JPS6299743A - Wire driven optical system device - Google Patents

Abstract

PURPOSE:To facilitate the adjustment of positional relation during assembling and after assembling easily by fixing a positioning member that positions each optical system to the fixing part of a body to allow erection and falling down sideways. CONSTITUTION:A positioning member 27 is fixed to the fixing part of a main body, i.e., a specified position on the horizontal plate 8a of the body by a hinge member to allow erection and falling sideways, and has the fourth reference face 30. When the positioning member 27 is erected, the first reference face 25 and the second reference face 26, and the third reference face 29 and the fourth reference face 30 are respectively arranged so as to be abutted mutually. The fitting position of the positioning member 27 to the horizontal plate 8a of the main body and the distance D between the second reference face 26 and the third reference face 29 are set so that the optical system is nicely focused and an original image having specified magnification is formed on a photosensitive drum when the first and second shifting frames 3A, 4A are abutted with the positioning member 27.

Description

DETAILED DESCRIPTION OF THE INVENTION (A) Field of Industrial Application This invention relates to an optical system device mainly used in copying machines and driven by a wire.

(B) Prior Art In this type of optical system device, a first optical system having a fixed wire end and a second optical system having a movable pulley are each driven by a wire stretched through the fixed wire end and the movable pulley. (For example, see Japanese Patent Laid-Open No. 58-95762).

(c) Problems to be Solved by the Invention In such an optical system device, the first and second optical systems are always held parallel to each other and perpendicular to the direction of movement, and are kept in a predetermined distance relationship. It is important to maintain and drive the image at a constant level, so that the focus and magnification of the image can be maintained well, and an image without distortion can be obtained. Therefore, conventionally, the positional relationship between the first and second optical systems was determined by positioning each optical system and the main body fixing part using a special assembly jig when assembling the optical system device, and then positioning each optical system with the main body fixing part. It is set by adjusting the fixed position of the system and wires and the tension of each wire.

Therefore, if the positional relationship of the optical system becomes out of alignment due to shock during transportation of the assembled optical system device or stretching of the wire during use, readjustment is not easy and requires a lot of effort. Ta.

This invention was made in consideration of these circumstances, and provides a wire-driven optical system that can be easily adjusted in a short time when it becomes necessary to readjust the positional relationship of the optical system after assembly. It provides equipment.

(D) Means for Solving Problems This invention provides a first movable frame having a wire fixed end and a first optical system, and a second movable frame having a movable pulley and a second optical system.
In a wire-driven optical system device in which the movable frames are driven by wires stretched through respective wire fixed ends and movable pulleys, one movable frame is driven by a first reference plane, and the other movable frame is driven by a second M table surface. perpendicular to the direction of movement, and further has a second reference surface.The moving frame has a third reference surface on the back side of the second reference surface at a predetermined distance from the second reference surface, and a fourth reference surface. A positioning member having a surface is fixed to a predetermined position on the main body fixing part so as to be able to stand up and fall sideways, and when the positioning member is stood up, the first and second M table surfaces and the third and fourth reference surfaces can respectively come into contact with each other. This is a wire-driven optical system device characterized in that it is arranged in a.

(E) Function The jig for positioning each optical system, that is, the positioning member, is fixed to the main body fixing part so that it can be raised or laid down.
When adjusting the position of each optical system, stand the positioning member upright, and adjust the fixing position of the optical system and wire and the wire tension so that the corresponding reference surfaces of the optical system are in normal contact with the respective reference surfaces. adjust. After adjustment, avoid tilting the positioning member sideways so that it does not interfere with the movement of the optical system.

(f) Examples Hereinafter, the present invention will be described in detail based on examples shown in the drawings. Note that this invention is not limited to this.

