DE3440177A1 - Television recording and replay device for endoscopy on human and animal bodies - Google Patents

Abstract

A television camera, which is constructed in ellipsoid form for the purpose of endoscopy, can be swallowed and is transported by means of natural peristalsis as the advance mechanism transmits pixel signals to a memory which is provided outside the body. The image is reproduced by means of a visual display unit or image printer which calls up the pixel signals from the memory. <IMAGE>

Description

TV recording and playback device for

Endoscopy on Human and Animal Bodies The invention relates to a television recording and reproducing device with one for endoscopy in human and animal bodies, in particular their digestive tract, insertable television camera and a reproducing device provided outside of them.

A device of this type is already covered by the United States patent 2,764,149 known. In this case, the television camera is designed as a probe, which is connected to the playback device via a line that is used for transmission is used for television information.

Practical experience shows that some internal organs, e.g. the Small intestine, only partially or only with complications and / or discomfort means Probes of the known type are accessible. It also proves to be disadvantageous that by an endoscopy process with a probe of the known type a local Binding is strictly enforced during its duration, which among other things-already the duration There are narrow time limits for an endoscopy process. Furthermore, a No endoscopic procedure because of the complications and discomfort involved only for a limited time, but also not under any conditions, e.g. 9 not during sleep or during physical exertion and exercise, and do not perform in every physical situation.

The object of the invention is to avoid those listed above Difficulties to simplify, facilitate and facilitate the conditions of endoscopy to make more independent of external circumstances. In this context it is essential to be able to extend an endoscopy process to any length of time, so that it can be extended to any large and long parts of the interior of the body It is of particular importance that the advance of the television camera Avoid discomfort and complications as much as possible during endoscopy should, The invention solves the problem in that one with a lighting device equipped swallowable and to carry out a steady recording process continuously moving television camera under the influence of natural movement Peristalsis is set up to carry out all-round recordings and one Transmitting device for the wireless transmission of these recordings Having television signals, and that the reproducing device with a receiver is equipped for these wirelessly transmitted television signals.

The invention makes it possible to detect larger parts the inside of the body, especially the digestive tract, through a longer lasting Endoscopy process enables the television camera to be advanced without any problems or complications and to make it independent of external conditions and for endoscopy to open up new possibilities with regard to such conditions, æ.B, those of the natural Sleep. The advancement can take place through the natural peristalsis. According to the invention the influence of the peristalsis on the feed can also be seen by means of the all-round recordings capture by reproducing images squeezing or pulling apart distortions makes visible that correspond to an accelerated or decelerated feed.

A wireless transmission of physiological signals from the human Body at an external recipient is already related to the administration of insulin has been provided. However, since it is used in a stationary manner in the body Is small aggregates, this technology is not able to stimulate the solution of the to give the invention underlying problems. This does not happen alone from the fact that such small units cannot simply be swallowed to their place of use can be spent; rather, the technology of these small units also affects them not the problem of ongoing and by targeting larger areas TV recordings capturing internal parts of the body due to the advance of the TV camera, as well as the inclusion of the natural peristalsis through these recordings.

Further developments of the invention are specified in claims 2off0, By developing the invention according to claim 2, the possibility improved the television camera through natural peristalsis, especially the Digestive organs.

The training according to claim 3 enables the onward transport To influence (feed) from the outside, i.e. to promote or inhibit or to direct them, e.g. at junctions and / or junctions or in bulges into it.

The development according to claim 4 creates the possibility of the television camera turn to without a greater force, that is, by means of only a small force can.

