奥地利专利AT516018A4 Light source with a gas-tight hollow body

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专利摘要:
A light source (1) which has a hollow body (2) sealed in a gas-tight manner, which is coated on at least one inside with a phosphor and filled with gaseous tritium and emits colored light, wherein the hollow body (2) is housed in a housing (3) of the light source (1) is arranged, wherein the light source (1) at least one annularly about a longitudinal central axis of the light source (1) encircling body (4) made of a colored material whose color is different in daylight from black, wherein the annular encircling body (4 ) is arranged at least on a front end region of the housing (3) or at least between the end-side end region of the housing (3) and a light-emitting end face of the hollow body (2).
公开号:AT516018A4
申请号:T50087/2015
申请日:2015-02-04
公开日:2016-02-15
发明作者:Hannes Dr Kind；Pascal Knöpfel
申请人:Mb Microtec Ag；
IPC主号:

专利说明:

The invention relates to a light source which has a hollow body sealed in a gastight manner, which is coated on at least one inside with a phosphor and filled with gaseous tritium and emits light, the hollow body being arranged in a housing of the light source.
Furthermore, the invention relates to a sighting device with a holder for a light source. Light sources of the type mentioned in the beginning are frequently used in visors, where they are used, for example, for the realization of a sight and / or a grain.
A good recognition of the sight and grain, both of which are usually made of blackened metal, is usually ensured during the day by a bright colored ring (white, green, orange,...). At night, the recognizability of the sight and grain is ensured by the luminous end faces of the light source. In twilight lighting conditions, a seamless transition of the two modes of operation described above between the color rings to the luminous points takes place.
For the realization of the ring, the light color is usually applied manually to a support of the light source, which, however, can lead to a considerable expenditure of time in the production of a visor.
From US 8,677,674 B2 a target device has become known, which has a nose and a grain. Two self-luminous light sources are inserted into the rear sight, an area around the light-emitting light sources in a darker color, in particular black, being formed in order to dampen emitted light and not deflect the view of the grain also containing a light source. The grain in this case has a bore, in which the light source is inserted. The viewed in the direction of the shooter front part of the bore is konkav formed and provided with a light color. Thereby, a reflection of the light emitted from the light source of the grain is generated, whereby the visibility of the grain is to be improved.
From US 2010 / 088944A1 a target device has become known in which a photoluminescent ink is applied in an annular recess of a holder mounted on a weapon for a light source of the type mentioned in the introduction. This is intended to ensure that either the light source itself (in poor ambient light conditions) or the photoluminescent ink (in bright ambient light) is visible.
It is an object of the invention to overcome the above-mentioned drawbacks of the state of the art and to enable a well-visible in daylight and dusk representation of a circular ring and good visibility of zentra¬ler, luminous point appearing end face of the hollow body at night and twilight.
This object is achieved according to the invention with a light source of the type mentioned in the introduction, in that the light source has at least one body which revolves annularly about a longitudinal central axis of the light source and whose color is different from black in daylight, the annularly revolving body at least on one end face End region of the housing or at least disposed between the end-side end portion of the housing and at least one light-emitting end side of the hollow body, so that in a plan view of the annular rotating body and the hollow body along the longitudinal center plane of the light source, the front side of the Hohlkör¬pers appears as a bright, central point which is umge¬ from a colored ring, wherein the colored ring is formed by one of the end face of the hollow body abge¬ facing end face of the annular encircling body.
The solution according to the invention makes it possible to dispense with the elaboration of the Farbrin-ges in the light source on a complex, subsequent orders of a Far-bringes in the production of the sighting device.
Preferably, the annular encircling body is made of a white, red, yellow, green, blue, orange or violet colored material. In addition, the material of the annular, circulating body can have fluorescent and / or phosphorescent molecules. For example, the material of the annular, circulating body may consist of polymethyl acrylate, in which molecules are embedded, which fluoresce for example under the action of ambient light or are excited to phosphorescence.
The intensity of the emitted light can be increased by the fact that the housing has on its inside a highly reflective coating, in particular a mirror coating, and / or the hollow body has on its outside a highly reflective coating facing the inside of the hollow body, in particular mirroring ,
In order to protect the hollow body, the light source can have at least one protective cover made of a transparent material, by which the at least one light-emitting end side of the hollow body is covered.
According to a preferred embodiment of the invention, it may be provided that the annular encircling body covers an edge region of the lichtemittie¬renden end face of the hollow body, wherein a central region of the licht¬emittierenden end side is visible through a clear cross section of the annular umlaufen¬ body. This embodiment of the invention is characterized by a compact construction, wherein the annular encircling body can serve simultaneously for fixing the hollow body and / or for protecting the hollow body. At the same time, the annular encircling body can also be illuminated by the hollow body, so that the visibility of the colored circle generated by the ring-shaped body improves.
According to a variant of the invention, which is characterized by a particularly simple design and a cost-effective production, it may be provided that the annular encircling body is printed on the protective cover or on the light-emitting front side of the hollow body or on the housing ,
A particularly reliable and secure attachment of the hollow body in the housing of the light source can be achieved in that the annular umlaufenden body is part of a holding cage, in which the hollow body is arranged, wherein the holding cage is connected to an inner side of the housing.
