CH657234A5 - BRACKET FOR A ROD-SHAPED, STIMULATABLE MEDIUM OF A LASER TRANSMITTER. - Google Patents

Description

The invention relates to a holder for a rod-shaped stimulable medium of a laser transmitter, which is arranged together with a pump light source in a concave mirror delimited on the end face by reflectors.

Laser transmitters are often exposed to extreme environmental conditions, such as Temperature fluctuations and shock or shock loads. This also influences the mounting of the stimulable medium, which is often rod-shaped. Since the laser rod is inside an optical resonator,

it must be kept with great accuracy. Therefore, no tension may act on the rod via the bracket. If the rod holder is too tight, the rod can also warp due to the different thermal expansion of the rod and the housing and thus become inoperable. If the rod holder is too light, there is a risk that the exact position of the rod changes. In addition, the holder should enable easy cleaning of the rod ends in the installed state and have a short clamping length in order to achieve the lowest possible optical losses due to minimal shading of the active laser rod.

The invention has for its object to provide a holder for a rod-shaped stimulable medium of a laser transmitter, which solves the problems shown in the simplest possible way.

With a holder of the type mentioned, this object is achieved according to the invention in that the reflectors of the concave mirror are formed perpendicular to their plane for receiving the ends of the laser rod, each with a bore, the wall of which is provided with a recess which is in line with the bore wall forms two support points for the laser rod and that in order to hold the ends of the laser rod in the bores, a clamping spring extending transversely to the laser rod is provided, which is supported on the side of the laser rod opposite the support points of the bore in the region of two ends at two support points of the reflector and rests on the laser rod in such a way that it presses it against the two support points of the bore.

In the case of a holder according to the invention, the end reflectors of the concave mirror containing the laser rod are simultaneously used to hold the laser rod. A prism-like support is formed by the receiving bore provided in the reflectors and the recess in the bore wall, which causes an exact centering guidance of the laser rod. In a holder according to the invention, a clamping spring is provided as a holding element at each end of the laser rod, which presses the laser rod against the prism-like support. In this way, an advantageous three-point mounting of the laser rod can be realized, provided that the clamping spring rests on the laser rod at a point. In any case, the clamping spring itself is expediently dimensioned in such a way that all forces occurring in the horizontal and vertical directions due to shock or shock loads, which could result in the laser rod being displaced, are absorbed.

The holder according to the invention has the particular advantage that, due to the mounting of the laser rod in the reflectors of the concave mirror and due to the use of a retaining element designed as a clamping spring, an accurate mounting of the laser rod can be achieved in a simple manner, with various influences, such as e.g. Temperature fluctuations and mechanical stresses, the position of the laser rod can be exactly maintained. In addition, cleaning of the laser rod ends in the installed state is facilitated by the holder according to the invention. Finally, only a small clamping length is required in the holder according to the invention, so that there is only minimal shading of the active laser rod and the optical losses due to shading can be kept low.

In an advantageous embodiment of a holder according to the invention, the clamping spring consists of a bar spring. This results in a particularly simple holding element, which lies approximately in the middle of the bar spring on the laser rod and thus inevitably brings about a three-point support of the laser rod.

In another advantageous embodiment of a holder according to the invention, the clamping spring consists of a one enclosing the rod with one or more turns

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657 234

Wrap spring. Such a clamping spring has a spring leg on each side of the windings, with which the clamping spring is supported at the support points. Compared to a bar spring, the wrap spring has the advantage of easier assembly and better length compensation for the temperature response of the laser bar, since it can pivot around its two spring legs in the longitudinal direction of the laser bar like a balance beam. In addition, the risk of damaging the laser rod during assembly is lower with a wrap spring. The holding force of the wrap spring is advantageously increased in that the windings of the wrap spring are polygonal.

In a further advantageous embodiment of a holder according to the invention, the clamping spring consists of a two-leg, 1-, U- or V-shaped bow spring, one leg of which is supported on the support points and the other leg of which rests on the laser rod. The bow spring has a very small increase in force, so that tolerances have no influence on the holding force.

Further advantageous refinements of the subject matter of patent claim 1 are specified in the features of the dependent claims.

Various exemplary embodiments of the invention are described in more detail below with reference to the drawing. The show

1 is a sectional view of the basic structure of an exemplary laser transmitter in principle,

2 and 3 in a front and a side view in section, a first embodiment of a holder according to the invention for one end of a laser rod,

4 and 5 also in front and side view in section, the corresponding holder of the other end of a laser rod,

6 and 7 again in front and side view in section a second embodiment of a holder according to the invention,

8 and 9 also in front and side view in section a further embodiment of a holder according to the invention.