A summary of the previously discussed training courses combined of claim 5 with an additional development, according to which the television camera not only or instead of being movable in the longitudinal direction from the outside, but also for executing a rotational movement. To do this also in the parts with convoluted To be able to perform vessel shape, in particular the digestive tract, allows the development according to claim 6, that the plane of rotation of the magnetic field of the momentary The plane of rotation of the television camera (perpendicular to its longitudinal axis) must be continuously adjusted can, To this end, according to a further development of the invention according to claim 7 a locating device is provided which enables this ongoing adaptation. By the further development specified in claim 8, the locating device is capable of the current one The spatial position and spatial alignment of the television camera based on the received television signals in order to then continuously align the plane of rotation of the magnetic field0 According to a further development of the invention according to claim 9 including some their previously mentioned further training is achieved that the recording technology is very simplified, especially in connection with the mentioned possibility the execution of a controlled rotational movement. It is according to this training only one recording organ suitable for capturing a single pixel is required, that in the course of the rotation of the television camera in the immediate vicinity the television camera lying pixels successively detected and the relevant television signals for the sequence of these pixels one after the other for transmission. Because these pixels lie on a helical line when moving lengthways, result This also gives rise to possibilities for drawing conclusions about a non-constant feed rate. In this context, the further training according to claim 10 gives the possibility both the precision the recording as well as the light output to increase the exposure, which is advantageous for the special lighting situation.

The development of the invention according to claim 11 improves the prerequisites for the rotation of the television camera around its longitudinal axis. This is followed by the Further development according to claim 12, whereby the television camera in its outer Shape can adapt something to the environment. The training according to claim 13 creates the most favorable prerequisite for a smooth rotation of the television camera So the related friction largely down and thus also for the addressed Rotational movement required effort.

The development of the invention according to claim 15 makes it possible an endoscopy procedure for longer periods of time up to several hours or days and evaluate its result as a whole. The development of the invention according to claim 16 eliminates the risk of quantitative corruption of the television signal, at least it significantly reduces this risk.

The feeding of the television camera and its lighting device with Operating voltage according to claim 18 simplifies this voltage supply considerably, during this feed according to claim 19 any temporal extension of the Enables endoscopy operations.

According to the development of the invention according to claim 20 can be in a simple way, a connection between the successive recording cycles belonging series of television signals to each other, and these series Corresponding picture lines can be combined to form an overall TV picture. Through the development according to claim 21, it is possible to endoscoped contiguously Body parts to be viewed in a ten. This option offers also the development according to claim 22, which is also able to dispense with a memory.

The development of the invention according to claim 23 causes the Recordings always take place at the point where the TV camera is around Vessel, e.g. 3. the small intestine, most widened by this, i.e. in its surface is stretched smooth. It also has the effect that the recording processes always take place at a point where a possibly existing vessel content is optimal is pushed away. The development according to claim 24 makes it possible at increased Feed rate in relation to the endoscopy object and its image nevertheless to achieve a complete television picture.

In Pigo 1 and 2 of the drawings is an embodiment of the invention only shown in parts that contribute to their understanding, but whereupon they is by no means restricted. The description is initially limited to an explanation the Sigo lo In the middle part of Fig0l is a transmitter in an egg-like Langellyptischen housing K shown in cross section.

The case represents an ellipsoid with two axes of equal length and a third axis about one and a half to three times as long as compared to these. The representation is approximately ten to thirty times enlarged. As can be seen The drawing shows a sectional view, with the longer (third) axis and one of the other two axes of the elliptic lie in the plane of the drawing, the latter in the horizontal and the longitudinal axis of the ellipsoid in the vertical of the graphic Depiction. Cross-sections to the longitudinal axis, which are perpendicular to it and perpendicular to the plane of the drawing are circular.

But you can also have elliptical shape; in this case would be so the previously mentioned first two halbachaen of the ellipsoid are not of the same length.

The housing K, which is the housing of the television camera, is located in an outer, translucent envelope H made of a rigid material similar to glass (Plastic) or made of flexible Material can exist. The strong The enlarged space between the housing and the shell is shown with a clear transparent liquid filled, whereby the housing K and thus the entire television camera easily rotatable about its longitudinal axis, which corresponds to the longitudinal axis of the ellipsoid is.