According to an advantageous embodiment of the invention, it may be provided that the annular encircling body is part of a holder through which the protective cover is held in the housing.
Furthermore, an edge region of a surface facing away from the hollow body surface of the protective cover may rest against the annular encircling body and be covered by this.
According to a further variant of the invention, it may be provided that the annular encircling body is connected to or formed integrally with a tubular portion extending perpendicularly therefrom, the protective cover having cylinder jacket-shaped side surfaces which are connected to the tubular portion projecting perpendicularly from the annular body ¬bunden are.
A good fixation of the protective cover in the housing can be realized in a simple manner in that the annular encircling body is arranged on one Au¬ßenseite of the housing and connected by a press fit with the Ge¬ housing, wherein the protective cover by means of the annular Kör¬pers in is clamped in the housing.
Reliable securing of the protective cover against inadvertent slipping can be achieved by arranging in the housing at least one holding element, which has a free, projecting into the interior of the housing
End and having an end connected to the housing, wherein the free end of the at least one retaining element of the hollow body facing Oberflä¬che the protective cover faces or abuts against this.
It has proven to be particularly advantageous with regard to simple mounting and positioning of the protective cover in the housing if the at least one retaining element is designed as a spring-elastic tongue. By virtue of the force exerted by the spring-elastic tongue, the protective cover can be pressed against the annularly encircling body and held in the housing.
A reliable mounting of the protective cover in the housing can also be achieved in that the protective cover on its lateral edges holding sections in the form of recesses or extensions and the housing on its inner side also holding portions in the form of recesses or extensions, wherein the holding portions of the protective cover and the Hal¬teabschnitte of the housing interlock.
An embodiment, which is characterized by a simple structure, may, for example, consist in that the housing has at least one circumferential recess, which receives a lateral lateral surface of the protective covering.
In order to provide a security of the protective cover against falling out of the Ge¬ housing, the housing may have in a region of the end-side Endbe¬reichs at least one projecting in the direction of the longitudinal center line Randbe¬reich.
Advantageously, the hollow body can be glued, welded, clamped or cast in the housing.
For fixing the hollow body may be arranged in the housing at least one holding element, which has a free, projecting into the interior of the housing end and an end connected to the housing, wherein the free end of the at least one holding element abuts a surface of the hollow body.
A good securing of the hollow body, while at the same time compensating for tolerances of the housing or the hollow body, can be achieved in that between a rear side of the hollow body facing away from the annular encircling body and a rear wall of the housing one in the direction of the longitudinal center axis of the light source acting spring is arranged.
According to a variant of the invention, it can also be provided that a suction cup is arranged between a rear side of the hollow body facing away from the annular encircling body and a rear wall of the housing. The suction cup also ensures good fixing of the hollow body to the housing.
An assembly of the light source in a holder can be simplified in that on the outside of the housing at least one holding element is arranged, which has a free, projecting from the housing end and an end connected to the Ge.häuse.
Manufacture and assembly of the light source is easier if the housing is formed by two interconnected half-shells.
The above object is also achieved with a sighting device of the type mentioned in the present invention, that the holder has a housing, wherein the housing of the light source and the housing of the holding force and / or positively connected to each other.
A good fixation of the light source in the holder can be achieved in a simple way that are arranged between the housing of the light source and the housing of the holder O-rings. The O-rings are preferably made of an elastomeric material, for example of a rubber-elastic material gefer¬tigt.
A very good fastening of the light source can also be realized in that the housing of the holder has a bore with an internal thread, wherein the housing of the light source has an external thread corresponding to the internal thread of the bore and the housing of the holder and the housing of the light source with each other are bolted.
A particularly reliable connection between the light source and the Halte¬rung can be ensured that the housing of the light source and the housing of the holder are riveted to each other, disposed on one of the lichtemittie¬renden end face of the hollow body rear wall of the housing of the light source, a shaft of a rivet is, which passes through an opening of the Ge¬ housing of the holder, wherein on a side facing away from the housing of the light source outside of the housing of the holder, a head of the rivet is arranged and is supported against the outside of the housing of the holder.
A simple connection and disconnection of the light source and the holder can be achieved by connecting the housing of the light source and the housing of the holder via a bayonet closure. This variant of the invention also enables a very simple replacement of the light source of the visor. Thus, for example, the light source can be quickly exchanged for a light source of a different color, if required by the ambient light conditions.
According to one embodiment of the invention, which is characterized by a simple Mon¬tage and also very reliable connection between the light source and the holder, it can be provided that the housing of the light source on an outer side and the housing of the holder on an inner side ever at least one groove, wherein the housing of the light source and the housing of the holder are connected to each other by at least one partially engaging in the groove of the housing of the light source and partially in the groove of the housing of Halte¬rung pin.
In addition, it may be provided that the housing of the light source on its outer holding portions in the form of recesses or projections and the housing of the holder on its inside also holding portions in the form of recesses or extensions, wherein the holding portions of
Housing the light source and the holding portions of the housing of the holder engage.
According to a further advantageous embodiment, it may be provided that the housing of the light source is arranged in a bore of the housing of the holder and is held in the housing of the holder by means of a conically tapering in a light exit direction.
