JP3007556B2 - Document illumination device - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a document illuminating device which is incorporated in a copying apparatus such as an electrophotographic copying machine, a character reading apparatus and the like and is used for illuminating a document.

[0002]

2. Description of the Related Art In an electrophotographic copying machine, a character reading device and the like, a document illuminating device for illuminating a document is used. FIG. 10 is an explanatory cross-sectional view schematically showing the configuration of an example of a conventional document illuminating device used in an electrophotographic copying machine. In this document illuminating device, a filament assembly, in which light-emitting portions and non-light-emitting portions are alternately arranged, is placed below a document table 1 made of a transparent glass plate arranged horizontally in a straight tubular envelope. An incandescent lamp 3 arranged along the axial direction is arranged so as to extend in the width direction of the document table 1 (a direction perpendicular to the paper surface in the figure), and reflects light from the incandescent lamp 3 toward the document table 1. A gutter-shaped mirror 4 is provided so as to surround the incandescent bulb 3, and the incandescent bulb 3 is held at both ends by a bulb holder (not shown). On one side edge of the mirror 4, a slit forming member 6 for forming a slit 5 extending parallel to the axial direction of the incandescent lamp 3 is formed integrally with the mirror 4.

In the above-described document illuminating device, the document 2 placed on the document table 1 is controlled by the incandescent lamp 3 and the mirror 4.
The document surface 2a is illuminated in a band shape, and the document illuminating device is relatively moved with respect to the document surface 2a in a direction perpendicular to the axial direction of the incandescent lamp 3 (the left-right direction in the drawing).
The illumination light is scanned on the original surface 2a, and the reflected light from the original surface 2a is regulated to a narrow band by the slit 5 and then projected onto the surface of a photoconductor (not shown) of the electrophotographic copying machine. Thus, illumination of the entire original surface 2a of the original 2 is achieved.

In the above, the document illuminating device is connected to the document surface 2a.
Means for moving the document table relative to the fixed document table and means for moving the document table 1 relative to the fixed document table are known. For example, in a so-called high-speed type electrophotographic copying machine capable of performing a copying process of 30 sheets or more per minute, the former means is generally employed.

However, when the original illuminating device itself is moved, a large impact is applied to the incandescent lamp 3, and moreover,
Since the incandescent light bulb 3 having a long and thin rod shape is only held at both ends, it vibrates due to the impact. Therefore, filament breakage accidents easily occur,
There is a problem that the service life of the incandescent lamp 3 is short. In particular, recently, an electrophotographic copying machine capable of performing a copying process of 80 sheets or more per minute has been developed, and when used in such an electrophotographic copying machine, the shock applied to the incandescent lamp 3 is reduced. It will be quite large.

In order to solve such a problem, at a position corresponding to the non-light-emitting portion of the incandescent lamp, the entire periphery of the envelope is gripped by a holder and fixedly held on a mirror, whereby vibration generated in the incandescent lamp is generated. There has been proposed a document illuminating device that suppresses the image distortion (see Japanese Patent Publication No. 3-38592).

However, when the incandescent lamp has reached the end of its useful life or when the incandescent lamp has failed, it is necessary to replace the incandescent lamp with a new incandescent lamp.
In the document illuminating device having the above configuration, since the entire periphery of the incandescent light bulb is gripped by the holder fixed and held by the mirror, the work of removing the incandescent light bulb from the holder and the work of attaching the incandescent light bulb to the holder are required. There is a problem that it is very complicated, and it is difficult to easily replace the incandescent lamp.

[0008]

DISCLOSURE OF THE INVENTION The present invention has been made based on the above circumstances, and its object is to provide:
It is an object of the present invention to provide a document illuminating device capable of reducing the impact applied to an incandescent lamp when being moved, obtaining a long service life of the incandescent lamp, and easily replacing the incandescent lamp.