Bearing points indicated at the upper and lower end of the housing L1 and L2 can also be attached to prevent wobbling of the television camera exclude and an exact gyro-like rotation of the television camera when rotating to ensure their longitudinal axis. - The said liquid has a low Adhesion and a low viscosity.

The specified ellipsoidal shape of the housing K of the television camera as well the shell H surrounding it and belonging to it as a component favors its Feed by means of natural peristalsis, e.g. of the small and large intestines. Consists the shell H made of flexible material, this favors the form-fitting adaptation to the inner shape of the surrounding vessel to be endoscopic, e.g. the thin and colon. If the shell is made of rigid glass-like material, it is favored this is the ease of rotation and the precision of the recording.

The television camera contains a recording device A with a light-sensitive Organ Al, for example a photodiode or the like., And with an optical lens A2 that the Sensitivity of this organ to a pickup point (thus an extreme small area part meant) on the surface of the as an integral part of the The case H belonging to the television camera is focused.

So that means that the entire light sensitivity of the organ Al focused on this pickup point. One of them is arranged to the side two light sources G1 and G2 existing lighting device; these light sources like light-emitting diodes or others that have a relatively high degree of efficiency Light producers exist. A circular light generator can also be provided be that concentric around arranged around the receiving device is. The radiation of the light generator (s) is concentrated on the pick-up point, The light-sensitive organ of the recording device uses the lens from the object to be endoscoped, namely the respective recording point same, received and detected light signals in electrical analog.

signals that it forwards to an encoder (C).

The television camera with its shell is of such dimensions that it can be swallowed. To carry out a continuous recording process, it is continuous moved on. To this end, it is under the influence of natural peristalsis. she is set up for all-round shots, for which purpose it is carried out in the manner already described is arranged rotatably in its shell H. It also contains one already mentioned Transmission device consisting of the encoder C, a clock generator T and a transmitter S consists. The encoder is used to convert the electrical analog signals into PCM signals that are passed on to the transmitter S as Nachriehten to be sent and be brought to transmission by this via the dipole D1 / D2.

The clock generator T regularly sends clock pulses to the encoder. With each clock pulse, the currently present and each time a PCH signal converted television signal forwarded to the transmitter S. The lined up Recording points on the object to be endoscoped, e.g. inside of the intestine, are therefore individually marked by the successive clock pulses. The one from that Transmitter S transmitted in PCMI form television signals are transmitted by a receiver U of the Playback unit

tion added.

If the television camera is inserted into a vessel, e.g. the small intestine and slowly pushed on in it (advance) and becomes its inner part, i.e. that Housing with everything it contains, set in rotation in the manner described, so the receiving device A with its receiving point, under which one extreme small area is to be understood on a helical line within this Vessel, e.g. the small intestine, guided along, the through each of the successive circumnavigations given and consequently lying next to one another Parts of this line (similar to the adjacent threads on a Screw thread) a distance (similar to the distance from thread to thread) from each other, which results from the respective feed per recording cycle, So that is covered per revolution of the television camera in the longitudinal direction. One recording cycle corresponds to one revolution of the television camera, i.e. one circumference covered by its receiving device on the relevant vessel wall. The number of individual recordings per recording cycle, i.e. per revolution of the television camera, and consequently the number of television signals individually corresponding to these recordings, which are sent out one after the other in POM form results from the Rotation speed and thus the inversely proportional time per revolution, So per revolution, as well as from the Taktim frequency of the clock generator Tg i.e. from the Number of clock pulses per recording cycle.