FIG. 1 is an explanatory diagram mainly showing the arrangement of the optical system of a copying machine equipped with a wire-driven optical system device according to the present invention, (1)
is the original, ('2J is the glass base on which the original is placed, (3) is the exposure lamp (3a), the reflector (3tl), and the mirror (3).
A first optical system consisting of (C), (4) is a mirror (4a) (4
(b) a second optical system consisting of a lens, (6) a fixed mirror, (7) a photosensitive drum, and (8) a copying machine case.

In such a configuration, the original is exposed to illumination light from the exposure lamp (3a), and the light is transmitted to the mirror (3c).
(4a) (4b) , imaging lens (5), mirror (
6), and reaches the photoreceptor to form an image of the document. The first optical system (3) and the second optical system (4) move in the direction of arrow (A) at a speed ratio of 2:1 to expose and scan the entire document (1).

FIG. 2 is a perspective view mainly showing the driving device of the wire-driven optical system device according to the present invention, where <3A) is a first moving frame equipped with a first optical system, and (4A) is a perspective view showing a first moving frame equipped with a second optical system. (9) (9a) is a wire fixed end provided on both sides of the first moving frame; 00) (10a) is a movable pulley provided on both sides of the second moving frame; 01) ( 11a) is a gear (
11b) and a drive pulley (T2) (1) connected to the shaft (11c) and driven by a drive source (not shown).
2a) and (13) (13a) is a fixed pulley, (
14) (14a) is wire, (15) (15a)
) are the rails for sliding the first and second moving frames (3A> (4A) in the moving direction, (5) and (16a) are the pin connectors (17).
The spring (18) is fixed by a) and applies a predetermined tension to the wire (14) (14a); the screw side of the spring (18) is fixed to the end of the wire M), and the nut side is fixed to the main body.
) The adjustment screw part that adjusts the tension of the wire (14a)
This is a stopper that fixes the end of the holder to the main body.

FIG. 3 is an explanatory diagram showing how the wire 041 (14a) shown in FIG. Part (2q (20a) and 21) (21a
), the movable pulley 00) (10a) and the fixed pulley (I2) (12a) are each wrapped by a semicircle, and then the winding is carried out at the drive pulley (I2) at the part (22a).
ll (11a) by a length corresponding to the moving distance of the first and second moving frames. Furthermore, the winding is done on the fixed pulley (23a) and (20a).
13) After being wrapped around the (13a) and movable pulley (10a) by a semicircular length, the terminal end is attached to the spring (
5) It is locked in (16a). And the fixed part (24)
The wire fixed end f9) (9a) is fixed at (24a), and the tension balance between the wire G41 and (14a) is adjusted by an adjustment screw part.

FIG. 4 is an explanatory diagram of main parts of an embodiment of the present invention, and FIG.
In Figure J, the fixed (G) is the first and second reference planes that are provided on the first moving frame (3A) and the second moving frame (4A), respectively, and are orthogonal to the moving direction, and (C) is the second moving frame. Frame (4△)
A third reference surface provided at a predetermined distance from the second reference surface (G) on the back side of the second reference surface (G) is a positioning member.

The positioning member is fixed to a predetermined position on the main body fixing portion, that is, the main body horizontal plate (8a) by a hinge member (to) so as to be able to stand up and fall horizontally, and has a fourth reference plane (1). As shown in No. 4), when the positioning member is erected, the first reference surface (C), the second reference surface (G), the third reference surface (support) and the fourth reference surface (1) are aligned. The mounting position of the positioning member on the main body horizontal plate (8a) and the distance D between the second reference surface (G) and the third reference surface are arranged so that they can abut each other.
(See Figure 4(b)) is the first and second moving frame <3A
) (4A) comes into contact with the positioning member, the optical system is well focused and the original image at a predetermined magnification is placed on the photosensitive drum (
7) (see Figure 1).