A variant of the invention, which is characterized by a simple structure, provides that the housing of the light source is conical and is pressed into a cylindrical bore of the housing of the holder.
A particularly favorable development of the invention is that the housing of the light source is held in the housing of the holder by means of at least one ring pressed between the housing of the light source and the housing of the holder.
In the case of the light sources according to the cited prior art, it is also disadvantageous that they are glued to a holder and therefore can not be easily replaced in a built-in state. It is therefore a further object of the invention to enable a simple replacement of the light source.
This object is achieved with a light source of the type mentioned above in that the housing has at least one interface with, in particular destructive, releasable, non-positive and / or positive connection with a holder for the light source.
A great advantage of the invention is thus in the simplified assembly in Kornresp. Rear sight. So far, the light source usually had to be glued in manually. In the vast majority of cases, this takes place by means of a complex adhesive process, which is popular in the industry. Here, the invention has the great advantage that the assembly is adhesive-free and thus much easier to automate and ein¬ simpler gestaltbar.
A variant of the invention, which is also particularly suitable for emergency lighting, provides that the housing has on at least a portion of a lateral surface a recess through which light emitted by the hollow body emerges.
In order to enable a simple replacement of the hollow body, the hollow body and the housing may each have at least one interface for non-destructively releasable, non-positive and / or positive connection of the hollow body to the housing.
According to an advantageous variant of the invention, which is characterized by a simple handling and allows rapid mounting and removal of the hollow body, it can be provided that the at least one interface of the hollow body and the at least one interface of the housing form a magnetic closure.
It is particularly advantageous if the housing of the light source is formed from two half-shells made of plastic, which are welded together and / or adhesively bonded and / or connected to one another by snap-fastening.
A simple mounting in the holder of the sighting device can be ensured by the fact that the housing has on an outer side at least one half-shell ribs, which are preferably formed integrally with the half-shell. The ribs can taper in the direction of an end face of the half-shell.
For fixing the hollow body in the housing, it can be provided that each half-shell has inwardly projecting extensions for fixing the hollow body.
Centering of the half-shells during assembly is facilitated by at least a first of the half shells having at least one extension and at least a second of the half shells having at least one recess corresponding to the at least one projection.
It is very advantageous with respect to welding by means of ultrasound if at least one of the half-shells has at least one rib protruding from the connecting surface at a connecting surface to the other half-shell.
Furthermore, the holder can have at least one interface with the housing of the light source, in particular a non-destructive, releasable, non-positive and / or positive connection with the housing.
A simple replacement of the light source can be achieved with an arrangement comprising a light source according to one of claims 32 to 35 and a holder according to claim 36, wherein the holder and the housing of the light source each have at least one interface, wherein the at least one interface of the housing and the at least one interface of the holder in a connected state of the light source with the holder engage with each other and the light source and the holder form-locking and / or frictionally connect with each other, wherein the at least one interface of the housing and engaging therewith at least one interface of the holder von¬ be solvable from each other.
A very reliable connection of the light source to the holder can be ensured by the fact that the at least one interface of the housing and the at least one interface of the holder form a bayonet closure.
According to an advantageous embodiment of the invention, which is characterized by a very simple assembly, the at least one interface of the housing and the at least one interface of the holder can form a snap closure.
According to an advantageous development of the invention, the at least one interface of the housing and the at least one interface of the holder can form a screw cap.
According to a further favorable variant, it can be provided that the at least one interface of the housing and the at least one interface of the holder form a clamp closure.
In addition, the at least one interface of the housing and the at least one interface of the holder can form a magnetic closure.
For a better understanding of the invention, this is based on the following
Figures explained in more detail.
In each case, in a highly simplified, schematic representation:
1 shows a section through a first variant of a light source according to the invention:
2 shows a section through a second variant of a light source according to the invention:
3 shows a section through a third variant of a light source according to the invention:
4 shows a section through a fourth variant of a light source according to the invention;
5 shows a section through a fifth variant of a light source according to the invention;
6 shows a section through a sixth variant of a light source according to the invention;
7 shows a section through a seventh variant of a light source according to the invention;
8 shows a section through an eighth variant of a light source according to the invention;
9 shows a section through two partial views of a ninth variant of a light source according to the invention;
10 shows a section through two partial views of a tenth variant of a light source according to the invention;
11 shows a section through an eleventh variant of a light source according to the invention;
12 shows a section through a twelfth variant of a light source according to the invention;
FIG. 13 shows a section through a thirteenth variant of a light source according to the invention; FIG.
14 shows a section through a fourteenth variant of a light source according to the invention;
FIG. 15 shows a section through a fifteenth variant of a light source according to the invention; FIG.
16 shows a section through a sixteenth variant of a light source according to the invention;
17 shows a section through a seventeenth variant of a light source according to the invention;
18 shows a section through an eighteenth variant of a light source according to the invention;
FIG. 19 shows a section through a nineteenth variant of a light source according to the invention; FIG.
FIG. 20 shows a section through a twentieth variant of a light source according to the invention; FIG.
