JPH01211781A - Scanning optical device - Google Patents

Abstract

PURPOSE:To preclude a defect in image scanning due to the shaking of a scanning unit on its free end side by arranging an electric feed cord which supplies electricity to the scanning unit on the side of a guide rail where one end of the scanning unit is fitted and supported. CONSTITUTION:The electric feed cord 14 is arranged on the side of the guide rail 6, provided on the opposite free end side from the guide rail 6, and arranged in parallel to the guide rail 6. Therefore, the electric feed cord 14 moves while following up the scanning unit 2 while shifting the position of its folded part 15 as the scanning unit 2 moves. Further, even if the resin covering the electric feed cord 14 hardens to increase a load in the direction where the scanning unit 2 floats, the load from the cord 14 is received by the guide rail 6 and the scanning unit 2 never floats. Consequently, a stable document scan is made and a stable copy image is obtained.

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to a scanning optical device used, for example, in an electrophotographic copying machine, and more particularly to an arrangement structure of a power supply cord connected to a scanning unit.

(Prior Art) Conventionally, as this type of scanning optical device, there is one shown in FIG. 9, for example. That is, the illustrated apparatus is used in an electrophotographic copying machine or the like, and 100 is a scanning unit equipped with an illumination lamp 102 (not shown) for illuminating the surface of a document. One end of this scanning unit 100 is movably fitted and supported by a guide rail 103 extending in the scanning direction of the original, and the other end is slidable on a guide surface 104a of a guide member 104 arranged parallel to the guide rail 103. is in contact with. A first mirror (not shown) is attached to this scanning unit (22) 100, and a photoreceptor is passed through a mirror unit 105 that moves at a fixed speed with respect to the scanning unit (22) 100, and a photoreceptor is passed through an imaging lens (not shown). It is designed to expose the image to the top.

On the other hand, one end of a power supply cord 106 for supplying power to the illumination lamp 102 is connected to the free end side of the scanning unit 100. The power supply cord 106 extends from a cord fixing portion 107 on the apparatus main body side in the return direction of the scanning unit lOO, and its end is folded upward into a U-shape and connected to the scanning unit 100. Therefore, as the scanning unit 100 moves, the power supply cord 106
It was designed to follow the movement of the scanning unit) 100 by shifting the point of 06a.

(Problem to be Solved by the Invention) However, in such conventional technology, the scanning unit 100
At the pack position where the power supply cord 106 reaches the scan end position (full scan position), the power supply cord 106 is supported in a cantilevered state for a considerable length with the folded portion 106a as a free end.

For this reason, if the power supply cord 106 is not stiff to some extent, it may not be able to maintain its posture and may turn inward and get caught on other parts, causing blurred images, or the power supply cord 106 may
This poses a problem in that it may cause damage to the vehicle and reduce safety.

To solve this problem, the normal power supply cord 10
On top of the 6-core wire sheath, a 2-core electric wire is further coated with vinyl chloride, polyolefin, or the like to strengthen the power supply cord.

However, the hardness of the power supply cord 106 whose surface is coated with resin increases due to environmental changes, especially at low temperatures. This puts a load on the unit 100. Therefore, in the case where the power supply cord 106 is disposed on the free end side of the scanning unit 100, the free end of the scanning unit 100 lifts up during scanning due to the load from the power supply cord 106 at low temperatures, and the image In some cases, this caused significant disturbance.

The present invention has been made to solve the problems of the prior art described above, and its purpose is to prevent the shaking of the scanning unit due to the looseness of the power supply cord during scanning under any environment. An object of the present invention is to provide a scanning optical device.

(Means for Solving the Problem) In order to achieve the above object, in the present invention, one end of a scanning unit for scanning a document is movably fitted and supported on a guide rail, and the scanning unit is movably fitted and supported. The free end is slidably brought into contact with the guide surface of a guide member disposed parallel to the guide rail, while the scanning unit is provided with one end of a flexible power supply cord for supplying power to the scanning unit. In the connected scanning optical device, the power supply cord was arranged on the guide rail side into which the scanning unit was fitted.

(Function) In the scanning optical device having the above configuration, the power supply cord of the scanning unit is provided on the guide rail side, so even if the power supply cord hardens at low temperatures, the load applied to the scanning unit is carried by the guide rail. The support is held and the scanning unit can be moved smoothly.

