KR0132648B1 - Optical system driving device of a copier - Google Patents

Abstract

The present invention relates to an optical system driving device that facilitates the adjustment of the optical system using a wire and a timing belt, the idler (7, 8, 9, 10) respectively provided in the moving region of the first scanner (2); A first timing belt 11 connected to one side of the driving pulley 1a of the driving source 1, the other side of which is connected to the idlers 7, 8, 9 and 10; Second timing belts 15 connected laterally to said idlers 7, 8, 9 and 10, respectively; Scanner pulleys 5 provided at both ends of the second scanner 3; Wire pulleys 14 installed inside the idlers 7, 8, 9, and 10; The wire 4 connected to the wire pulley 14 and the adjustment spring 6 connected to one end of the wire 4 are provided with vibrations or carriages according to an optical system driving method using only existing wires or using only timing belts. It solves problems such as inaccuracy of the feed amount and adjustment of the second scanner, and has an economical and reliable effect.

Description

Optical system driving device for office equipment

1 is a schematic diagram showing the overall configuration of a general copier optical system.

2 is a structural perspective view showing an embodiment of a conventional optical system.

3 is a structural perspective view showing another embodiment of the conventional optical system.

Figure 4 is a perspective view showing another embodiment of a conventional optical system.

5 is a perspective view showing an embodiment of an optical system driving apparatus according to the present invention.

* Explanation of symbols for main parts of the drawings

1: drive motor 1a: drive pulley

2: 1st scanner 3: 2nd scanner

4: wire 4a: hook

5: scanner pulley 6: adjustment spring

7,8,9,10: idler 11: first timing belt

12 support portion 13 electric shaft

14: wire pulley 15: second timing belt

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an optical system driving device for office equipment such as a copying machine. In particular, the carriage is driven using a wire and a timing belt to easily adjust the optical system with excellent optical performance. The present invention relates to an optical system driving apparatus for an office equipment.

Referring to the accompanying drawings of the optical system driving apparatus of a general office equipment as shown in FIG.

1 is a schematic view showing the overall configuration of a general copier optical system.

In the drawing, 100 is an optical system, 101 is a first mirror, 102 is a second mirror, 103 is a third mirror, 104 is a fourth mirror, 105 is a lens, 106 is a reflector, 107 is a light source, 108 is a drum, and 109 is a contact glass (CONTACT GLASS), respectively.

As shown in the figure, an image of an original (not shown in the drawing) placed on the contact glass 109 in the optical system of the copier is provided at the bottom of one side of the contact glass to scan an image of the original from the light source lamp 107. The irradiated light is irradiated to the drum 108 via the lens 105 and the fourth mirror 104 via the first mirror 101, the second mirror 102 and the third mirror 103. A series of original image readings is performed.

By the way, in the above-described configuration as well as in the case of uniform copying, the constituent parts (hereinafter referred to as the first carriage) composed of the first mirror 101, the reflecting plate 106, and the light source lamp 107 and the second copying are also used. The driving method of the constituent part (hereinafter referred to as the second carriage) composed of the mirror 102 and the third mirror 103 is very important.

The reason is that the influence on the radiant image directly by the microscopic perturbation of the optical system is very large.

For the reason as described above, a conventional optical system driving method has been proposed, which will be described below with reference to the accompanying drawings of FIGS. 2 to 4.

2 is a perspective view showing an embodiment of a conventional optical system, in which 201 is a driving motor, 202 is a first carriage, 203 is a second carriage, 204 is a guide rod, 205 is a wire, 206 is a motor pulley, 207 is a carriage pulley, 208 is a variable pulley, 209 is an adjustment spring, 210 to 213 are first to fourth idlers, and 214 is a fixing piece.

FIG. 2 schematically shows an optical system structure of a method of driving a carriage conveying unit to one side of the optical system (hereinafter, referred to as a one-side driving method). As shown in the drawing, the central control unit (not shown in the figure) of the main body of the office equipment is shown in FIG. By the control, the driving motor 201 installed at the predetermined position of the optical unit is driven, and the driving force of the driving motor 201 is transmitted to the motor pulley 206 provided at one side thereof.

The driving force of the motor pulley 206 is converted through the first to fourth idler 210 to 213 via a wire 205 connected thereto.

The wires 205 connected to and driven by the second and third idlers 211 and 212 are connected to the first carriage 202 and the carriage pulley 207 having the fixing piece 214 fixed at a predetermined position thereof. Driven by the second carriage 203 to scan an image of the original.

The guide rod 204 during the driving is responsible for guiding the displacement area when the first carriage 202 and the second carriage 203 move.

The optical system structure of the one-side driving method configured and operated as described above is a transmission method in which the fixing piece 214 of the wire 205 is positioned and driven on one side thereof. Displacement due to perturbation is unstable, and a vibration or the like occurs during perturbation of the carriage due to a difference in processing precision according to the manufacture of the guide rod 204, thereby causing a problem that adversely affects the image.

