KR910005236Y1 - Optical apparatus of video camera - Google Patents

Abstract

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Description

Optics in Video Cameras with Trough Camera Lens Auto Focusing

1 is a configuration diagram of a drive system in a conventional TCL AF system.

2 is a side view of a lens according to the prior art.

3 is a side view showing the appearance of a video camera according to the prior art.

4 is a configuration diagram of a drive system according to the present invention.

5 is a side view of the lens according to the present invention.

6 is a side view showing the appearance of a video camera to which the present invention is applied.

* Explanation of symbols for main parts of the drawings

1: focusing lens group 2: zooming lens group

3: master lens group 4: focusing motor

5: Zooming motor 8: TLC sensor

9: beam splitter 10: image scanner

11: signal processor 14: TC controller

The present invention relates to an optical device using a TCL AF in a video camera, and in particular, to drive the master lens group to focus, thereby simplifying the structure of the lens, contributing to the reduction of production cost and improvement of the appearance design. It relates to an optical device.

The conventional drive system for an auto focus zoom lens is as shown in FIG.

Referring to this, the zoom lens is divided into a focusing lens group 1, a zooming lens group 2, and a master lens group 3 according to the action thereof, and these three lens groups 1 (2) and (3) are driven by different motors, the focusing lens group 1 is driven by the focusing motor 4, the zooming lens group 2 is driven by the zoom motor 5, and the aperture 6 ) Is driven by the aperture motor 7 and the master lens group 3 behind the aperture 6 serves as an imaging role. In addition, in the TCL (Through Camera Lens) method, a part of the image of the zoom lens has to be formed on the TCL sensor 8 so that a 10% beam splitter 9 is installed for this purpose.

In addition, the driving system of such a zoom lens forms an image on the image scanner 10 and the image is formed into an image signal by the image scanner 10, and the image signal is shaped into a desired video signal by the signal processor 11 of the camera.

In the above-described zoom lens driving system, the focusing lens group 1 adjusts the focus according to the distance of the subject. In the case of the zoom lens, the position of the focusing lens group is located at the front of the lens. As shown in FIG. 3, since the focusing motor 4, the driving gear 12, and the like must protrude up to the front of the lens, the appearance of the camera case 16 may be adjusted to support the focusing driving gear 12. It has no choice but to protrude to the front.

Therefore, in the prior art, since there are separate ranges for focusing, the number of lenses to be used is increased, thereby making the lens heavy and increasing the cost. In addition, there was a defect that the zoom lever 13 for manual zooming is inconvenient to hold and turn and the appearance of the camera case 16 is not good.

The present invention was devised to solve such a combination of the prior art. By driving the master lens group, the focus can be matched according to the distance of the subject, contributing to the product's light weight, miniaturization and cost reduction, and having a better appearance. The present invention will be described in detail with reference to FIG. 4 to 6 of the accompanying drawings.

4 shows a driving system according to the present invention, and as shown in the present invention, the lens is composed of the zooming lens group 2, the master lens group 3, and the beam splitter 9 for TCL AF. The optical system is constructed, and the master lens group 3 is driven by the focusing motor 4 connected to the TC controller 14 to perform focusing.

As such, when the master lens group 3 is driven and moved by the focusing motor 4, the focus of the image is exactly matched. This is because the principle of geometric optics, that is, the focal length of the entire optical system varies slightly when the distance between the two lens groups is changed. It becomes possible.

In such an auto focus system, the beam splitter 9 is behind the final lens and always forms the same image as that formed on the image scanner 10 on the TCL sensor 8 so that the remaining TCL controller 14 of the image generated by zooming is left out. The master lens is moved by the driving of the focusing motor 4 controlled by) so that the correct image can always be obtained accurately. Therefore, there is no need to worry about the problem that the position of the image deviates from the image sensor.

5 is a side view of the lens according to the present invention. Referring to FIGS. 4 and 5, the zooming lens group 2, the master lens group 3, and the aperture 6 are respectively zoomed motor 5. , The focusing motor (4) and the aperture motor (7), the zooming motor (5) is operated as the user presses the zoom switch 15, the focusing motor (4) is formed on the TCL sensor (8) If the focus of the image does not match correctly, the TCL controller 14 senses this and drives the focusing motor 4. The master lens group 3 is automatically moved back and forth according to the driving of the focusing motor 4 so that the focus of the image is correct. Will fit.

In addition, the image signal obtained by scanning the image formed on the image scanner 9 is processed by the signal processor 11. The processor 11 has a control unit for driving the aperture motor 7 so that the aperture motor ( 7) is driven to close the aperture (6) if it is too bright and open if too dark.

On the other hand, the master lens group 3 greatly changes the position of the image even if the amount of movement is very small, and the driving mechanism is such that the actual structure of the lens movement is not large even when the ring 17 of the master lens group 3 is turned large. It is desirable to have a.

In addition, in the driving system of the present invention as described above, when the master lens group 3 is moved to match the focus, the movement of the image due to the zooming need not be concerned. This is achieved by performing focusing control in real time. This is because the focus is always adjusted so that even if the position of the image is out of position by.

6 is a side view of the video camera to which the present invention is applied. Referring to this, the camera case 16 according to the present invention does not require a protrusion for supporting the driving unit of the focusing lens group 1 that has been required in the prior art. In addition to the good appearance of (16), the operation of the zoom lever 13 becomes very easy, and the parts exposed to the outside are reduced, thereby reducing the failure in use.

As described above, the present invention is designed to drive the master lens group with a focusing motor to perform focusing, thereby eliminating the need to separately install the focusing lens group and its driving mechanism, thereby reducing the number of lenses to be used. Not only has the advantage of greatly contributing to light weight and low cost, the camera case has a good appearance, and the zoom lever is easy to operate and the weight to be driven is light, so the driving force for driving the focusing motor is reduced.

Claims (1)

A zooming lens group 2 is installed in front of the master lens group 3 and driven by the zooming motor 5, and the aperture 6 and the beam splitter 9 are disposed before and behind the master lens group 3. Each is installed, the image scanner 10 is installed at the rear of the beam splitter 9, and the TLC sensor 8 is installed on one axis, the image scanner 10 and the aperture motor 7 is a signal processor ( 11) an optical device of a video camera using TLC auto focusing connected with the TLC sensor 14 to the TLC controller 14, wherein the master lens group 3 has a focusing function. The focusing motor 4 connected to the controller 14 is connected to the master lens group 3 to be driven, and only the zooming lens group 2 is in front of the case 16 in front of the master lens group 3. TLC auto focusing, characterized in that the installation by protruding Video optics.