DE1014709B - Lighting device for endoscopes - Google Patents

Description

Lighting device for endoscopes The invention relates to a Lighting device for endoscopes with a translucent rod after the inside of the body cavity to be illuminated the rays from outside it located light source at a large field angle, e.g. B. of 50 ° or more, transmits, and aims to achieve an increase in the brightness of the illumination of the Cavity viewed in direct or lateral view, in particular; for endoscopes, where a: condenser, of large aperture and a reflective surface that Image of the light source on or in the immediate vicinity of that of the light source: neighboring Let the end of the translucent rod arise and this perpendicular to the rod's longitudinal axis is tailored.

Since with this type of endoscope illumination the rays are one from the side arranged by a straight translucent and light-conducting rod outer Concentrated light source at one end of the rod and causes the light source to be displayed the most correct and best arrangement of the parts of the lighting device results corresponds to the case where the magnification obtained by the optical system is the same is one, d. H. where the image of the light source is the same size as this itself and the same dimensions as that which comes into consideration as the place of its origin Has rod end.

The bundle of rays replicates itself. Reflection on him to keep his opening. Flint glass prisms with a face angle of 90 ° lengthways of the rod made of translucent material and reaches the other end of the rod after a number of reflections on the wall corresponding to the size of its opening of the staff. The amount of light transmitted through this depends on the value of the reflection coefficient the rod wall and the value of the light transmission coefficient of the dust material from which is why this use of a rod made of very translucent material recommends, for which molten silica, practically as particularly suitable proven: has.

The optimal conditions for the reflections on the rod wall correspond the total reflection, for which the reflection coefficient is equal to the unit. Therefore, it initially seems advantageous to have a blanket free of any covering translucent rod into consideration, but its use in practice in the case of a bundle of rays with a large aperture, therefore, serious difficulties arise bumps because he is using the endoscope with steam, grease and others Deposits covered, which greatly reduces the efficiency of light transmission will.

Man. has therefore already suggested using the translucent rod a metallic reflective deposit to be coated. For reflection Then that applies between the translucent material of the rod and the metal deposit existing reflection coefficient. Even with highly reflective metallic ones However, the radiation intensity at the in. The body cavity is placed on the rod to be introduced. Rod end considerably as a result of the large number of reflections. the rod wall weakened. The light transmission effect of the becomes even worse Rod. If one. this, without any reflective metal deposits in the interior an enclosing metallic: envelopes glued in because, as a result of an increase in the limiting Angle a total reflection, only for a bundle of rays with a small aperture occurs and the light rays corresponding to a larger opening are reflected in the Break the adhesive layer and be swallowed through the metallic shell.

If you want to achieve a uniformly illuminated field of view, so this must be the entirety of the cross-section of the translucent. Rod; the the receives rays coming from the light source, itself be evenly illuminated. Since it is theoretically true that more light goes through a straight than through a curved one Beam guidance is transmitted, it is therefore advisable to use one if possible straight translucent rod, e.g. B. from larded Silica, to use. For some, but applications, especially for stomach exams, a flexible and deformable light guide element is essential ,.

According to the invention, the brightness is now for endoscopes Illumination device which significantly increases the illumination of the body cavity to be viewed using one after the inside of the cavity the rays one outside located light source transmitting, translucent. Rod created by that the side parts of the rod from both ends. out for a short distance fe are covered with a reflective precipitate and the rod in a dense. Sheath enclosed and with this through. one between. you and the metallic covered rod ends provided also tight connection united as well as between An intermediate space filled with a dry gas is left free for the rod and the sheath is. The concentration! Cover protects the translucent rod against accumulation from moisture vapor, grease, dust and other light-absorbing bodies. the tight connection between the shell and the metal-covered oath end parts, the rod is secured, for example, by glue, cement, rubber or a similar adhesive achieved.

The light-permeable rod used for light transmission and beam guidance According to the invention, material can also be used up to the endoscope tube. free Get the end filling length and then a flat or curved end in this pipe end or faceted mirror can be provided, and rod and mirror can be used for Reflection of a part. of the light rays emerging from the rod wall on the mirror surface and thus to enlarge the existing field in your body cavity work together. There can also be one at the end of the optical system of the endoscope Mirror or a prism can be arranged, around the light rays. for the sake of relief reflecting or distracting from looking or looking at it from the side.

Furthermore, according to the invention, the translucent rod can be designed in this way be, dali itself for the entirety of the rod cross-section receiving the light. uniform lighting results, which can be achieved in particular by can that the entry surface is turned flat after installation and no bevel or receives version. Furthermore, the light source leading to the rays and Forward rod according to the invention also, made up of several in the interior of a shell one behind the other Pieces to be composed, each of which is free of bevel, socket or Aperture is ordered and at least one made of flexible translucent material.

The drawing illustrates the endoscope lighting device according to your invention and its light-guiding and light-transmitting rod, for example in some embodiments ..