FIG. 5 is an explanatory view of the main parts of another embodiment of the present invention, and in FIG.
and first and second reference planes installed on the first moving frame (3A) and perpendicular to the moving direction; (C) is the first moving frame (3A);
A third reference surface installed on the back side of the second reference surface (g) at a predetermined distance from the second reference surface (2) is a positioning member. As shown in FIG. )have. As shown in FIG. 5(C), when the positioning member is raised, the first reference surface, the second reference surface (e), the third reference surface (g), and the fourth reference surface are respectively in contact with each other. The mounting position of the positioning member on the main body horizontal plate (8a) and the distance D between the second reference surface (c) and the third table surface (a) (see Fig. 5(e)) ) is the first. When the second moving frame (3A) (4A>) and the positioning member come into contact with each other, the optical system is well focused and the original ms of a predetermined magnification is focused on the photoreceptor drum (7) (see Figure 1). image.

In any of the above-mentioned embodiments, in assembling the optical system device (not shown in FIG. 2), the first and second moving frames (3A) (4A> are first mounted on the rail 05) <15a). At the same time, the positioning member G is brought into contact with the reference surface (C) and the reference joint is raised as shown in FIG. 5 (C). Bring it into contact with the force reference surface■.

Next, while maintaining this state, stretch the wire 1' (14) (14a) as shown in Figures 2 and 3, and attach the wire fixed ends (9) (9a) to the wire t7G4) (14a). After each is fixed, operate the adjustment screw section) to adjust the wire 04.
) Adjust the balance of tension in (14a).

After assembly, the first and second transfer frames (3A) (4A)
The positioning member is placed sideways so as not to interfere with the movement of the positioning member.

In the optical system device assembled in this way, since the first and second moving frames (3A>(4A)) are positioned in a predetermined positional relationship, there is no need to adjust focus or magnification after assembly.

The first and second
If the positional relationship of the moving frames (3A) (4A) is out of alignment, replace the positioning member <27) as in the above assembly.
After standing up and positioning, the positional relationship between them and the tension of the wire (141 (14a)) may be corrected.

(G) Effects of the Invention According to this invention, each moving optical system is positioned by a positioning jig provided in the optical system device.
Not only is it easy to adjust focus and magnification during assembly, but
Adjustment of the positional relationship caused by impact during transportation after assembly or elongation of Y-7 during use can be performed extremely easily without preparing a special adjustment jig.

[Brief explanation of drawings]

FIG. 1 is an explanatory diagram showing the configuration of a copying machine equipped with a wire-driven optical system device according to the present invention, FIG. 2 is a perspective view showing a driving device for the wire-driven optical system device according to the present invention, and FIG. Explanatory diagram showing the wire tensioning situation in Figure 2, Figure 4(a)
(b) is an explanatory diagram showing the structure and operation of the main part of one embodiment of this invention, and FIGS. 5(a) and (C) are explanatory diagrams showing the structure and action of the main part of another embodiment of the invention , FIG. 5<b+ is a perspective view showing the portion of FIG. 5 (C1). (3A)...First moving frame, (4A)... Second moving frame, ( C)...
First reference plane, (a)...Second reference plane, (b)...Third reference plane of the positioning member, (1)...... Fourth reference plane. Rod Figure 4 (C1) Figure 4 (b) Figure 5 (a) Figure 5 (b) Figure 5 (c) q

Claims (1)

[Claims] 1. A first movable frame having a wire fixed end and equipped with a first optical system, and a second movable frame having a movable pulley and equipped with a second optical system, each having a fixed wire end. In a wire-driven optical system device driven by a wire stretched through an end and a movable pulley, one moving frame sets a first reference plane, and the other moving frame sets a second reference plane, at right angles to the moving direction. In addition, the movable frame having a second reference surface further has a third reference surface on the back side of the second reference surface at a predetermined distance from the second reference surface, and the positioning member having the fourth reference surface is connected to the main body fixing portion. Stand up in the designated position above.
1. A wire-driven optical system device, which is fixed so that it can be laid down horizontally, and wherein first and second reference planes and third and fourth reference planes are arranged so as to be able to come into contact with each other when the positioning member is erected.