21 shows a section through a twenty-first variant of a light source according to the invention;
22 shows a section through a twenty-second variant of a light source according to the invention;
FIG. 23 shows a section through a twenty-third variant of a light source according to the invention; FIG.
24 shows two representations of a twenty-fourth variant of a light source according to the invention, the right-hand representation showing a section along a longitudinal axis of the light source and the left-hand representation a view from direction A in the right-hand illustration;
25 shows a section through a twenty-fifth variant of a light source according to the invention;
26 shows a section through a twenty-sixth variant of a light source according to the invention;
27 shows a section through a twenty-seventh variant of a light source according to the invention;
28 shows a section through a twenty-eighth variant of a light source according to the invention;
29 shows a section through a twenty-ninth variant of a light source according to the invention;
30 shows a section through two partial views of a thirtieth variant of a light source according to the invention;
31 shows a section through a thirty-first variant of a light source according to the invention;
32 shows a section through a thirty-second variant of a light source according to the invention;
33 shows a section through a thirty-third variant of a light source according to the invention;
34 shows a section through a first variant of a holder of an inventive arrangement comprising a holder and a light source according to the invention;
35 shows a section through a second variant of a holder of an inventive arrangement comprising a holder and a light source according to the invention;
36 shows a section through a third variant of a holder of an arrangement according to the invention, comprising a holder and a light source according to the invention;
37 shows a section through a fourth variant of a holder of an inventive arrangement comprising a holder and a light source according to the invention;
38 shows a fifth variant of a holder of an arrangement according to the invention comprising a holder and a light source according to the invention;
39 shows a section through a sixth variant of a holder of an inventive arrangement comprising a holder and a light source according to the invention;
40 shows a section through a seventh variant of a holder of an inventive arrangement comprising a holder and a light source according to the invention;
41 shows a section through an eighth variant of a holder of an arrangement according to the invention, comprising a holder and a light source according to the invention;
42 shows a section through a ninth variant of a holder of an inventive arrangement comprising a holder and a light source according to the invention;
FIG. 43 shows a section through a tenth variant of a holder of an arrangement according to the invention comprising a holder and a light source according to the invention; FIG.
44 shows a section through an eleventh variant of a holder of an inventive arrangement comprising a holder and a light source according to the invention;
45 shows a section through a twelfth variant of a holder of an arrangement according to the invention, comprising a holder and a light source according to the invention;
FIG. 46 shows a plan view of a half shell of a housing of a light source according to the invention; FIG.
Fig. 47 is a perspective view of the half-shell of Fig. 46;
FIG. 48 is a bottom view of the half-shell of FIG. 46; FIG.
FIG. 49 is a front view of the half shell of FIG. 46; FIG.
Fig. 50 is a detail view of the area A of Fig. 48;
FIG. 51 shows a section along the line B-B in FIG. 48. FIG.
By way of introduction, it should be noted that identical or mutually corresponding parts are provided with the same reference symbols or identical component designations in the differently described embodiments, the disclosures contained in the cited description analogously being applied to identical parts with the same reference numerals or identical component designations be able to. Also, the positional information selected in the description, such as above, below, side, etc., are related to the directly described and illustrated figure, and these positional information should be transferred to the new layer in the event of a change in position.
According to FIG. 1, a light source 1 has a hollow body 2 sealed in gas-tight manner, for example a glass or plastic tube, etc., which is coated on at least one inner side with a phosphor and filled with gaseous Triti¬um and emits light. The hollow body 2, which may also be referred to as a luminous means, may for example emit light in the visible range or also in the UV or infrared range. The hollow body 2 is arranged in a housing 3 of the light source 1. The outer contour of the housing 3 is preferably formed substantially cylindrical jacket-shaped. The light source 1 may comprise a body 4 made of a colored material that surrounds a ring around a longitudinal central axis of the light source 1. This is particularly advantageous when the light source is used in a sighting device. The color of the body 4 differs from black in daylight, so that the body 4 stands out from a usually dark-colored, in particular black, rear sight or a dark-colored, in particular black, grain and a good visibility of the ring in daylight is ensured. For example, the body 4 may have red, green, yellow, blue, orange, purple, or white, etc. colors.
In addition, the material of the annular rotating body 4 fluores¬zierende and / or phosphorescent molecules have. For example, the material of the annularly circulating body can consist of polymethyl acrylate, in which molecules are embedded which, for example, fluoresce under the influence of ambient light or are excited to phosphorescence. As Phosphoreszierende materials sulfides of alkaline earth metals (beispiels¬weise zinc sulfide) can be used, which are mixed with small amounts of Schwerme¬tallsalzen.
In a plan view of the annular encircling body 4 and the hollow body 2 along the longitudinal center plane of the light source 1, the front side of the hollow body 2 appears as a central point, which is surrounded by a colored circle. The colored circle is from an end face of the hollow body 2 facing away from the end face of the annular Body generated. By day, the colored circle formed by the body 4 is clearly visible, while at night the face of the
Hollow body 2 as bright bright point is clearly visible. At dusk, a seamless transition in visibility between the colored circle and the luminescent spot occurs.