[0009]

According to the document illuminating device of the present invention, a filament assembly in which light-emitting portions and non-light-emitting portions are alternately arranged is arranged in a straight tubular envelope along the tube axis direction. And a gutter-shaped mirror surrounding the incandescent light bulb and reflecting light from the incandescent light bulb toward a document surface to be illuminated.
At a position corresponding to the non-light emitting portion of the incandescent light bulb, a ring-shaped heat-resistant elastic member partially formed with a notch for attachment / detachment is provided in a state where a part of the outer peripheral surface is in contact with the mirror. It is characterized by being fitted and attached to the body.

In the above-described document illuminating device, it is preferable that the mirror has an opening or a recess for accommodating a part of the heat-resistant elastic member and regulating the position of the heat-resistant elastic member.

[0011]

According to the above construction, since the ring-shaped heat-resistant elastic member is fitted and attached to the incandescent light bulb in a state where a part of the outer peripheral surface is in contact with the mirror, the incandescent light bulb is mounted. Is reduced by the elastic force of the heat-resistant elastic member,
As a result, vibration generated in the incandescent lamp is reduced, and as a result, a long service life of the incandescent lamp is obtained. In addition, since the heat-resistant elastic member is not fixedly held on the mirror, the incandescent lamp can be removed while the heat-resistant elastic member is mounted, and a part of the heat-resistant elastic member is provided with a detachable notch. Is formed, the heat-resistant elastic member can be easily removed from the incandescent lamp by elastically deforming the heat-resistant elastic member to expand the notch.

Further, according to the structure in which a part of the heat-resistant elastic member is accommodated in the mirror and an opening or a recess for regulating the position of the heat-resistant elastic member is formed, the position of the heat-resistant elastic member is adjusted. The displacement can be prevented, and the heat-resistant elastic member can be prevented from rotating around the envelope of the incandescent lamp.

[0013]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of a document illuminating device according to the present invention will be described below. 1 and 2 are explanatory views schematically showing the configuration of an example of the document illuminating device of the present invention. FIG. 1 is a perspective view, and FIG. 2 is a sectional view taken along line XX of FIG. It is sectional drawing. In this document illumination device, a tube-shaped halogen incandescent lamp 10 extends in a width direction of the document table 1 (a direction perpendicular to the plane of FIG. 2) below a document table 1 made of a transparent glass plate disposed horizontally. And a gutter-shaped mirror 20 that reflects light from the incandescent lamp 10 toward the document table 1 is provided so as to surround the incandescent lamp 10 along its axial direction. It is held by a pair of side plates 30 provided at both ends.

At both ends of the incandescent lamp 10, a pair of bulb holders 31 made of an elastic metal plate are provided so that the tips 33 constituting the contacts are opposed to each other.
Are arranged between the distal ends 33 of the bulb holders 31 in a state where each of the bulb holders 31 is suppressed to bend outward. Each base end 32 of the bulb holder 31 is fixed to the side plate 30 via a fixing member 35, whereby the incandescent lamp 10 is attached to the electrode holder 3.
The mirror 20 is held by a side plate 30 that holds the mirror 20 via the first member 1 and the fixing member 35. In the illustrated example, the incandescent lamp 10
A slit forming member 21 that forms a slit 22 extending in parallel with the axial direction of the mirror 20 is formed integrally with one side edge of the mirror 20.

In the incandescent lamp 10, as shown in FIG. 3, a straight tubular sealing body 11 having sealing portions 12 formed at both ends.
Inside, a filament assembly 13 is arranged along the tube axis direction of the sealing body 11, and both ends of the filament assembly 13 are respectively sealed with the metal foil 1 airtightly sealed in the sealing section 12.
6 and each metal foil 16 is connected to an external lead rod 17.
It is connected to the. The filament assembly 13 includes a light emitting portion 14 formed of a coiled filament and a short-circuit core wire 15.
a and ring-shaped supporters 15b formed at both ends thereof
And the non-light-emitting portions 15 are arranged alternately on a straight line. For example, the length of the light-emitting portions 14 at both ends is larger than the length of the light-emitting portions 14 near the center.

