vertically supported by the chucking device 10 so that the upper end of the lower end of the coating film to be removed is irradiated with laser light emitted from the YAG laser unit in the laser light source section 2o. be raised and lowered. In this state, the chucking device 10 rotates the drum 5o in a predetermined direction, and the YAG laser unit 21 oscillates a laser beam of a predetermined wavelength. At the same time, the elevating means 32 of the optical path changing section 30 moves the prism 31
is driven up and down at high speed, and the prism 31 enters and leaves the optical path of the laser beam oscillated from the YAG laser unit 21 at high speed. As a result, the laser beam oscillated from the YAG laser unit 21 is directly irradiated onto the lower end of the drum 50 when the prism 31 exits from the optical path, and when the prism 31 enters the optical path, the laser beam oscillated from the prism 31 After being refracted by the mirror 33, the light is reflected onto the inner circumferential surface of the lower end of the drum 5o. Such a state is repeated at high speed, and the coating film on the outer peripheral surface and the coating film on the inner peripheral surface of the lower part of the drum 50 are alternately irradiated with laser light at high speed, and the irradiated portion is The coating is burned or sublimated. The burned or sublimated coating film components are removed by a suction device 1 disposed near the lower end of the drum 50.
140.

The drum 50 is thus rotating with the outer circumferential surface and inner circumferential surface of the lower end portion irradiated with laser light, for example,
Every few rotations of the drum 50, the drum 50 is raised by a predetermined amount. When the coating film on a predetermined area of the outer circumferential surface and inner circumferential surface of the lower end of the drum 50 is removed by the laser beam, the oscillation of the laser beam is stopped.

The laser light emitted from the 2nd YAG laser unit is
Usually, it is about 1600 ni, and the coating film formed as a photosensitive layer is reliably burned or sublimed.

Further, the output of the laser light emitted from the YAG laser unit 21 can burn or sublimate the coating film formed as a photosensitive layer, and is also capable of burning or sublimating the coating film formed as a photosensitive layer, and is not harmful to an aluminum drum, for example. Set.

(Effects of the Invention) The method and apparatus for removing the coating film on the drum end of the present invention removes the coating film on the drum end using laser light, so that the outer circumferential surface of the drum end and The paint film on the inner peripheral surface can be reliably removed in a short time.

4. of. FIG. 1 is a schematic diagram showing an example of the apparatus of the present invention used to carry out the method of removing a coating film from the end of a drum according to the present invention.

DESCRIPTION OF SYMBOLS 10... Chucking device, 20... Laser light source part, 21... YAG laser unit, 30... Optical path change part, 31... Prism, 32... Lifting means, 33
···Reflector.

that's all

Claims (1)

[Scope of Claims] 1. A method for removing a coating film at the end of a drum on which a coating film has been formed, the method comprising: applying a laser of a predetermined wavelength to the coating film at the end of the drum to be removed; A method for removing a coating film from an end of a drum, the method comprising burning or sublimating the coating film by irradiating it with light. 2. A drum end paint film removal device for removing each paint film on a drum having a paint film formed on the outer peripheral surface and the inner peripheral surface of the drum end, the laser being capable of emitting a laser beam of a predetermined wavelength. a light source section; and an optical path for changing the optical path of the laser beam so that the laser beam oscillated from the laser light source section alternately irradiates the outer circumferential surface and the inner circumferential surface of the end of the drum from which the coating film is to be removed. A coating film removal device for the end of a drum, comprising a changing section and.