It should be noted at this point, however, that the arrangement of the ring-shaped circulating body 4 is not absolutely necessary if the light source 1 is intended for a different purpose, for example as emergency lighting. Furthermore, it should be noted that all embodiments in this document with respect to a compound of the housing 3 and the hollow body 2 with each other and with a holder 19, as described below and shown in Figures 34 - 45, both for a light source 1 with and without the colored , ring-shaped body 4 apply.
The housing 3 is preferably made of a plastic, for example a thermoplastic material, a metal, a ceramic or mineral-like material, for example glass. The body 4 preferably also consists of plastic, for example a thermoplastic, a metal, a ceramic or mineral material, for example glass, an ink or a lacquer, etc. It should be noted that the housing 3 and the body 4 are also made of a material mix consist of the above materials.
The housing 3 may have on its inside a highly reflective coating, in particular a mirror coating, in order to increase the intensity of the light emitted in the direction of a viewer. In particular, an end face of the housing 3 facing away from the observer can have a reflection on an inner side. Alternatively or additionally, however, the hollow body 2 may also have on its outer side a highly reflective coating, in particular a mirror coating, facing the interior of the hollow body 2. The coating can be realized, for example, by vapor deposition, spraying, dipping, brushing, electroplating a metal layer or by adhering a highly polished metal foil or plate (for example made of silver, gold or aluminum or any other suitable metal). However, the coating does not have to be made of a metallic material, white acrylic paint, for example, has proven particularly suitable for the production of the coating. The reflectivity of the highly reflective coating is more preferably between 0.7 and 1.
The annular encircling body 4 is disposed on a front end portion of the housing 3 or between the front end portion of the housing 3 and a light emitting end face of the hollow body 2. In the embodiment of the invention illustrated here, the body 4 is printed on an end face of the housing 3. The body 4 can be made by applying a circle of a colored ink or a colored paint.
Alternatively, however, the annular encircling body 4 may also be printed on the light-emitting end face of the hollow body 2. The body 4 may, for example, be printed by means of an inkjet printing process. Alternatively, however, other printing methods can also be used. It is also possible to apply the body 4 in the form of a circle by hand.
The hollow body 2 and the housing 3 may each have at least one interface for the non-destructively releasable, non-positive and / or positive connection of the hollow body 2 to the housing 3. The interface of the hollow body 2 and the interface of the housing 3 can form, for example, a magnetic closure. Thus, for example, a metal strip or a magnetizable coating can be attached to the outside of the hollow body 2, while a magnet or vice versa can be attached to the housing 3.
According to a variant of the invention, which is also particularly suitable for emergency lighting, provides that the housing 3 has at at least a portion of a jacket surface a recess through which emerges emit¬tiertes light from the hollow body.
According to FIG. 2, the light source 1 can have a protective cover 5 made of a transparent material, by means of which the light-emitting end face of the hollow body 2 is covered. The protective cover 5 may be partially or entirely disposed in the housing 3.
It should be noted at this point in general that many of the light sources 1 described in the following also have two protective covers 5 and can be designed symmetrically, in which case each front end of the light source 1 emits light and can be identical or similar. Thus, in particular, the embodiments illustrated in FIGS. 1 - 22 and 24 - 28 and 30 - 33 can be symmetrical and each have two light-emitting end sides, each with a protective cover 5 (in FIGS. 21 and 22 and in FIGS - 28 and 30 not shown) are provided. This two-sidedness of the light source 1 allows a double grain resp. To make a Doppelkim¬me, which can be rotated by a simple rotation mechanism by 180 °. For example, the two orientations allow slightly different levels of height alignment.
The annular encircling body 4 can cover an edge region of the light-emitting end side of the hollow body 2. A central region of the lichtemittie¬renden end face of the hollow body 2 is visible through a clear cross-section of the ring-shaped circumferential body 4. In the illustrated embodiment, the body 4 has a retaining lug, which surrounds the protective cover 5 on a side facing away from the hollow body 2 and bears against it. More specifically, an edge region of the surface of the protective cover 5 facing away from the hollow body 2 can abut against and be covered by the annularly revolving body 4 (with and without play). The retaining lug is in the variant shown in a stepped section over. The housing 3 and the stepped portion may be formed in alignment with each other so that a flat and stepless outer surface of the light source 1 results.
As shown in FIG. 3, the body 4 can also be provided by an application of paint, for example by applying luminescent or phosphorescent ink or by applying a conventional ink, as used in an ink jet printing or by applying a lacquer, etc., be formed on the protective cover 5. The body 4 may be printed on the protective cover 5, for example by means of an ink jet printer or another printer. Alternatively, the paint can also be done manually. According to the illustrated embodiment, the housing 3 may have a front and a back part relative to the light exit side of the light source. The protective cover 5 can be arranged in one of the parts, while the hollow body 2 can be arranged in the other part. The parts of the housing 3 may be congruent with each other at the end portions facing each other and bonded and / or welded together.
Instead of the protective cover 5, however, in the embodiment shown in FIG. 3, a ring made of a colored material may also be arranged between the hollow body 2 and a light exit side of the light source 1. Hier¬bei the ring may be formed of plastic. It has proven to be particularly advantageous if the ring is made of an elastomeric material, in particular a rubber-elastic material, for example rubber. In die¬ser embodiment, the ring may be glued in the housing 3. In addition, the protective cover 5 can be arranged, wherein the ring is preferably arranged between the protective cover 5 and the hollow body 2.