A ring-shaped heat-resistant member having an inner diameter slightly smaller than the outer diameter of the envelope 11 is provided at a central position of the envelope 11 of the incandescent lamp 10 corresponding to the non-light emitting portion 15 near the center of the filament assembly 13. The elastic elastic member 40 is fitted and attached to the sealing body 11 in a state where a part of the outer peripheral surface thereof is pressed against the inner surface of the mirror 20 with a small force. The heat-resistant elastic member 40 is made of, for example, a resin material such as a silicone resin or a fluorine resin. Further, it is preferable to use a white heat-resistant elastic member 40.

As shown in FIG. 4, a notch 41 is formed in a part of the ring-shaped heat-resistant elastic member 40, and the notch 41 faces the front, specifically, a notch. The heat-resistant elastic member 40 is mounted on the envelope 11 of the incandescent lamp 10 with the edge E of the notch 41 not in contact with the reflecting surface of the mirror. In the heat-resistant elastic member 40, it is possible to expand the notch 41 to a width larger than the outer diameter of the envelope 11 of the incandescent lamp 10 by elastically deforming the heat-resistant elastic member 40. It can be attached to and detached from the envelope 11 of the incandescent lamp 10 via the notch 41.

The notch 41 of the heat-resistant elastic member 40 may be a notch as long as it can be expanded to a width larger than the outer diameter of the envelope 11 of the incandescent lamp 10. In a state where the heat-resistant elastic member 40 is not deformed, the opening angle θ from the center of the heat-resistant elastic member 40 is set.
Is preferably from 0 ° to less than 180 °, particularly preferably from 30 ° to 90 °. If this angle is too large,
It becomes difficult to securely attach the heat-resistant elastic member 40 to the incandescent lamp 10.

The heat-resistant elastic member 40 has a thickness t.
Is, for example, 1 to 3 mm, and its width w in the radial direction is
Is preferably slightly larger than the shortest distance between the outer peripheral surface of the envelope 11 of the incandescent lamp 10 and the reflecting surface of the mirror 20, for example, 0.1 mm or more.

In the above-described original illuminating device, the original surface 2a of the original 2 placed on the original plate 1 is illuminated in a band shape by the incandescent lamp 10 and the mirror 20, and the original illuminating device is connected to the original plate 1 Longitudinal direction (left-right direction in FIG. 2)
, The belt-like illumination light is scanned over the document surface 2a, while the reflected light from the document surface 2a is regulated to a narrow band shape by the slit 22, and then, for example, onto the surface of a photoconductor (not shown). By projecting, illumination of the entire original surface 2a of the original 2 is achieved.

As described above, when the original illuminating device is moved, a considerably large impact is applied to the incandescent lamp 10. According to the document illuminating device described above, the ring-shaped heat-resistant elastic member 40 is fitted and attached to the envelope 11 of the incandescent lamp 10 with a part of the outer peripheral surface being in contact with the mirror 20. Therefore, the shock applied to the incandescent lamp 10 is mitigated by the elastic force of the heat-resistant elastic member 40, whereby the vibration generated in the incandescent lamp 10 is reduced, and as a result, a long service life of the incandescent lamp 10 is obtained. .

Since the heat-resistant elastic member 40 is not fixedly held on the mirror 20, the incandescent lamp 10 can be mounted or removed while the heat-resistant elastic member 40 is still mounted. The mounting or removal of the incandescent lamp 10 can be performed simply by displacing the distal end portion 33 of the light bulb holder 31 outward, so that it is easy. Moreover, since the notch 41 is formed in a part of the heat-resistant elastic member 40, the notch 41 is expanded by deforming the heat-resistant elastic member 40 elastically.
The heat-resistant elastic member 40 can be easily removed from the incandescent lamp 10.
It can be easily attached to.

Further, the heat-resistant elastic member 40 is used for the incandescent lamp 1.
0 of the document assembly 2 of the document 2 without sacrificing a part of the light from the incandescent light bulb 10 because it is mounted at a position corresponding to the non-light-emitting portion 15 of the filament assembly 13 in the envelope 11 of FIG. Lighting can be achieved. Moreover, since the temperature of the portion corresponding to the non-light-emitting portion 15 in the sealing body 11, particularly the central position thereof, is lower than that of the position corresponding to the light-emitting portion 14, the material constituting the heat-resistant elastic member 40 includes It is sufficient to use a resin material having heat resistance.

