DE637579C - Drive for X-ray screens - Google Patents

Description

The invention relates to a drive that avoids the annoying shadows when operating X-ray diaphragms that move back and forth during exposure Perform movement.

It has already been proposed to place the lamellar diaphragm inside an X-ray cassette to be arranged in the form of a revolving or back and forth body. One

ίο such an arrangement has the advantage that the Aperture is in the immediate vicinity of the light-sensitive recording material and together with the cassette forms a handy, exchangeable device part.

In experiments with a diaphragm going back and forth, it was now found that despite the movement of the louvre diaphragm, the individual diaphragm strips open in some cases the photosensitive material draw off, thereby evaluating the x-ray images is made more difficult.

This phenomenon is due to the fact that the film surface during exposure is not evenly covered by the moving diaphragm, but that individual zones take longer than the rest be shaded.

It has now been found that the phenomenon does not appear if one takes care that the diaphragm does not suffer any delay in movement when it is reversed. These Delay occurs z. B. anywhere where the rectilinear reciprocation occurs Eccentric control ο. Like. Is generated from a circular movement. This realization is of importance, since almost all technical drive devices are based on a rotary movement of the drive means are based.

The present invention is based on the knowledge communicated above. The disturbing ones Glare shadows when operating to and fro during the exposure time X-ray diaphragms are avoided according to the invention in that the diaphragm drive ■ device one is used which gives the diaphragm a substantially uniform movement in every direction of movement, and that the diaphragm does not have any significant delay in movement at the point of movement reversal suffers.

A form of solution of the inventive concept is that one to drive the Blendje only uses that part of a circular movement in which 'the driving circle point moves in as straight a line as possible. So you are only allowed a small section use the entire circular path.

If you drive the diaphragm as well, as in the example described later With the help of a cam disk, one becomes the aperture between two congruent, but

Arrange oppositely moving cam disks and switch to the opposite movement by appropriately removing the respective driving cam (e.g. by countersinking). 0

The movement delay occurring when driving by means of circular movement in ^ The proximity of the turning point can also be reduced in its harmful effect by this, that you can turn the aperture much faster in one direction than in the opposite Moving direction. One avoids the addition, which is essential when walking back and forth, at the same speed occurring .Movement irregularities.

An embodiment based on this form of solution is shown in the enclosed Drawing shown.

On top of the X-ray film cassette 1 two guide strips 11 and 12 are arranged, between which the diaphragm 2., resting on ball bearings 21, is easily displaceable is arranged.

The diaphragm is moved with the aid of the arrangement 3 and the tension spring 4. The worm 32 sits on the axis 31 and rotates the cam disk 3 5 clockwise via the gears 3 3 and 34. ^{Four cams 36 1} , 36 ^s , 36 ^s , 36 * are arranged on the disk 35 in such a way that they temporarily grip behind the pin 22 attached to the cassette 2 and thereby move the diaphragm in the direction of the arrow and against the tensile force of the spring 4. The mutual position between the cam 36 and the pin 22 is adapted so that in the position shown in the figure, the pin 22 just ^{slides on the edge of the cam 36 1} and, under the influence of the spring 4, springing back at the next moment Cam 36 ^s hits, which leads it back again without the slightest stop in motion.This game is repeated with each cam, so that in this way the 45th diaphragm never comes to a standstill.

The speed of the change of direction can be changed by changing the speed of rotation of the cam disc or by changing the number of cams, while the size of the orifice travel of depends on the distance between the cams.

F, s X-ray tubes have become known that only work in move in a single direction, this movement being counteracted by spring force an adjustable brake is effected. This known arrangement has with the present Invention to do nothing, since the known X-ray diaphragms do not perform any back and forth movement, so that at all not the problem of irregular shading of the photosensitive Layer occurs.

Another embodiment of the concept of the invention consists in striking the end of the junction on an elastic surface and pushing the diaphragm through ^;; throws back in the rhythmic thrust of a hammer-like device. In this case, the course of the diaphragm movement is influenced by the distance between the hammer and the buffer and by the force of the hammer blow.

The present invention is not only applicable to diaphragm arrangements, which are in the X-ray cassette, but also with larger ones arranged outside the cassette Bezels.

The diaphragm drive apparatus is expediently put into operation and changed from the control panel of the X-ray system itself. As modern X-ray systems usually have automatic time switches for the tube burning time, there is no difficulty in moving the diaphragm inevitably to couple with the recording time. This way the operation the X-ray apparatus ^ simplified, and errors due to diaphragm interference are avoided.

Claims (6)

Patent claims: 1. Drive for X-ray diaphragms that move back and forth during exposure walking movement · in order to avoid disturbing shadow shadows, characterized in that it is the diaphragm a substantially uniform movement is given in each direction of movement and that it is the diaphragm at the reversal point moved without significant delay in movement. 2. Aperture drive according to claim 1, characterized characterized in that in the case of a drive movement based on a circular movement the diaphragm drive only takes place as long as the diaphragm movement - Acting part moves almost in a straight line. 3. Aperture drive according to claim 1, characterized in that the movement the aperture is much faster in one direction than in the other Direction. 4. Diaphragm drive according to claims ₅ chen ι to 3, characterized in that the devices influencing or triggering the movement of the diaphragm are inevitably coupled to the operating device influencing the X-ray tube operation. 5. Aperture drive according to the claims ι to 3, characterized in that the diaphragm is carried against the tensile force of a spring by a cam of a rotating multi-cam disk and, after sliding from the first cam, is brought up to the following cam by the spring tension and by the-. ₍ sem is carried in the first direction. 6. Aperture drive according to claims ι to 3, characterized. That the Aperture is carried alternately by the cams of two opposing multi-cam disks. 1 sheet of drawings