As shown in Fig. 4, the annular encircling body 4 may be part of a Hal¬tekäfigs 6, in which the hollow body 2 is arranged. The body 4 is formed in this embodiment by a an edge region of the end face of the Hohlkör¬pers 2 covering retaining lug of the holding cage 6. The holding cage 6 may be connected to an inner side of the housing 3, for example by gluing and / or by a frictional connection.
As in the case of the embodiment shown in FIG. 4, in the variant shown in FIG. 5, the annular encircling body 4 is part of a holder, which is denoted by the reference numeral 7 in FIG. 5, through which the protective cover 5 is held in the housing 3 is. The annular encircling body 4 may in this case be connected or integrally formed with a section 8 protruding perpendicularly from it. The protective cover 5 may have cylinder-shaped side surfaces which may be connected to the section 8 projecting perpendicularly from the annular body 3, for example by gluing and / or friction-locking.
According to FIG. 6, the annular body 4 can also be arranged between the protective cover 5 and the housing 3 of the light source 1. The protective cover 5 may have a curved surface in the illustrated embodiment and be formed as a lens. Even if the protective cover 5 is shown as a converging lens in the variant shown, according to another variant of the invention, it could also be designed as a diverging lens.
Fig. 7 shows an embodiment in which the annular encircling body 4 is disposed on an outer side of the housing 3 and is press-fitted there. The annular body 4 may be formed of metal or plastic, for example, with the protective cover 5 being clamped in the housing 3 by means of the annular body 4. The protective cover 5 and the case 3 are thus fixed by an interference fit of the annular revolving body 4.
As shown in Fig. 8, the body 4 can also be formed by a colored Montage¬ ring, by which the light source 1 is held in a holder. The mounting ring, for example, have an external thread which is aus¬gebildet corresponding to an internal thread of the holder for the light source 1. By screwing the mounting ring, the light source 1 can be fixed in the holder, wherein the mounting ring rests against one end face of the housing 3. In FIG. 8, a holder 20 for the housing 3 is further schematically indicated.
According to FIG. 9, one or more holding elements 10 can be arranged in the housing 3, each having a free end protruding into the interior of the housing 3 and an end connected to the housing 3. The holding elements 10 may form individual independent sections, which are particularly preferably formed as resilient tongues.
The free ends of the holding elements 10 may abut against the hollow body 2 zuge¬wandten surface of the protective cover 5. The surface of the protective cover 5 facing away from the holding elements 10 can in this case be held by the annular body 4 in the housing 3, which is arranged on the front side of the housing and forms a retaining lug. The body 4 can, as darge shown, pass into the housing 3. The housing 3 thus has, in a region of the end-side end region, an edge region 11 projecting in the direction of the longitudinal center line. This embodiment makes it possible during insertion of the protective cover 5 in the direction of the body 4, wherein the protective cover 5 is held by a snap of the flexible Halteelemen¬te 10 after reaching the end position in this between the holding elements 10 and the body 4.
As shown in FIG. 10, the protective cover 5 can also have retaining sections in the form of recesses 9 on its lateral edges holding sections in the form of recesses and the housing 3 on its inner side. The holding portions of the protective cover 5 and the holding portions of the housing 3 engage each other in an assembled state. As an alternative to the illustrated embodiment, the protective cover 5 can have extensions and the housing 3 can have corresponding recesses.
According to Fig. 11, the protective cover 5 can be pushed through an opening in a Mantelflä¬che of the housing 3 in the housing 3. The housing 3 can be closed after insertion of the protective cover 5 by closing it with a part corresponding to a cross-section of the opening. Alternatively, in addition to inserting the above-mentioned part into the housing 3, the protective cover 5 may be fixed in the housing 3 by bonding.
According to FIG. 12, the housing 3 may have at least one circumferential recess which receives a lateral jacket surface of the protective cover 5. The recess in the housing 3 can be formed as an annular circumferential groove. In this embodiment, it has proven to be particularly advantageous if the housing 3 is formed by two interconnected half-shells 17, 18. This makes it possible, inter alia, in a simple manner, a positive connection of the housing 3 and the protective cover 5. The half-shells 17, 18 can be glued together and / or welded or connected by means of a snap closure.
According to the embodiment shown in Figure 13, the housing 3 may be bent at its front edge 11. However, the bent part shown in Fig. 12 may also be connected to the housing 3 by crimping. The body 4 can be formed by the bent or crimped part connected to the housing 3.
According to the embodiment illustrated in FIG. 14, the protective covering 5 can also be connected in a form-fitting manner to the housing 3, which can be formed by an injection molded part. Thus, the housing 3 can be produced by encapsulating the protective cover 5. The protective cover 5 and the housing 3 may also be made in a multi-component injection molding process, for example, a 2-component injection molding process.
According to the variant shown in FIG. 15, the protective cover 5 can be inserted from an end facing away from the light exit side of the light source 1 until it rests against the edge 11 of the housing 3. The body 4, which merges into the housing 3 and is formed in the illustrated variant by the inwardly projecting edge 11 of the housing 3, in this case represents a retaining lug for the protective cover 5.