The shell has an inwardly effective mirroring in the form a very narrow strip that corresponds to one or two pick-up points in width, and which extends longitudinally from one of its two poles to the other and lies in a plane in which its longitudinal axis also lies. This strip can also be significantly shorter and confined to the area in which the receiving organ running around. As can be seen from the drawing, this is in the area of the largest Circumference of the television camera - based on its perpendicular to the longitudinal axis circular cross-sections. The said mirror coating is from the receiving organ and the lighting device optically hit. It serves as a marker the one when the television camera is turned and it is passed over by it Recording organ a generated by this and different from the other television signals differentiating marking signal caused. The by two consecutive Marking signals limited several consecutive recording cycles result in series of television signals, e.g. picture lines, which by means of the respective at their beginning and / or end of occurring marking signals (start of picture line and / or end signal) in the playback device, in particular one belonging to it Memory, can be successively assigned to one another.

In addition, it should be added at this point that the optical effect of the lens A2 due to the shape-related and material-related optical refraction behavior causes or supports the liquid in the space F and the outer shell is. The shape of the liquid is of course determined by the shapes of the enclosing ones Sheath and the housing including the lens A2 worn by him determined. The envelope H can, however, also in its by the orbit of the receiving device A certain circular cross-section having a cylindrical additional lens, which is drawn around the whole shell and in an inner or outer bulge or hollowing out.

It should also be added that the shell H when manufactured from a flexible Material to enlarge the recording field can also be inflatable. That for this required gas can be generated by electrolytic processes or by evaporation and the signals required for this can be wireless in a manner known per se be transmitted.

It should also be mentioned that the television camera has two or more of the shown and described recording devices or several recording organs may have in a common receiving device, which in a longitudinal to Longitudinal line which is parallel to the above-mentioned strip, arranged are. So you are in a manner not shown in detail in the housing as the recording device shown.

The television camera also contains an electromagnetic acting Part W. By generating a magnetic field outside the body to be endoscoped a force can be exerted on the television camera. This can lead to influencing exploited the movement of the television camera in its longitudinal direction will, So to move, but also to accelerate or slow down a through the natural peristalsis induced movement. Furthermore, a steering of the television camera at branches or junctions or leading into bulges in the affected vessel wall are effected.

The main purpose of the ferromagnetically acting part W is to induce it the rotation of the television camera. For this purpose, its magnetic longitudinal axis runs transversely to the longitudinal axis of the television camera, whereby by rotating the outside of the Body generated magnetic field, the television camera is rotatable about its longitudinal axis. Since the vessels to be endoscoped, e.g. the intestine, can have many curves, which the continuously advanced television camera has to follow, and since these are themselves is to continue to rotate continuously, the magnetic field can be rotated in all spatial planes. This is done on the walls of the treatment room, which are protected against external fields, e.g. the Earth's magnetic field, can be shielded from the outside, attached field windings Y1, Y2 and Y3, which correspond to the three dimensions of space, and which each twice may be provided. Two windings Yi like parallel to the floor and ceiling of the Be arranged treatment room. Two windings Y2 like the front and back of the room and two windings Y3 of the right and left side walls. With the help of such or similar windings, it is known to be possible to produce a magnetic To generate a rotating field in space, the plane of rotation of which can be chosen at will, that is can be swiveled at will by doing this the various windings individually or in combination with electricity of different and constantly changing strengths will. With the help of such a rotating field, the rotation of the television camera is over their ferromagnetic part brought about. The plane of rotation of this rotating field is continuously the current and through the mentioned curvature of the endoscopic Vessel, e.g. the intestine, the alignment of the longitudinal axis of the television camera adapted, so that it is always perpendicular in the plane of rotation of this rotating field is located.

As already stated, the transmitter S brings the television signals in PCM form via the dipole D1 / D2 for transmission. These signals are not only sent by a receiver U of the playback device, but also recorded by a location device X. This is able to use these signals to determine the current spatial orientation at any time of the dipole D1 / D2 of the television camera, i.e. its longitudinal axis. Therefor it is equipped with three dipoles, which correspond to the three dimensions of space. The locating device X continuously determines and reports data relating to the current alignment the television camera, i.e. its longitudinal.

axis concern, via the transmission path x to a common control device Z. The three dipoles are the dipoles x1 / x2, x3 / x4 and x5 / x6. the Control device Z charges the field windings Y1, Y2 according to this data and Y3 so with current of alternating strength and direction that this creates a rotating field in the same plane is generated in the current plane of rotation of the television camera lies. The power supply for the field windings is via a multi-core cable y from the controller Z to these field windings.