Further, since the heat absorption is suppressed by using a white heat-resistant elastic member 40, the heat-resistant elastic member 40 is reliably prevented from being damaged by the heat from the incandescent lamp 10. be able to.

FIG. 5 is an explanatory view schematically showing the configuration of another example of the original illuminating device of the present invention. In this document illuminating device, similarly to the document illuminating device shown in FIGS. 1 and 2, an incandescent lamp 10, a mirror 20, and a heat-resistant elastic member 40 are provided.
0 non-light emitting portion 15 near the center of the filament assembly 13
A rectangular opening 25 is formed at a position opposite to the center position (see FIG. 3) of the first embodiment. This opening 25 is used for the incandescent lamp 10
The width in the axial direction of the heat-resistant elastic member 40 matches the thickness t of the heat-resistant elastic member 40, and the vertical width is smaller than the outer diameter of the heat-resistant elastic member 40. The heat-resistant elastic member 40 includes the incandescent lamp 1.
The sealing member 11 is mounted at a position facing the opening 25, a part of the sealing member 11 is accommodated in the opening 25, and the position of the heat-resistant elastic member 40 is regulated by the inner peripheral edge of the opening 25.

According to the above-described original illuminating device, the same effects as those of the original illuminating device shown in FIGS. 1 and 2 can be obtained, and the heat-resistant elastic member 40 has a partly formed opening 25 formed in the mirror 20. The position of the heat-resistant elastic member 40 in the incandescent lamp 10 can be prevented from being displaced in the axial direction of the incandescent lamp 10. Rotation around the sealing body 11 can be prevented.

The original illuminating device of the present invention is not limited to the above-described embodiment, and various changes can be made.
For example, two or more heat-resistant elastic members 40 may be mounted on the envelope 11 of the incandescent lamp 10. Further, the mirror 20 may have a recess for accommodating a part of the heat-resistant elastic member 40 instead of the opening 25.

<Experimental Example> A document illuminating device A having the structure shown in FIG. 1 was manufactured under the following conditions. Incandescent lamp (10): Overall length: 360 mm, outer diameter: 6 mm,
Output: 300 W, shortest distance between incandescent lamp (10) and mirror (20):
2 mm, heat-resistant elastic member (40): material; fluororesin, inner diameter;
5.5 mm, thickness t; 3 mm, width W in the radial direction;
2.1 mm, opening angle of the notch (41); 30 ° A document illuminating device B having the same configuration as the document illuminating device A except that the heat-resistant elastic member (40) was not attached was produced.

An electrophotographic copying machine is constructed by using the above-mentioned original illuminating device A and the original illuminating device B, and by operating these electrophotographic copying machines, the acceleration of the incandescent lamp (10) in the moving direction of the original illuminating device. Of the incandescent lamp (10) was examined with respect to the change with time. The obtained measurement chart is shown in FIG. 6 and FIG.

As is apparent from this measurement chart, the original illuminating device A equipped with the heat-resistant elastic member (40)
The change in the acceleration of the incandescent lamp (10) was smaller and the magnitude of the vibration generated in the incandescent lamp (10) was smaller than that of the original illuminating device B without the heat-resistant elastic member (40). . The maximum value of the absolute value of the acceleration of the incandescent lamp (10) is 95 m / s ² for the document illuminating device A,
The original illumination device B was 165 m / s ² .

When the intensity distribution of each frequency of the vibration generated in the incandescent lamp (10) was analyzed, FIGS.
As shown in (1), it was confirmed that the intensity of the vibration at a frequency of about 100 Hz was suppressed in the original illuminating device A as compared with the original illuminating device B.

When the copying process was continuously performed using the above-described electrophotographic copying machine, the incandescent lamp (10) failed in the original illuminating device B when the cumulative lighting time reached 115 hours. However, in the document illuminating device A, no failure occurred in the incandescent lamp (10) even when the cumulative lighting time reached 250 hours.