Accordingly, in order to overcome the above problems, a structure of a drive system of an optical system having a moving part on both sides of the optical system (hereinafter, referred to as a bilateral driving method) has been proposed, which will be briefly described with reference to FIG. .

In the drawing, 301 denotes a driving motor, 302 denotes a first carriage, 303 denotes a second carriage, 304 denotes a wire, 305 denotes a carriage pulley, 306 denotes a spring, 307 to 310 idler, and 311 denotes a transfer pulley.

As shown in the figure, the optical system structure of both driving methods is provided with a feed pulley 311 having a predetermined size at the upper end of the drive motor 301, the wire 304 provided in the feed pulley 311 is the first And the idlers 307 to 310 installed in the blind spots of the moving areas of the second carriers 302 and 303, wherein both ends of the first carriage 302 and the second carriage 303 are fixed by the wire 304. It is a structure that has a more stable structure than the one-side driving method in a way to move.

However, the two-side drive method has been pointed out compared to the one-side drive method, such as the price increase due to the addition of the wire 304, the idler (307 to 310), and the productivity decrease due to the increase of the assembled part, and the wire 304 The amount of the feed is determined by the diameter of the feed pulley 311 in which the wire 304 is wound, and is proportional to the number of times the wire 304 is wound on the feed pulley 311, that is, as the amount of feed accumulates, Machining precision is a very important factor, and for this reason, the problem that manufacturing cost becomes so high has been pointed out.

In order to overcome the problems caused by the carriage movement method using the wire as described above was implemented by adopting a timing belt instead of a wire, this will be described with reference to FIG.

4 is a configuration perspective view showing another embodiment of an optical system according to the related art, in which 401 is a drive motor, 402 is a first carriage, 403 is a third carriage, 404, 404 'is a timing belt, and 405 to 408 are idlers, 409 is an assembly, 410 is an electric shaft, 411 is a connection pulley.

FIG. 10 illustrates idle gears 05 to 408 respectively installed at predetermined positions on both sides of the first and second carriages 402 and 403 in a manner of transmitting power to the timing belt 404 instead of the conventional wire 304. ), The timing belt 404 is connected to the horizontal side, respectively, and both ends of the first and second carriages 402 and 403 are fixed to the one side of the timing belt 404 by the assembly unit 409, and the idle gear ( 405 to 408 are respectively connected by the transmission shaft 410 to the longitudinal side.

In addition, one of the idle gears is connected to the connection pulley 411 and the timing belt 404 'provided on the drive motor 401 shaft so that the driving force of the drive motor 401 is the timing belt 404 and the idle gear. Passed through 405-408 to move the first and second carriages 402, 403.

Therefore, the conveyance amount of the carriage is accurately used by the number of teeth of the idler according to the member characteristics of the timing belt 404 has been widely used in recent years.

However, in the above configuration, the first carriage 402 and the second carriage 403 are directly attached to the timing belt 404 with screws, which is cumbersome in assembling, and when the optical system needs to be adjusted, adjustment is performed with careful attention. Problems such as the price increase due to the difficulty of the following and the existing wire method has been raised.

Accordingly, the present invention has been made to solve the above-mentioned problems, and in the optical system driving apparatus of office equipment such as a copy machine, a vibration lamp is provided with a timing belt and a wire for driving the first and second carriages, respectively. It is an object of the present invention to provide an optical system driving device that is easy to assemble and adjust while minimizing the number.

In order to achieve the above object, the present invention is forward and reverse rotation by a signal from the central control device provided in the main body of the office equipment such as a copy machine, and is provided with a driving source provided with a driving pulley on one side thereof, and is supplied with a driving force of the driving source. An optical system driving apparatus including a first scanner and a second scanner for scanning an image of a document, each of which is provided at predetermined positions on both sides of a moving region of the first scanner, and includes a plurality of idlers for switching the driving direction of the driving source. ; One side is connected to the drive pulley connected to the shaft of the drive source, the other side is the first timing belt connected to any one of the idler; A second timing belt connected to the lateral sides of the idler, the second timing belt driving the first scanner to be moved by a driving force of the driving source by fixing both ends of the first scanner to one side of the idler; Scanner pulleys provided at both ends of the second scanner and engaged with the internal teeth of the second timing belt; A plurality of wire pulleys installed along the moving area of the second scanner so as to be positioned inside each idler, and switching a driving direction; A wire connected to the wire pulley and connected to one side of the scanner pulley for driving the mounting position of the second scanner; And an adjustment spring which is connected to a predetermined position at one end thereof so as to maintain a proper tension to the wire, and adjusts a mounting position of the second scanner as necessary.

Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings of FIG. 5.