Fig. 1 is an axial section through an enclosed by a sheath and with this firmly connected translucent rod; the training of in, the end of a light transmission rod to be inserted into the body cavity is shown in FIG. 2 a for the case of direct, d. H. looking straight at the cavity and Fig. 2b for the case of the lateral, d. H. an illumination of the side wall of the body cavity requiring consideration; Fig. 3 gives in cross section the addition of the loan-permeable. Rod through. a mirror also built into the endoscope tube; Fig. 4 and 5 each leave the end to be pushed into the body cavity in a longitudinal section recognize an endoscope tube in which, to the light transmission steel for the side view of the cavity directs the rays onto the area to be viewed directing mirror or a prism acting in the same way is connected; Fig. 6 shows in the axial section an incorrectly executed and therefore shadow zone in the field of view causing light transmission rod and FIG. 7 in comparison one of these Properly trained, radiation guide rod; Fig. 8 illustrates in longitudinal section a flexible translucent one composed of several pieces Rod.

The same parts are in all. Figures with the same reference numbers designated.

According to Fig. 1, a rod 1 made of translucent material is inside a moisture-proof envelope 2 surrounding it at a distance is provided and with this firmly connected at the ends; the one thus formed between the sheath and the rod The space closed to the outside is filled with dry air. The rod 1 has at both ends 3 and 4 on one. short part of its length each one reflective Precipitation on, for example in the case of a melted translucent Existing silica. Rod 1 can be formed by a silver layer 5 or 6, which is covered with a copper layer 7 or 8. The intimate connection of the mertallisie @ ;, t Ends 3 and 4 of the rod 1 with the moisture-proof cover 2 is with the help of Glue, cement, rubber or any other adhesive achieved.

If you want the lighting to be distributed regularly around the rod axis to be introduced into the body cavity free end of the translucent rod Achieve 1, this end is shown in Fig. 2a with a perpendicular to the longitudinal axis polished end surface. Sometimes it can be beneficial to the axis of the bundle of rays one around a certain. Angle deviating from the rod axis To give direction, what a sloping end surface according to Figure 1 at the free end of the rod requires. If a lateral illumination of the body cavity is to be achieved, you can, as Fig. 2b shows, the free end of the rod l not only with an inclined: Provided the end surface, but this also with a reflective layer 5 cover.

The free end of the light transmission rod 1 to be pushed into the body cavity can be both beveled and polished at its end face according to FIG. The end of the endoscope tube 9 is set back a little and in: because the tube part 10 is left free by it. one built into this., z. B. curved or flat or with facets, formed mirror 11 can be supplemented.

The observation that is usually built into the endoscope tube and photographic recording-enabling optical system, which in some designs, is especially designed for side viewing and recording, like Fig. 4 shows: its end part 12 located at the end of the endoscope tube.9 a body 13 provided with a reflective surface 14 must be completed, ` the with which to look at the translucent; Rod 1 within the tube 9 subsequent Mirror 11 cooperates to the light flux emerging from the rod after the to steer the viewing zone ..

For the same purpose - see FIG. 5 - on the end member 16 of the in A flint glass prism 15 is attached to the optical system provided for the endoscope tube 9 be., exiting from then from the translucent rod 1. Rays, immediately or is traversed after reflection at the upstream mirror 11 and this according to the viewing zone of the wall of the body cavity to achieve one on it focused, strong exposure directs.

In. Fig. 6 illustrates the unfavorable lighting conditions, which see result in a radiation transmission rod 1, in which the entirety of its L.ieh: the entry area is not uniform. If on this one less bright or one: dark zone A is present. through reflection the wall of the rod 1 in the plane of the entry surface successive images A 1, A 2, A 3 etc. arise, of which the furthest. from, the zone A removed Images correspond to the greatest number of reflections.

In, the plane P located at the exit end of the rod 1 are projected. the: Points A 1, A2, A3 , etc. with reference to the exit surface viewed as the pupil, the. Digits, A '1, A' 2, A'3, etc. and result in. a corresponding number of dark zones. These dark zones are more pronounced, the lower the number of reflections - center of the field - and the smaller the pupil, ie the greater the ratio of length to diameter.

If zone A is in the shape of a ring., In. Den. Forehead planes at the exit end of the rod 1 a number of in particular in the middle of the field visible rings A'1, A'2, A'3, etc., which appear more pronounced the longer the stick at a given; Diameter is. Such rings are mainly formed if the light beam is controlled by diaphragms or if one; Bevel on Edge of the rod is present or if it has a socket at its entry end having.

These rings are in the shape of. dark areas shown in Fig. 6, according to which the pole 1 is provided with a socket at the entry end: and therefore a light field with ring-shaped dark: areas delivers. Fig. 7 on the other hand shows a properly executed translucent rod free from this disadvantage 1, which after its installation. in. The, shell 2 machined flat on its entry surface been: is and a uniformly illuminated field and a light transmission with high efficiency results.

To achieve a rigid light guide rod one uses with Advantage of a straight or curved rod made of molten silica. This is a highly translucent and slightly optically editable surface Body, which also has the property that an applied reflective coating deposit, e.g. B. a silver layer, adheres very firmly. Heartily on the translucent Rod anchoring and faultless reflective coatings are on the. rod ends 3 and 3 to be connected with the moisture-proof envelope 2 4 absolutely necessary to ensure radiation transmission through the rod and the coating layers to achieve with favorable light output.