As shown in FIG. 16, the protective cover 5 can also be frictionally held in the housing 3 by a clamping jaw 29. The annular body 4 can be arranged around the collet 29. The collet may be formed herebeials slotted sleeve or sleeve part, which is compressed by the body 4 and held.
According to FIG. 17, the protective cover 5 can also be connected to the housing 3 by gluing or welding, for example ultrasonic welding. The protective cover 5 can also be pressed into the housing 3. The pressing in can be done first cold (at a first lower temperature), wherein in a second step, the housing 3 and the protective cover 5 is heated to a second higher temperature than the first temperature. Here, the protective cover 5 advantageously has a higher coefficient of thermal expansion than the housing 3, whereby the protective cover 5 in the housing 3 can jam.
The protective cover 5 can, according to FIG. 18, also be formed by a silicone mass which is inserted (for example injected) into the housing 3.
As shown in Fig. 19, the housing 3 may be formed of an elastic material, which enables a pressing apart in an end region. In this embodiment, the housing 3 in the end region on a ring-shaped circumferential groove, in which the protective cover 5 is pressed into who ¬den can. During the insertion of the protective cover 5, a (slight) expansion of the housing 3 may occur. As soon as the protective cover 5 is engaged in the groove of the housing 3, the housing 3 can contract again, whereby the protective cover 5 is held captive in the groove.
In addition, the protective cover 5, as shown in Fig. 20, have an H-shaped cross-section and be connected by bending of end portions of the Ge¬ housing 3 with this. The housing 3 and the protective cover 5 may be connected to each other by crimping, for example.
According to Fig. 21, the Flohlkörper 2 can be held in the housing 3 non-positively, for example, glued, welded, clamped or cast. The float body 2 can also be connected to the housing 3 via an interface 32, which can be realized, for example, by means of one or more magnets, and held therein.
The holding cage 6 shown in FIG. 22, in which the floo body 2 is arranged, can be pressed into the housing 3 and / or adhesively bonded and / or welded thereto. The Flohlkörper 2 can be clamped in the Flaltekäfig 6, welded, glued or loosely arranged.
As shown in FIG. 23, a spring 14 acting in the direction of the longitudinal central axis of the light source 1 can be arranged between a rear side of the float body 2 facing away from the annular revolving body 4 and a flank wall 13 of the housing 3 In addition to the spring 14, for example, O-rings can be arranged around the hollow body 2 in order to prevent it from sliding out of the housing 3.
According to FIG. 24, however, the hollow body 2 can also be pressed into the housing 3 only and held therein by frictional engagement.
In the embodiment according to FIG. 25, one or more holding elements 12 can be arranged in the housing 3, each having a free end projecting into the interior of the housing 3 and an end connected to the housing. The free ends of the holding elements 12 can (directly) rest against a surface of the hollow body 2. By the holding elements 12, the hollow body 2 is pressed against the rear wall 13 of the housing 3 and secured against falling out. For mounting, the hollow body 2 can be introduced from the front into the housing 3, wherein the holding elements 12, which may be resilient, are moved against an inner wall of the housing 3 and spring back to a starting position after passing the hollow body 2 of the holding elements 12. grab.
FIG. 26 shows an embodiment according to which the housing 3 can also have two half-shells 17, 18 connected to one another and one or more projections projecting into the interior of the housing, which fix the hollow body 2 in the housing 3 against the rear wall 13.
FIG. 27 shows a variant in which the material is arched up on an inner side of the housing 3 after an insertion of the hollow body 2. This can be done, for example, by melting and collapsing the material on the inside of the housing 3. For pushing the material together, for example, a plunger or an element having a plate-shaped head whose cross-sectional area is slightly larger than the clear cross-section of the housing 3 before collapsing the material may be used.
As a plate-shaped element for pushing the material together on the inner side of the housing 3, according to a preferred embodiment, the protective cover 5 can also be used.
The bead 32 shown in FIG. 27 may also be present in the housing 3 prior to the insertion of the hollow body 2. The hollow body 2 can be pushed over this bead 32 and finally held in the housing 3 by a positive connection. It is particularly advantageous if the housing 3 is made of plastic.
According to the variant shown in FIG. 28, the housing 3 can be produced by extrusion-coating the hollow body 2.
Fig. 29 shows a variant in which between the hollow body 2 and the rear wall 13 of the housing 3, a suction cup 15 is arranged. By means of the suction cup 15, the hollow body 2 can be held in its position within the housing 3.
According to FIG. 30, the hollow body 2 can be fixed in the housing 3 by deforming (squeezing) the housing 3. The left figure shows the case 3 in a crimped state while the right figure shows the case in a crimped state.
In the variant shown in FIG. 31, the hollow body 2 can be held in the housing 3 by a rubber component, for example an O-ring 28. The O-ring can be glued to the housing 3 and / or welded, in order to ensure a good fixation.