1 has a pump system with a laser rod 1, a flash lamp 2 as a pump light source and a concave mirror 3, which is arranged in a housing 7, which is only indicated. The concave mirror 3 consists of a reflector sleeve 4 mirrored on the inner surface, which is delimited on both end faces by two plate-shaped reflectors 5 and 6 likewise mirrored on the inside. Because of the high accuracy required, the reflectors are firmly connected to the housing 7, e.g. pinned and expediently serve at the same time to hold the laser rod 1 and the flash lamp 2. For this purpose, in the reflector plate 5 separately shown in FIGS. 2 and 3, as well as in the other reflector plate 6, a bore 8 for receiving the ends of the laser rod is perpendicular to the reflector plane 1 and a further bore 9 directed perpendicular to the reflector plane are provided for the flash lamp. The bore 8 has a diameter approximately corresponding to the laser rod and is provided in its wall with an additional recess 10, which forms two corners 11 with the bore wall as support points for the laser rod. The laser rod rests on these support points 11 as in a prism, so that it is precisely centered and guided. To hold the ends of the laser rod 1 in the bore 8, a clamping spring 12 extending transversely to the axis of the laser rod is now provided, which here consists of a rod spring made of wire. The rod spring 12 is supported in the region of its two ends on the side of the laser rod 1 opposite the support points 11 of the bore 8 at two support points 13 which are arranged symmetrically with respect to a plane through the center of the bores 8 and 9 and from two to inside corner points of a recess 14 provided in the reflector plane 5 are formed. The support points 13 of the recess 14 are arranged such that the bar spring 12 resting approximately in the middle of its length on the laser bar 1 is bent such that it is pressed against the laser bar with a prestress. The rod spring 12 rests at a point 15 on the laser rod 1 and presses it at the point 15 against the two support points io 11 of the bore 8, so that the laser rod is prism-like at three points. The second end of the laser rod is held in the same way. This can be seen in the second reflector plate 6 shown in FIGS. 4 and 5. The design of the reflector plate 6 and the mounting of the second En-15 of the laser rod largely correspond to FIGS. 2 and 3. The reflector plate 6 only has a lamp holder 16 for the flash lamp compared to the reflector plate 5, the lamp holder already being in the reflector plate 6 aligned with the hole 9 is integrated. This saves 20 individual parts.

In the second embodiment of a holder of a laser rod according to the invention in a laser transmitter according to FIG. 1, according to FIGS. 6 and 7, the reflector plate 20 is in principle again configured like the reflector plate 5 in FIGS. 2 and 3. 25 The reflector plate 20 thus has a bore 21 for the end of the laser rod 1 with a recess 22 and the two support points 23 and a bore 24 for the flash lamp and a recess 25 corresponding to the recess 14 in FIGS. 2 and 3 with two support points 26, which again on the the 30 support points 23 opposite side of the laser rod 1 are arranged. The storage of the laser rod 1 is in principle the same as in the first embodiment. In contrast to the first embodiment, however, the clamping spring, which also extends transversely to the laser rod, consists of 35 a wrap spring 27 which wraps the laser rod once or several times in the middle of its length with one or more turns. The wrap spring 27 is supported with its two spring legs 28, 29 also at the support points 26 of the recess 25 and presses the laser rod with sufficient force against the support points 23 and thus into the prismatic guide. The other end of the laser rod can be made in the same way or e.g. can also be held in the manner of the holder according to FIGS. 2 and 3.

In the third embodiment according to FIGS. 8 and 9, the reflector plate 30 and the holder of the laser rod 1 are designed similarly to the embodiments described above. In addition to the bore 31 for the flash lamp, the reflector plate 30 again has a bore 32 for receiving the ends of the laser rod 1. The bore 32 also has a recess 33 with the support points 34. In addition, the reflector plate 30 is provided with a recess 35 in the manner already described. However, as support points for the clamping spring 36 extending transversely to the laser rod here, on the side 55 of the laser rod 1 opposite the support points 34, two stops 37 arranged symmetrically on the reflector plate 30 with respect to a plane through the center of the bores 31 and 32 provided, which are formed by two screws screwed into the reflector plate. In addition, the clamping spring in this embodiment 60 consists of a two-legged 1-, u- or v-shaped bow spring 36, the longer leg 38 of which is supported on the screw shafts and secured to the screw heads and the shorter leg 39 of which rests punctually on the laser rod under pretension. As a result, the laser rod is pressed again against the 65 support points 34 of the prismatic guide. The clamping spring 36, like the clamping spring 27, can consist of a wire spring.

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3 sheets of drawings

Claims (11)

657 234 1. Holder for a rod-shaped stimulable medium of a laser transmitter, which is arranged together with a pump light source in a concave mirror delimited by reflectors, characterized in that the reflectors (5, 6) of the concave mirror (3) perpendicular to their plane for receiving the ends of the laser rod (1) are each formed with a bore (8), the wall of which is provided with a recess (10) which forms two support points (11) for the laser rod (1) with the bore wall and for holding the ends of the laser rod (1) in each of the bores (8) there is a clamping spring (12) extending transversely to the laser rod (1), on the side of the laser rod (1) opposite the support points (11) of the bore (8) in the region of two ends is supported on two support points (13) of the reflector (5, 6) and rests on the laser rod (1) in such a way that it presses it against the two support points (11) of the bore (8). 2. Holder according to claim 1, characterized in that the support points (13) of the reflectors (5, 6) are arranged such that the clamping spring (12) is pressed against the laser rod (1) with prestress. 2nd PATENT CLAIMS 3. Holder according to claim 1 or 2, characterized in that the support points (13) are arranged symmetrically with respect to a through the center of the bores (8, 9) for receiving the ends of the laser rod (1) plane. 4. Holder according to one of claims 1 to 3, characterized in that the support points consist of two stops (37) arranged on the reflector (30). 5. Holder according to one of claims 1 to 3, characterized in that the support points are formed by two inwardly projecting corner points (13) of a recess (14) provided in the reflector (5, 6). 6. Holder according to one of the preceding claims, characterized in that the diameter of the bore (8) for receiving the rod end (1) is approximately equal to the rod diameter. 7. Holder according to one of the preceding claims, characterized in that the clamping spring (12) consists of a bar spring. 8. Holder according to one of claims 1 to 6, characterized in that the clamping spring consists of a wrap spring (27) enclosing the rod (1) with one or more turns. 9. Holder according to claim 8, characterized in that the windings of the wrap spring (27) are polygonal. 10. Holder according to one of claims 1 to 6, characterized in that the clamping spring consists of a two-leg, 1-, U- or V-shaped bracket spring (36), one leg (38) at the support points (37 ) is supported and the other leg (39) rests on the laser rod (1). 11. Holder according to one of the preceding claims, characterized in that the clamping spring (12, 27, 36) consists of a wire spring.