DE2917176C3 - Reproduction lens for computer-controlled repro devices - Google Patents

Abstract

Light-emitting diode (1) made of n- or p-conducting layer parts (4 and 5) in which there is a decreasing band gap (graded band gap) and between which there is a p-n junction (3). The p-conductive layer component (5) is produced by adding additional zinc in the single epitaxial process of manufacture.

Description

The invention relates to reproduction objectives according to the preamble of claim 1.

In the case of high-quality reproduction devices of the type in question here, the distance between Object and image plane are several meters. To change the image scale, you have to do this on a Slide arranged lens z. B. with the help of a threaded spindle by distances of one to two meters be movable. Despite the large adjustment range, the setting must be very precise. With the In addition to shifting the overall lens, you must change the image scale with an or several elements of the lens can be adjusted to one another. The individual adjustment paths are in one certain relationship to each other and must be adhered to very precisely. The response time should be the change in the reproduction scale should be as short as possible.

From the German Offenlegungsschrift 26 11 639 is a control device for lenses with a variable focal length is known in which the individual adjustment movements are carried out with the aid of electromechanical means and all the data required for control are stored in a memory in digital form are stored. There is a large storage capacity for the control of all adjustment movements necessary.

DE-OS 24 10 744 describes a zoom lens in which to change the image scale first the corresponding shift of the lens takes place, after which the lens graduation achieved is photoelectrically sampled and, based on the signal resulting from the sampling, values for others Movements within the lens are calculated electronically. The adjustment movements take place here within the lens only after the ίο displacement of the entire lens has been completed.

In all previously known reproduction objectives with a variable image scale for the Implementation of the necessary adjustment movements, complete control cams either in the form of electronic devices Storage or kept ready as representational curves. This requires the electronic Storage of all required values requires a complex storage capacity Neither electronic storage the curve values nor the curves available as components allow individual consideration of correction values of the lens used in each case.

The object of the invention is to create a reproduction objective in which the electromechanical Adjustment of the entire lens as well as one or more elements within the lens only one relatively small storage capacity is required and in which the adjustment of the lens elements already takes place during the displacement movement of the entire lens. In addition, individual correction values of the lens should be taken into account in the calculation processes can be.

This object is achieved by the features described in the characterizing part of claim 1.

Appropriate further developments are described in the subclaims.

The arrangement according to the invention results in short adjustment times when the image scale is changed, given a small storage capacity required to carry out the respective computation processes. If the coefficients to be saved are entered once, the correction values of the lens can be taken into account.
An exemplary embodiment of the invention is shown in the drawing. Here shows

F i g. 1 a schematic representation (side view) of the mechanical lens structure,

F i g. 2 shows a block diagram of a control device with a computer.

In detail, FIG. 1 is a schematic representation of an embodiment of an inventive Vari ^ lens, consisting of the lens carriers 1 and 2, to change the focal length symmetrically to the aperture 3 by the stepper motors 4 and 5 by means of the Ball screws 6 and 7 are axially displaceable and the lens slide 8, which the aforementioned assemblies 1 to 7 and via the spindle 9 from the stepper motor 10 to keep the image location constant is movable.

The stepper motors 4, 5 and 10, in conjunction with the control electronics, effect the adjustment and also the precise positioning of the actuators I ₁ 2 and 8 without additional rotary encoders. This results in a very simple and economical structure. The zero point setting and initialization of the computer takes place automatically after the system is switched on using light barriers as position transmitters.

in Fig. 2 is an embodiment of an inventive

According to the control device for the necessary ideas shown in a varifocal lens It is composed of the input unit 20, the computer 21, the computer 21, the power supply 22 and the control electronics 23, 24 and 25, which are assigned to the stepper motors 4, 5 and 10 are. The stepper motors act on the sliding elements via ball screw spindles, as in FIG. 1 shown The respective positions of the three adjustment elements v / ground after entering ß ' and pressing a start button in the computer according to a polynomial of the form

calculated Then the main computer transfers the position values of the individual axes to the control elec-

tronics, which then start the motors and let them run in the calculated positions.

Χ means the adjustment path of the lens carrier,

β 'is the image scale,

bo to b "are the polynomial coefficients that are given by the optical-geometric properties of the lens.

When calculating the adjustment paths of lens components y \ and j <2 according to the polynomial of the same form, χ is replaced by y \ or yz and the calculated value of χ is used for β ', where y \ and y _{2 are} the adjustment paths of the sliding elements im Are objectively defined.

For this purpose 2 sheets of drawings

Claims (3)

Patent claims: 1. Reproduction lens for computer-controlled repro devices, which is at a fixed distance between object and image plane located to one another to change the image scale in its optical axis is arranged displaceably and the at least one displaceable to the diaphragm plane having optical member, wherein to carry out the interdependent shifts Servomotors controlled by control electronics are provided and used for control of the control electronics by a computing unit using in data stored in a memory are determined, characterized in that the Computing unit (21) is designed in such a way that it receives the setpoint position value assigned to the imaging scale of the objective ^ nd of the optical member or the optical members each based on the lens assigned coefficients that are in the Memory are stored, calculated and based on the setpoint position values control signals to the control electronics (23,24,25) gives off 2. reproduction lens according to claim 1, characterized in that the displacement of the lens triggering control element has a scale assigned to the image scale 3. reproduction lens according to claim 1 or 2, characterized in that the servomotors (4,5, 10) Stepper motors are provided and the control signals are each provided by a series of pulses are formed, the number of which to. ι Reaching the target position required number of steps is equivalent to.