That of the receiver U of the reproduction device by means of its dipole V1 / V2 pixel-wise received television signals are fed to the memory R, which has a large number of memory lines shown in the drawing. One memory line each, in turn, consisting of a number of memory elements serves to store the television signals belonging to each recording cycle, each of which consists of a PCM word. In the same order as this PCM words arrive in the receiver U, they are written by a writing device UR written successively word for word in the memory elements, i. e.

always a PCM word in a memory element. And the POM words that each belonging to a recording cycle are always stored in the storage elements respectively written in a memory line.

The number of times passed by the recording device of the television camera Recording cycles in an endoscopy process is therefore equal to the number of there memory lines described. This number results from the duration of an endoscopy process, the is to be divided by the duration for each recording cycle. Beginning and end each of a recording cycle are due to the marking signal already explained above with the help of which the line-by-line storage of the PCMI words one at a time Recording cycle is enabled.

The overall result of an endoscopy process can be known per se Way with the help of a reading device RP of the memory and a monitor (screen device) be made visible.

Furthermore, a printing device N is provided, which the stored Overall result of an endoscopy process pixel by pixel in as well as by means of the Monitors allowed to print out in a manner known per se. So it prints per PCM word one pixel each and thereby selects an intensity for the respective paper blackening in accordance with the partial picture information contained in the respective television signal. The printing device does this individually for one PCM word each, that is, one Image point or together per recording cycle, i.e. per image line.

The printing device can receive the television signals received by the receiver U even without intermediate storage in the memory, i.e. in direct reception using the Map the receiver U.

Distortions result from different feed speeds. An increased feed speed of the television camera has the consequence that the successive Acquisition cycles of a helical line with a more gradient (cf.

Threads of a screw thread) correspond (and vice versa) thus resulting in a crowded image reproduction (and vice versa). It is possible, this results in an uneven feed rate, i.e. peculiarities of the peristalsis to recognize.

If the feed rate is set in another way, e.g. by means of the Locating device, continuously determined, can be based on such an additional Information that compensates and eliminates the distortion effect, insofar as it is undesirable will.

Finally, the television camera is also supplied with operating voltage explained. A battery B can be provided for this purpose. But it can also be provided be that in time alternation or with different transmission frequencies on the one hand PCM words from the transmitter S to the receiver U and on the other hand high frequency signals as an energy carrier from which in this case is additionally designed as a high-frequency transmitter Locating device (which might also have to work alternately) be transferred to a receiving facility E, which i.w. than one just for this High-frequency signals permeable filter is to be formed, from which the received Energy is supplied to the battery serving as a buffer in this case.

Another embodiment of the invention is shown in Fig. 2 of the drawings shown. This variant eliminates the need for the cover and the precautions according to Zig.1 for Rotating the television camera by means of the rotating field.

It points in the area of its greatest circumference, based on the perpendicular Cross-sectional plane lying to its longitudinal axis, over its entire circumference (possibly only on part of its circumference) a larger number of light-sensitive organs similar to the one described with reference to FIG. 1 (A1), that is to say a wreath such organs. They are individually light-generating elements, i.e. light generators, assigned similarly to the arrangement described with reference to FIG. The representation according to Figo 2 shows a perpendicular to its longitudinal axis section in this Area; the housing K1 may have a similar shape to the housing K In Fig. 1. - Such a light-sensitive organ is in each case with a light generator combined to form a receiving cell Wreath of such recording cells AG1 to AGn (or only AG1 to AGm) around the television camera after Fig. 2 around. Your housing may also be crystal clear, transparent to light, at least in front of each of the receiving cells AG1 to AGn.

