KR860002462Y1 - Optical system driving apparatus of a duplicator - Google Patents

Abstract

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Description

Optical system drive device of copier

1 is a control system diagram of the present invention.

2 is a structural cross-sectional view of the present invention.

3 is a schematic diagram of a general copier.

4 is a conventional control system diagram.

* Explanation of symbols for main parts of the drawings

A: Automatic selector C °: Control panel

1: auxiliary shaft 11, 12, 13, 14: 1st-4th forward gear

15: Reverse Gear 2: Ju Sha Phat

21,22,23,24: 1st-4th forward gear

25: reverse gear

31-35: 1st-4th forward shift clutch and reverse shift clutch

4: Idle Gear SL ₁ -SL ₅ : 1st-5th Solenoid

The present invention relates to an optical system driving device of a copying machine capable of arbitrarily adjusting a few steps by a mirror with an extremely simple device that plays an important role in reducing and enlarging a copying machine.

The schematic diagram of the optical system driving of the general copier is shown in FIG. 3, and in the proportional configuration of the first mirror, the second mirror, and the third mirror, they are connected to the pulleys of the speed transmission system using idle pulleys and wires, and the like. It has performed functions such as equalization and reverse rotation.

On the other hand, in a speed transmission system that directly engages the shift of the mirror, conventionally, as shown in FIG. 4, the solenoid SL ₁ to SL ₄ is operated by the motor, the adjusting circuit, and the electromagnetic speed converter to operate the forward clutch or the reverse clutch. Has been constructed. However, these conventional speed transmissions are mainly used for equal magnification (1: 1), and for the reduction and enlargement (two steps reduction, one step enlargement, equal rotation reverse rotation), five electromagnetic clutches, two electromagnetic clutches and four The use of two solenoids and a DC regulating motor as a regulating circuit has resulted in an increase in the cost of goods and limitations of functions by using an expensive electronic clutch and a DC regulating motor.

The present invention was devised to improve the above-mentioned disadvantages, and to provide an optical driving device of a copier having a low cost in terms of cost while facilitating the expansion of its function by using a mechanical mechanism and a circuit system of an extremely simple configuration. Is there.

This will be described in detail below.

1 is a schematic diagram of the present invention, which connects a motor M ₁ controlled by an MPU and a 5-stage solenoid SL ₁ to SL ₅ , and converts a given RPM of the motor M ₁ into a mechanical deceleration and solenoid SL ₁ . SL ₅ ) constitutes a control unit (C °) as a clutch for power transmission to the drive unit, which is a system diagram by connecting an optical device (B) to the control unit (C °).

2 is a specific embodiment of the operation part C °, which is a _first and second forward for reducing the second and first stages of the sprocket 7 and the auxiliary shaft 1 connected to the motor M ₁ shaft, respectively. The gears 11 and 12, the third forward gear 13 for equalization, the fourth forward gear 14 for expansion, and the reverse gear 15 for reverse are fixed in turn, and are connected to the forward gears 11-14. Each of the first to fourth forward gears 21-24 is opposed to each other about the main shaft 2, and these gears 21-24 form a ratchet on one surface thereof, and The pulley 5 is fixed to one side.

Each of the first to fourth forward gears 21 to 24 is a forward shift clutch ₃₁ to 34 that is controlled by the _first to fifth solenoids SL ₁ to SL ₅ at positions opposite to the portions where the ratchet surface is formed. ), Which squeezes the bearing (a) for rotation in one direction between the main shaft (2).

On the other hand, the reverse gear 15 is engaged by placing the forward transmission gear 25 and the idle gear 4 with the forward transmission gears 21 to 24 and the main shafts 2 respectively positioned at the lower side facing each other. The reverse shift gear 25 is also positioned such that the ratchet portion is opposed to the reverse shift clutch 35 and the main shaft 2, and the reverse shift clutch 35 is controlled by the fifth solenoid SL ₅ . Has a configuration.

Reference numeral 6 is a solenoid (SL ₁ ~ SL ₅ ) fixing plate, 8, 9 is a fixing member thereof.

In this apparatus, when the power of the motor M ₁ is transmitted to the auxiliary shaft 1 by the sprocket 7, the auxiliary shaft 1 rotates in a constant direction.

The first to fourth gears 11-14 fixed thereto rotate in the same direction as the auxiliary shaft 1, and the forward shift gears 21-24 engaged with the auxiliary shaft 1 are formed around the main shaft 2. ) And idling in opposite directions.

On the other hand, the idle gear 4 meshed with the reverse gear 15 is rotated in the opposite direction to the auxiliary shaft 1, the reverse gear 25 is to rotate in the same direction as the auxiliary shaft (1).

Moreover, the pulley 5 connected to one of the said main shafts 2 is in the state connected with the idle pulleys which drive a 1st, 2nd mirror as shown in FIG.

In this state, when the user of the device wants to perform two-stage reduction, when the second button is pressed, the first solenoid SL ₁ for two-stage reduction (2R) is driven by the microprocessor MPU, which is the first forward shift clutch 31. ), The pulley 5 is rotated at a constant speed ratio as designed with a predetermined gear ratio by engaging the first forward gear 21. Therefore, by advancing the first, second, and third mirrors at a speed faster than normal speed, 1/4 reduction corresponding to the predetermined second stage is achieved.

Similarly, when the second to fourth MPU outputs R, EQ, and EL are generated, the speed shift corresponding thereto is performed.

In the reverse operation, since the auxiliary shaft 1 and the reverse shift gear 25 have the same rotation direction, the reverse operation is performed in the reverse direction with the first to fourth forward gears 21-24.

The present invention is a simple configuration and control system that can arbitrarily increase the transmission structure proportional to the function, and can greatly reduce the overall cost of the copier, but has an advantageous feature that the expansion of the function can be easily adjusted and installed with an optional gear ratio. will be.

Claims (1)

In the optical system driving apparatus of the copier for controlling the optical apparatus by the microprocessor or the adjusting circuit, the one-way rotational bearing (a) is connected to the central hole and the forward and rearward shifting clutch 31-35 having a ratchet or the like is formed. First to fourth forward shifting clutches 21 connected to the first and second forward gears 11-14 and the idler gear 4 of the auxiliary shaft 1 around the main shaft 2, respectively. -24), and the reverse shift clutch 25 is provided, and these clutches 31-35 are attached to the forward and backward connecting clutches with the _first to fifth solenoids SL ₁ to SL ₅ . An optical system driving device of a copier, wherein the optical system driving device of the copier is expanded so that its function is expanded while the optical drive system of the copier is made simple.