5 is a perspective view showing an embodiment of an optical system driving apparatus according to the present invention, in which 1 is a driving motor, 1a is a driving pulley, 2 is a first scanner, 3 is a second scanner, 4 is a wire, and 4a is a Hook, 5 is a scanner pulley, 6 is an adjustment spring, 7 to 10 are idlers, 11 is a first timing belt, 12 is a support, 13 is a transmission shaft, 14 is a wire pulley, and 15 is a second timing belt.

As shown in the figure, the optical system driving apparatus according to the present invention is a device for driving an image of an original to be irradiated by the first scanner 2 to be transmitted to the drum through the second scanner 3, and in the office equipment main body. The driving motor 1 installed at a predetermined position of the optical system is driven by a control signal of the central control unit (not shown in the drawing), and the driving force of the driving motor 1 is driven by the driving pulley 1a provided on its shaft. Delivered.

The driving force of the driving pulley 1a is transmitted to idlers 7 to 10 respectively installed at predetermined positions on both sides of the moving area portion of the first scanner 2, and the transmission path of the driving force is among the idlers 7 to 10. The predetermined gear provided on one side of one idler 9 and the driving pulley 1a are connected to the first timing belt 11, and the second timing belt is laterally connected to each of the idlers 7 to 10. 15 is connected to the driving force of the drive motor (1). At this time, both ends of the first scanner 2 are fixed to the predetermined position of the second timing belt 15 by an assembly part (not shown), and each of the idlers 7 to 10 is moved forward. It is connected by the coaxial 13, the driving of each idler (7 to 10) with only one drive motor (1), the first scanner (2) is moving to irradiate the image of the original.

Inside each idler 7 to 10, wire pulleys 14 are installed at predetermined positions according to the moving area of the second scanner 3, and the second scanner 3 is mounted on the wire pulleys 14. A wire 4 is connected to adjust the mounting position of the wire 4, which is connected to one side of the scanner pulley 5 provided at both sides of the second scanner 3, and the scanner pulley 5. The other side of the second timing belt 15 is engaged with the inner tooth is configured to transmit power so that the second scanner 3 is provided with the same driving force according to the movement of the first scanner (2) is moved.

Here, the support portion 12 of a predetermined size is provided on the upper side of the scanner pulley 5 to prevent the second timing belt 15 from being separated when power is transmitted to the second scanner 3.

In addition, a hook 4a is provided at one end of the wire 4, and an adjustment spring 6 is connected and provided at the hook 4a to maintain an appropriate tension on the wire 4, and In this case, the mounting position of the second scanner 3 is properly adjusted.

Therefore, the driving force of the driving motor 1 installed at a predetermined position of the optical system is transmitted to the first scanner 2 through the first timing belt 11 and the idlers 7 to 10, and the second scanner 3 is a scanner. Power is transmitted by the second timing belt 15 engaged with the pulley 5 so that the first and second scanners 2 and 3 move in the same manner.

The present invention constructed and acting as described above solves problems such as vibration, inaccuracy of carriage amount, adjustment of second scanner, etc. according to the optical system driving method using only existing wires or only timing belts, and is economical and reliable. It works.

Claims (2)

Forward and reverse rotation by the signal from the central control unit provided in the main body of the office equipment such as a copy machine, and the drive source (1) provided with a drive pulley (1a) on one side and the driving force of the drive source (1) In an optical system driving apparatus provided with a first scanner 2 and a second scanner 3 for scanning an image of an original, the driving source is provided at predetermined positions on both sides of the moving region of the first scanner 2, respectively. A plurality of idlers 7, 8, 9, 10 for switching the driving direction of (1); A first timing belt 11 connected to one side of a driving pulley 1a connected to a shaft of the driving source 1, the other side of which is connected to any one of the idlers 7, 8, 9, and 10; It is connected to the lateral side of the idler (7, 8, 9, 10), respectively, so that both ends of the first scanner (2) is fixed to a predetermined position on one side of the first scanner (2) by the driving force of the drive source (1) A second timing belt 15 which drives) to move; Scanner pulleys 5 provided at both ends of the second scanner 3 and driven in engagement with the internal teeth of the second timing belt 15; A plurality of wire pulleys 14 installed along the moving area of the third scanner 3 so as to be positioned inside the idlers 7, 8, 9 and 10, and for changing driving directions; A wire (4) connected to the wire pulley (14) and connected to one side of the scanner pulley (5) to drive the mounting position of the second scanner (3); And an adjustment spring 6 which is connected to a predetermined position at one end thereof so as to maintain a proper tension on the wire 4, and adjusts a mounting position of the second scanner 3 as necessary. Optical system drive device. According to claim 1, Support portion 12 of the predetermined size provided on the upper side of the scanner pulley (5) to prevent the separation of the second timing belt 15 that may be generated during power transmission to the second scanner (3). Optical system drive, characterized in that it further comprises a).