(Example) The present invention will be explained below based on the illustrated example. 1st
Figures 1 through 5 show an example in which a scanning optical device according to an embodiment of the present invention is applied to an electrophotographic copying machine. That is, l indicates the entire apparatus, and approximately the document O on the document table 7
a scanning unit 2 that scans the image, and a mirror unit 4 that follows and moves parallel to the scanning unit 2 at the same speed as the scanning unit 2.
It is composed of. The scanning unit 2 and the mirror unit 4 are guided along a guide rail 6 arranged parallel to each other and a sheet metal rail 8 as a guide member, and are guided by a drive wire 9.
driven by. First to third mirrors 23, 42 . provided in the scanning unit 2 and the mirror unit 4 .
The image light reflected by 43 is passed through the imaging lens? The image is formed on the photoreceptor 3 through the photoreceptor 3. Further, a flexible power supply cord 14 for supplying power to the illumination lamp 22 is connected to the scanning unit 2 .

The scanning unit 2 includes an illumination lamp 22 that illuminates the original O;
It is constructed by integrally assembling a first mirror 23 that reflects an optical image of the document 0 illuminated by an illumination lamp 22 toward a mirror unit 4 on a first mirror stand 24 .

On the other hand, the first mirror stand 24 has one end slidably and rotatably fitted and supported on the guide rail 6, and its free end is attached to the guide surface provided on the sheet metal rail 8 via a roller 25. 8a in a slidable manner.

Further, the mirror unit 4 is disposed facing the first mirror 23 provided in the scanning unit 2, and
A second mirror 42 that reflects the reflected image light from the
and a third mirror 43 which is arranged facing the second mirror 42 and returns the reflected image light, are integrally assembled to the second mirror stand 44. One end of this second mirror stand 44 is also slidably and rotatably fitted and supported on the guide rail 6, and the free end slides on the guide surface 8a provided on the sheet metal rail 8 via the rollers 45. It touches freely.

The drive wire 9 is disposed on the guide rail 6 side, and the drive pulley 1 is rotated forward and backward by a drive motor (not shown).
0 and scanning and mirror unit 2.
Driven pulleys 11 and 12 located outside the scanning movement area of No. 4
It is wound around a pulley 13 provided on the mirror unit 4, and is fixed to the first mirror stand 24 of the scanning unit 2 by a stopper member 13. When the drive pulley 10 rotates in the direction of arrow A, the wire 9 is pulled in the direction A', and the first mirror stand 24 is pulled in the scanning direction via the pulley 11. On the other hand, the wire 9 pulls a pulley 13 provided on the second mirror stand 44 to move the second mirror stand 44 at the same speed as the first mirror stand 24.

On the other hand, when each scanning and mirror unit 2, 4 is returned to the home position, the drive pulley 10 is reversed in the direction of arrow B. Then, the wire 9 is pulled in the direction of arrow B', and the second mirror stand 44 and further the first mirror stand 24 are pulled back via the pulley 12. Roller 2 on the other end
5°45 moves on the guide surface 8a of the sheet metal rail 8 while rotating.

On the other hand, the above-mentioned power supply cord 14 is arranged on the guide rail 6 side. In this embodiment, the guide rail 6 is provided on the non-free end side, and is arranged parallel to the guide rail 6. One end of the power supply cord 14 is connected to the lens stand 3
1 via a main body side cord holder 14a, and the other end is fixed to the first mirror stand 24 of the scanning unit 2 via a unit side cord holder 14b. The power supply cord 14 extends from the position of the cord presser 14a on the lens stand 31 side along the lens stand 31 in the return direction of the scanning unit 2, and is folded upward into a U-shape near the mirror unit 4. Furthermore, the first mirror stand 24 extends from the folding part 15 in the scanning direction and is connected to the unit side cord presser 14b.
is fixed.

As the scanning unit 2) 2 scans and moves from the home position, the power supply cord 14 follows the scanning unit 2 while shifting its turning point.

Cord presser 14 on the scanning unit side of this power supply cord 14
b is located below the wire stopper member 13 of the drive wire 9 described above, and the power supply cord 14 is placed below the wire 9. Further, the unit-side cord presser 14b is inclined obliquely upward in the return direction, so that the folded portion 15 has a larger bulge.

On the other hand, the arrangement is such that the side surface 44a of the second mirror stand 44 of the mirror unit 4 fits between the power supply cord 14 and the drive wire 9.

This second mirror stand side surface 44a prevents interference between the wire 9 and the power supply cord 14.

Reference numeral 17 is a position sensor for detecting the home position of the scanning unit 2, and a flag 18 protruding from the side of the first mirror stand 24 turns the sensor 17 on and off.

The height position of this flag 18 is set slightly higher than the cord presser 14b provided on the first mirror stand 24,
1st. During scanning after passing the home position, the second scanning units 2 and 4 move away from the sensor 17 and function to press down on the bulge in the power supply cord 14 from above.

On the other hand 2 Scanning and mirror units 2 and 4 on return
When the power supply cord 14 approaches the home position,
The cord presser 14a of the lens stand 31 is provided at a position where the curvature of the folded portion 15 changes and its radius becomes smaller so that the flag 18 separates from the power supply cord 14. By doing this, the radius of curvature of the folded portion 14c of the power supply cord 14 becomes smaller at the home position, so
Interference between the power supply cord 14 and the sensor 17 can be avoided.