The television camera of Fig. 2 has a control circuit Q, the serves to turn the recording cells AG1 to AGn for processing the recording cycles to switch effectively. Each of the receiving cells is similar to that with an encoder connectable described with reference to FIG.

For this purpose, a central bus line (not shown) is provided which is led in turn to all receiving cells as well as to this encoder. the Activation of one receiving cell each, for which control lines q1 to qn are provided is that their lighting device (light generator) is switched on and that your light-sensitive element is connected to the encoder via the bus line is connected through. It is also possible to activate a receiving cell In addition, to activate the light generator of your neighboring receiving cells.

With the help of the control circuit Q, the processing of the recording cycles accomplished that in its result with the recording cycles described with reference to Sigo 1 are comparable. Each of the receiving cells delivers when it is activated one television signal each; consequently they deliver in a circular (endless) series arranged receiving cells in the cyclically circulating control circuit processes in a manner similar to the arrangement of Fig. 1 series of television signals. One of the receiving cells may be clearly different from all other television signals Supply marking signal, which signals the beginning and end of each recording cycle and is marked.

The coding, transmission and evaluation of the television signals as well the operating voltage supply may be similar as in the arrangement be realized according to FIG.

The variant embodiment of the invention according to FIG. 2 eliminates the need for constant ones Rotation processes of the television camera, as provided in the arrangement of FIG are, as well as in connection with it the outer shell H.

The arrangement according to FIG. 2, like the arrangement according to FIG. 1 be equipped with a ferromagnetic part W. That’s the television camera according to Fig. 2 for all-round shots built up only within a semicircle (zOBO if receiving cells are only provided from AG1 to AGm), this part the television kainera are turned around under the influence of an external magnetic field, around their half-wreath of receiving cells AG1 to AGm on the respective desired parts to align the vessel to be endoscopic. A television camera in the form shown in Fig. 2 emergent training enables it to locate on measures and facilities to forego and the means for generating the external magnetic field substantially to simplify, because the generation of a rotating field in all different spatial levels unnecessary. The one-time rotation of the television camera can be used before starting a recording be performed. - The arrangement according to Fig. 2 creates the further possibility provide a portable receiver and this with an amplifier and / or converter and a transmitter to combine the television signals then to a playback device similar to that shown in Fig. 1 forwards. This would give the opportunity that the wearer of such an endoscopy television camera in a limited radius can roam freely.

- blank page -

Claims (15)

