DE522487C - Method for viewing or viewing an object that is capable of reflecting electromagnetic waves in a range from about 0.1 mm to about 1.5 mm - Google Patents

Description

In the case of devices for the remote transmission of views, images, etc., including such devices commonly referred to as television devices it is known to use substances that change their electrical resistance or 'but emit an electric current when exposed to light, about that of the object, its image

ίο is to be transmitted, sent or to convert reflected light radiation into electrical currents. These currents become transmitted via cables or wirelessly to the receiving station, where it is used to form a reproduction of the object.

One has already used methods of seeing in the dark, in which as heat rays known radiations can be used, the collection of which by means of a bolometer or a similar device he follows.

The present invention is directed to the use of other forms of radiant energy for the purpose of viewing, and accordingly here the invention forms a method for Seeing an object, which consists in the latter short electromagnetic Throwing waves that have a longer wavelength than those previously used To scan the object or an image of the same by means of a device, which is sensitive to short electromagnetic waves and a tuned Oscillating circuit with a detector contains a source by means of this device to modulate visible light and a light spot emitted by this source in synchronism with the scanning of the object across a screen.

The short electromagnetic waves mentioned are those between about 0.1 mm up to about 1.5 mm, i.e. within a range of waves that are longer as heat waves. ■

However, shafts of this length range can consist of certain materials Bodies are not reflected, so that the usefulness of the invention is limited with respect to such bodies, in but in other respects, z. B. in shipping, is of the utmost importance because the metal the hull of the ship reflects the short electromagnetic waves, so that the ship can be spotted at night or in fog.

Since the ability of an electromagnetic wave to penetrate fog increases to the fourth power of the wavelength, ie because the fog penetration ability of two electromagnetic radiations, one of which is e.g. B. has twice the wavelength of the other, is not directly proportional to the wavelengths, then the ratio of penetration is not 2: 1, but 2 ⁴ : i. That is why waves of the above

mentioned wave range able to penetrate fog far more easily than the shorter ones Heat rays or the even shorter light waves.

Also, the short electromagnetic waves can be detected by a wireless detector be collected, which is a far more sensitive and therefore more reliable device represents than the previously common ίο heat or light-sensitive devices.

Also, the source of visible light can be remote from the device for modulating and controlled by transmitting the modulating pulses over a line or wirelessly, similar to what happens in systems for television. It is known that wireless waves, like visible light waves, are dependent of the differences that result from the differences in wavelength, can be refracted and reflected, and that all the desired effects can be achieved by a suitable choice of the materials for the refractors or reflectors. So z. B. a conductor act as a metallic body as a reflector for long waves, while an insulator can be completely transparent to such waves. However, when electromagnetic waves of very short wavelengths are used, that is, waves which have a longer wavelength than heat waves, the refraction and reflection effects are similar to those obtained with wavelengths ³ ^ within the visible spectrum.

The invention also relates to an apparatus for carrying out the method described. An embodiment of the same is illustrated schematically in the drawing.

According to the drawing, the radiation will generate a wave of the desired length Device 2 by means of a lens 4 made of pitch or some other material suitable for the intended purpose thrown at the object 6, the image of which is to be transmitted. These items is scanned with the aid of a scanning device 8 by means of a device 10, which is sensitive to the waves mentioned. This device is electrical with a tuned oscillation circuit connected or forms part of the same. The way in this circuit The resulting oscillating current is rectified by means of a rectifier or detector 12 and then, if necessary, amplified by an amplifier 14 and sent to the receiver 16 through a line or through in accordance with the changing Transmit current modulated carrier wave of a wireless transmitter of conventional design. The current goes from the receiver 16, if necessary via a further amplifier 18, to a visible light source 20, e.g. B. an incandescent lamp or something else suitable lamp, the radiation of which is controlled in accordance with the change in current will. This lamp 20 works in conjunction with a scanning device 22, the runs in synchronism with the scanning device 8 and arrives on a screen 24 visible image 26 of the object 6 is generated.

Claims (2)

75 claims: i. Method for television or visualization of an object, the electromagnetic Waves of a wavelength range from about 0.1 mm to about i, S mm is able to reflect, characterized in that on the object electromagnetic waves lying within the mentioned wavelength range be thrown that the object or an image of the same by means of a device is scanned, which responds to such waves and a tuned Oscillating circuit with a detector that contains a source of visible light modulated by this device and that one projected by this light source Light spot in synchronism with the scanning of the object over a Screen is guided. 2. The method according to claim 1, characterized in that the source is visible Light is arranged remotely from the device for modulating and from a transmission of the modulating pulses of this device taking place via a line or wirelessly. 1 sheet of drawings