If a flexible and deformable light guide rod, such as. B. for the stomach examination, if necessary, one can choose from a corresponding, compliant and translucent material existing rod in the Fig.1 evident. Way with reflective rainfall. provided and in. a Place a moisture-proof cover. Practice has shown, however, that it is very difficult to hold on, enough adhesive precipitates. to produce a body that is not rigid, but flexible.

Therefore, as shown in Fig. 8, a flexible light transmitting rod becomes from. three Pieces assembled from. which two, e.g. B. made of silica, made rigid and as sealing parts 17 and 18 in the ends of a moisture-proof cover 19 are inserted and connected with it, while the third: as from a plastic, highly translucent: and pliable. Material of existing rod 20 inside the shell between the two rigid Absehlußteile17 and 18 is arranged and with their: flat, end faces. 20 'to: the inner, end faces of the End parts 17, 18 supported. The perimeter of each; of the two final parts 17, 18 is near the associated end of the sheath 19 with a reflective. Precipitation 5 or 6, e.g. B. made of silver, clad; which in turn with a copper coating 7 or 8 is covered. Using a glue or other adhesive. is everyone Final part 17 or 18 connected to a sleeve 21 or 22 made of nickel, which in turn through a sealing sleeve 23 b @ between. 24 again with the help of a glue like z. B. rubber, cement or glue. the shell 19 b @ is fixed.

To at the bends of this composite light transmission rod 17, 18, 20 any optical contact between the resilient rod 20 and the moisture-proof Sheath 19 can be avoided either by an intermediate layer between the sheath and the rod made of matt paper or a non-smooth intermediate cover 25 with a low as possible Refractive index be inserted .. The entry and exit surfaces of the light transmission rod 17, 18, 20 are free of any setting and any bevel, and continue to be the contact surfaces 20 'between the flexible rod 20 and the. rigid end parts. 17 and 18 ground completely flat and have no bevel at all.

The three pieces 17, 18, 20 of the light guide rod do not need absolutely to have the same diameter. Rather, it is when the end: ile diameter must be smaller than the diameter of the image of the light source, advantageous for the longest possible light path to use rod pieces with the largest diameter. For one and the same entry angle on the rod is the number of reflections the larger the smaller the diameter of this rod. Even in the case of the total. and non-metallic reflection, d. H. with a bare stick is recommended a low number of reflections because of the imperfections. the sta: bo surface conditional loss of light.

The flexible light transmission rod formed according to the invention is with many types of endoscopes and especially with gastroscopes and ear probes can be used with advantage.

Claims (1)

PATENT CLAIMS: 1. Lighting device for endoscopes with a towards the interior of the body cavity, the rays of an outside light source transmitting translucent rod, characterized in that the light transmitting Stick (1) on its surface from its two ends (3, 4) Covered for a short distance with a reflecting precipitation (5 or 6) and surrounded by a tight cover (2) at a distance and on: this through between you (2) and the two, reflective: precipitation (5, 6) provided, also tight connections, attached and the between. Rod (1) and sheath (2) free the left, closed space contains a filling of dry gas. z. Lighting device according to claim. 1. characterized in that the translucent rod (1) has a the endoscope tube (9) does not have a length that fills up to its free end and at this end of the pipe a reflective beam of light that reflects his exiting or optical device that deflects and thereby enlarges the illuminated field (11 or 15). 3. Lighting device according to claim 1, characterized in that that the insertable into the body cavity free end (3) of the translucent rod (1) shows a bevel cut end surface with a reflective Precipitation (5) is provided. 4. Lighting device according to claim 1 and 2, characterized in that the free end (3) to be pushed into the body cavity of the light transmission rod. (1) is cut at an angle and polished. 5. Lighting device according to claim 2, characterized in that in the insertion end of the endoscope tube (9) provided optical device is a mirror (11) or a prism (15). 6. Lighting [email protected] according to claims 1 to 5, characterized in that the entry surface of the light transmission rod (1) Ground flat: and is free of any bevel, socket or cover. 7th Lighting device according to claim 1; characterized in that the translucent Rod made of several pieces (17, 18, 20) that are precisely joined together in the cover (2) is composed, each of which has neither a bevel nor a socket nor has an aperture of some kind. B. Lighting device according to claim 1 and 7, characterized in that at least one (20) of the light transmission rod - the pieces (17.18.20) consists of a flexible, translucent material. 9. Lighting device according to claim 1 to 8, characterized in that the the translucent rod constituting pieces (17, 18, 20) on the major part their length have the largest possible diameter. 10. Lighting device according to claim 1 to 9, characterized in that in the free space between, the light transmission rod (1) and the dense. Shell (2) an intermediate layer (25) is provided, which prevents optical contact between the rod and the sheath and has the lowest possible refractive index. 11. Lighting device according to Claim 10, characterized in that the intermediate layer (25) between the rod (1) and envelope (2) is made of paper. 12. Lighting device according to claim 10, characterized in that the intermediate layer inserted between the rod (1) and the sheath (2) (25) has a non-smooth surface.