[0033]

According to the document illuminating device of the present invention, the ring-shaped heat-resistant elastic member is fitted and mounted on the envelope of the incandescent lamp with a part of its outer peripheral surface being in contact with the mirror. Therefore, the shock applied to the incandescent lamp is reduced by the elastic force of the heat-resistant elastic member, whereby the vibration generated in the incandescent lamp is reduced, and as a result, a long service life of the incandescent lamp is obtained.

Further, since the heat-resistant elastic member is not fixedly held on the mirror, the incandescent lamp can be removed with the heat-resistant elastic member attached, and the heat-resistant elastic member has a part. Since the notch is formed,
By expanding the notch by elastically deforming the heat-resistant elastic member, the heat-resistant elastic member can be easily removed from the incandescent lamp, and the heat-resistant elastic member can be easily attached to the incandescent lamp. can do. Therefore, the incandescent lamp can be easily replaced.

According to the document illuminating device according to the second aspect, the opening or the recess is formed for accommodating a part of the heat resistant elastic member in the mirror to regulate the position of the heat resistant elastic member. In addition, it is possible to prevent the heat-resistant elastic member from being displaced, and to prevent the heat-resistant elastic member from rotating around the envelope of the incandescent lamp.

[Brief description of the drawings]

FIG. 1 is an explanatory perspective view schematically showing the configuration of an example of a document illumination device according to the present invention.

FIG. 2 is an explanatory cross-sectional view showing the document illumination device of FIG. 1 along a line XX.

FIG. 3 is an explanatory cross-sectional view illustrating a configuration of an example of an incandescent lamp used in the document illumination device of the present invention.

FIG. 4 is an explanatory view showing an example of a heat-resistant elastic member.

FIG. 5 is an explanatory cross-sectional view schematically showing the configuration of another example of the document illumination device of the present invention.

FIG. 6 is a chart showing a time-dependent change in acceleration of an incandescent lamp of the original illuminating device A according to an experimental example.

FIG. 7 is a chart showing a change over time of acceleration of an incandescent light bulb of the original illuminating device B according to an experimental example.

FIG. 8 is a chart showing an intensity distribution at each frequency of vibration generated in an incandescent light bulb of the original illuminating device A according to an experimental example.

FIG. 9 is a chart showing an intensity distribution at each frequency of a vibration generated in an incandescent light bulb of the original illuminating device B according to an experimental example.

FIG. 10 is an explanatory cross-sectional view schematically showing a configuration of an example of a conventional document illumination device.

[Explanation of symbols]

 REFERENCE SIGNS LIST 1 platen 2 document 2 a document surface 3 incandescent lamp 4 mirror 5 slit 6 slit forming member 10 incandescent lamp 11 sealing body 12 sealing part 13 filament assembly 14 light emitting part 15 non-light emitting part 15 a short-circuiting core wire 15 b ring-shaped supporter 16 metal Foil 17 External lead rod 20 Mirror 21 Slit forming member 22 Slit 25 Opening 30 Side plate 31 Bulb holder 32 Base end 33 Tip 35 Fixing member 40 Heat resistant elastic member 41 Notch E Notch edge

──────────────────────────────────────────────────続 き Continued on front page (58) Field surveyed (Int.Cl. ⁷ , DB name) G03B 27/54

Claims (2)

(57) [Claims] 1. An incandescent lamp in which a filament assembly in which light-emitting portions and non-light-emitting portions are alternately arranged is disposed in a tubular envelope along the tube axis direction; In a document illuminating device including a gutter-shaped mirror for reflecting light from a light bulb toward a document surface to be illuminated, a detachable cutout is provided at a position corresponding to a non-light-emitting portion of an incandescent light bulb envelope. A document illuminating device, wherein a ring-shaped heat-resistant elastic member having a notch is fitted and mounted on the envelope with a part of its outer peripheral surface being in contact with a mirror. 2. The mirror according to claim 1, wherein the mirror has an opening or a recess for accommodating a part of the heat-resistant elastic member and regulating the position of the heat-resistant elastic member.
The document illuminating device according to 1.