Claims television recording and playback device with a television camera that can be inserted into human and animal bodies and one playback device provided outside the same, characterized in that that a swallowable and equipped with a lighting device for implementation a continuous recording process continuously moving TV camera under the Movement influence of the natural peristalsis is available, for the implementation of all-round recordings is set up and a transmitting device for wireless transmission of these Has recordings corresponding television signals, and that the playback device equipped with a receiver for these wirelessly transmitted television signals is. 2. Device according to claim 1, characterized in that the outer Shape of the television camera through a configuration as an egg-like long-elliptical Body favors its advancement by means of natural peristalsis. 3. Device according to claim 1, characterized in that the television camera contains at least one preferably passively acting ferromagnetic part, and that their locomotion is due to the action of a magnetic field generated outside the body is effected. 4. Device according to claim 1, characterized in that the television camera Outwardly only circular over its entire length perpendicular to its longitudinal axis Cross-sections, that is, a shape that is concentric with respect to its longitudinal axis. 5. Device according to claims 1 to 4, characterized in that that the television camera carries at least one ferromagnetic part, its magnetic longitudinal axis is arranged transversely to the longitudinal axis of the television camera, whereby by rotating the magnetic field generated outside the body, the television camera is rotatable about its longitudinal axis. 6. Device according to claim 5, characterized in that the magnetic field can be rotated in all spatial levels. 7. Device according to claim 6, characterized in that one the with regard to the three dimensions of the room, the given orientation of the Locating device recognizing the longitudinal axis of the television camera determines the spatial plane, in which the further rotation of the magnetic field in space is carried out. 8. Device according to claim 7, characterized in that the television camera the television signals via a arranged according to the longitudinal axis of the television camera Dipole emits, and that the locating device according to the spatial position of the playback device received television signals determines the current orientation of the television camera. 9. Device according to claim 5, characterized in that the television camera a light signal concentrating on a pixel into electrical signals has converting receiving organ, which for the spatially strung together One television signal per pixel, i.e. a sequence of television signals supplies. 10. Device according to claim 9, characterized in that the Recording organ is connected to an optical lens, which increases the sensitivity of the recording each focused on a recording point on the surface of the television camera. 11. Device according to claims 1 or 10, characterized in that that the television camera in a light-transparent concentric shell and in this is arranged rotatably about its longitudinal axis. 12. The device according to claim 11, ~ characterized in that the Cover made of flexible material and the television camera in it in a transparent one Liquid is arranged in a floating manner and is thereby rotatable. 13. The device according to claim 11, characterized in that the Sheath is made of solid material and the television camera in it by a mechanical Storage and / or by a floating arrangement in a transparent liquid is rotatable. 14. Device according to claim 13, characterized in that the Lens function through the shape-related and material-related refraction behavior of the Liquid and / or the outer shell is effected or supported. 15. Device according to claim 1, characterized in that the Playback device has a memory, of the television signals records, especially pixel-wise. 16. Device according to claim 5, characterized in that the television camera transmits the television signal per pixel as a PCM signal to the display device. 17. Device according to claim 1, characterized in that the television camera is surrounded by an inflatable sleeve to enlarge the recording field. 18. Device according to claim 1, characterized in that the television camera is equipped with a battery as a supply voltage source. 19. Device according to claim 2, characterized in that the energy supply the television camera in a frequency range other than that of the television signals Energy transmitted wirelessly to the television camera is accomplished by the TV camera recorded through an antenna parallel to its longitudinal axis will. 20. Device according to claims 9 and 11, in particular also claim 15, it is indicated that the outer shell is a marking carries that by rotating the television camera and thereby taking place overrun Your recording organ is one generated by this and different from the other television signals distinguishing marking signal caused, and that the by two on one another Marking signals limited several consecutive recording cycles Series of television signals, e.g. picture lines, which by means of the respective on marker signals occurring at their beginning and / or end in the display device, in particular their memory, are successively assigned to one another. 21. Device according to claim 15, d a d u r c h g e -k e n n z e i c h n e t that the television signals after being temporarily stored in the memory by means of a monitor belonging to the display device can be made visible, 22o Device according to claim 9, d a d u r c h g e -k e n n n z e i c h n e t that the Television signals, in particular after being temporarily stored by means of one of the individual Dot-drawing printing device visible on paper or similar material be made. 23. Device according to claim 9, characterized in that the television camera a receiving organ in the area of its greatest circumference - based on its circular Cross-sections - has. 24. Device according to claim 9, characterized in that the television camera having a plurality of receiving organs, which extend in a longitudinal to its longitudinal axis Line on its surface. 25. Device according to claim 1, characterized in that the television camera carries a wreath of recording cells to carry out all-round recordings, which in a plane lying perpendicular to the direction of advance of the television camera on its Surface are arranged. 26. Device according to claim 25, characterized in that one Control circuit the receiving cells in a cyclical sequence one after the other effective switches. 27. The device according to claim 26, characterized in that the Activation of each receiving cell is that each for the extraction a television signal to a light-sensitive organ provided in that Submission this signal with a switching device for forwarding the same, in particular with an encoder and in particular with a transmitter, and that in particular meanwhile also a lighting device assigned to this receiving cell is switched on.