In the scanning optical device having the above configuration, when scanning a document, the drive pulley 10 is rotated in the normal direction by a drive source (not shown), and the scanning and mirror unit 2 are rotated via the drive wire 9.
, 4 are moved in the scanning direction in synchronization with the photoreceptor 3.

The light image of the original O illuminated by the illumination lamp 22 is then continuously formed and exposed on the photoreceptor 3: an image is formed by a known electrostatic photographic process. As the scanning unit 2 moves, the power supply cord 14 follows and moves while shifting the position of its folded portion 15. Here, even if the resin covering the power supply cord 14 hardens at low temperatures and the load increases in the direction of lifting the scanning unit 2, the load from the power supply cord 14 is carried by the guide rail 6 and the scanning continues. Unit 2 does not rise. Therefore, stable document scanning can be performed.
A stable copy image can be obtained.

In addition, in this embodiment, since the side surface 41a of the second mirror stand 44 of the mirror unit 4 restricts the horizontal deflection of the power supply cord 14, the length of the folded portion 15 that is cantilevered during full scanning is reduced. Even if it becomes long, it will not interfere with the drive wire 9 or the like.

By restricting the upward expansion of the power supply cord 14 during scanning using the flag 18 that roughly turns on and off the sensor 17, interference with drive wires and the like disposed above can be avoided.

Furthermore, as shown in FIGS. 7 and 8, if a partition member 19 that presses the folded part 15 of the power supply cord 14 is provided on the second mirror stand 44 of the second scanning unit 4, the power supply cord 14 can be It is possible to suppress deflection to a small range. That is, since the folded portion 1 of the power supply cord 14 also moves at the speed of approximately the collar of the scanning unit 2 similarly to the mirror unit 4, the folded portion 1 of the power supply cord 14 is moved along with the scanning movement.
Since the positional relationship between 5 and mirror unit 4 remains the same,
The power supply cord 14 can be held down by the partition member 19.

In the above embodiment, an example in which the present invention is applied to an electrophotographic copying machine is shown, but the present invention is not limited thereto, and can also be applied to an image reading device used as an input device for a facsimile or a computer. Furthermore, although a mirror scan type scanning optical device has been described, the present invention can also be applied to a type of scanning optical device that directly reads an image by incorporating a reading element such as a COD into a scanning unit. In this case, the power supply cord is C
It is connected to a reading element such as an OD.

(Effects of the Invention) The present invention has the above-described configuration and operation, and since the power supply cord that supplies power to the scanning unit is disposed on the guide rail side where one end of the scanning unit is fitted and supported, Even if the power supply cord hardens and a load is applied from the power supply cord to the scanning unit, the load can be supported by the guide rail, and image scanning defects due to wobbling on the free end side of the scanning unit can be prevented.

[Brief explanation of the drawing]

FIG. 1 is a perspective view of essential parts showing a schematic configuration of a scanning optical device according to an embodiment of the present invention, FIG. 2 is a schematic configuration diagram of an electrophotographic apparatus to which the device of FIG. 1 is applied, and FIG. Fig. 1 is a plan view of the scanning device and the mounting support part of the mirror unit with the guide rail, Fig. 4 is a front view of Fig. 3, Fig. 5 is a sectional view taken along the line V-V of Fig. 4, and Fig. 6 The figure is a front view of the mounting part of the scanning and mirror unit at the home position of the device shown in FIG. 1, and FIG. 7 is a front view of the scanning and mirror unit of the device shown in FIG. A plan view of the guide rail mounting support part, FIG. 8 is a front view of FIG. 7,
FIG. 9 is a perspective view of essential parts showing a schematic configuration of a conventional scanning optical device. Explanation of symbols 2...Scanning unit 22...Illumination lamp 23
...First mirror 24...First mirror stand 25.
...Roller 3...Photoconductor 4...Mirror unit) 41a...Side surface 42.43...Second.
Third mirror 44... Second mirror stand 45... Roller 8... Sheet metal rail 8a... Guide surface 9... Drive wire 14... Power supply cords 14a, 14b... Cord presser 17.・Sensor 18・Flag 19・
・・Partition member

Claims (1)

[Scope of Claims] One end of a scanning unit for scanning a document is movably fitted and supported on a guide rail, and the free end of the scanning unit is attached to a guide surface of a guide member disposed parallel to the guide rail. In the scanning optical device, the scanning unit is slidably brought into contact with the scanning unit, and one end of a flexible power supply cord that moves following the scanning unit is connected to the scanning unit, the scanning unit fitting the power supply cord. A scanning optical device characterized in that it is disposed on a guide rail side.