According to FIG. 32, one or more crush ribs 31 can protrude from the inside of the housing 3, which pinch the hollow body 2 and hold it in the housing 3. At the front of the housing 3, the annular Kör¬per 4 can be arranged, which has a retaining lug 11 for the protective cover 5. The body 4 may be glued or welded to the end face of the housing 3, for example by means of an ultrasonic welding process.
According to FIG. 33, the rear wall 13 can first be arranged on the housing 3 for insertion of the hollow body 2. For mounting, the hollow body 2 up to the projecting into the interior of the housing 3 extensions, the one
Form stop for the hollow body 2, are inserted. The feeder 13 is then inserted and the rear wall 13 is connected to the housing 3. By the spring 13, the hollow body 2 is fixed against the inwardly projecting extensions of the housing 3 and held in position.
As shown in Fig. 34, 3 Halteelemen¬te 16 may be arranged on the outside of the housing, which each have a free, projecting from the housing 3 En¬de and connected to the housing 3 end. The holding elements 16 in this case form an interface on the housing 3 for attachment to a holder 16.
With their free ends, the holding elements 16 can be supported against corresponding surfaces of a holder 19, for example a sighting device or emergency lighting, etc. The holder 19 serves to receive the light source 1 and to fix it in a sighting device, emergency lighting, etc. The holder 19 and the light source 1 form an arrangement in the sense of the invention.
The holding elements 16 are moved against the outside of the housing 3 when the light source 1 is inserted into the housing 20 of the holder 19. After reaching the end position, the holding elements 16 spring into a starting position and prevent the light source 1 from falling out of the housing 20 of the holding device 19.
In general, however, it can be stated via the connection of the light source 1 and the holder 19 that the housing 3 of the light source 1 and the housing 20 of the holder 19 are non-positively and / or positively connected to each other, around the light source 1 in the holder 19 to fix. It should also be pointed out at this point that both the light source 1 and the holder 19 can have interfaces for a connection, especially a detachable connection, to one another. An interface of the housing 3 and an interface of the holder 19 are in a connected state in engagement with each other and connect the light source 1 and the holder 19 positively and / or non-positively with each other.
As shown in FIG. 35, the housing 3 of the light source 1 on one outer side and the housing 20 of the holder 19 on each inner side may each have at least one groove. The housing 3 of the light source 1 and the housing 20 of the Halte¬rung 19 may be interconnected by at least one partially in the groove of the housing 3 of the light source 1 and partially in the groove of the housing 20 of the holder 19 engaging pin 24.
According to the variant shown in FIG. 36, the housing 20 of the holder 19 may have a bore 21 with an internal thread. The housing 3 of the light source 1 may have an external thread corresponding to the internal thread of the bore, wherein the housing 20 and the light source 3 may be screwed together. The housing 3 of the light source 1 and the housing 20 of the holder 19 can also be connected mitei¬nander via a bayonet closure.
According to FIG. 37, the light source 1 can also be pressed or glued into the housing 20 of the holder 19. In order to ensure good ventilation of the interior of the housing 20 during assembly and to avoid the formation of an air cushion between the housing 20 and the housing 3, at least one groove 34 can be provided on an inner wall of the housing 20 or on an outer wall of the housing 3 or a vent hole, which is open to an environment of the light source 1 and the holder 19.
As shown in FIG. 38, the housing 3 of the light source 1 can also be secured against slipping in the housing 20 of the holder 19 by means of a spring 27 or a circlip arranged between the housing 3 and the housing 20. To accommodate the spring 27 or the retaining ring can be arranged on the outside of the housing 3 and on the inside of the housing 20 umlaufenden grooves. By snapping the spring 27 or the locking ring into these grooves, the two housings 3 and 20 can be secured against each other against axial slippage. Particularly preferred are the Fe¬der 27 or retaining ring made of nitinol.
In the embodiment shown in Fig. 39, the housing 3 of the light source 1 on its outer side holding portions in the form of recesses or Fortsät¬zen and the housing 20 of the holder 19 on its inside also Halte¬ sections in the form of recesses or extensions, wherein the Hal¬teabschnitte of the housing 3 of the light source 1 and the holding portions of the Ge¬ housing 20 of the holder 19 intermesh. For mounting, the housing 3 can be slid into the housing 20 through an insertion opening obliquely or transversely to a longitudinal center axis of the housing 20 and subsequently the opening can be closed, so that the housing 3 is positively connected to the housing 20. For closing the insertion opening of the housing 20, the same material is preferably used, from which the remaining part of the housing 20 is made.
According to FIG. 40, the housing 3 of the light source 1 can be arranged in a bore of the housing 20 of the holder 19 and held in the housing 20 of the holder 19 by means of a nut 25 which conically tapers in a light exit direction. The nut 25 may have on an outer lateral surface an external thread, which cooperates with a corresponding internal thread of the bore to enable screwing of the nut 25 with the bore. However, the nut 25 can also be glued to the bore and / or be welded or welded welded.
The housing 3 of the light source 1 can also be conical, as shown in FIG. 41 is shown and pressed into a cylindrical bore of the housing 20 of the holder 19. In this embodiment, it is advantageous if the housing 3 is made of an elastomeric material having a lower Shore D hardness than the material of the housing 20. Thus, the material of the housing 3 may have a Shore D hardness of 30 to 70, while the Mate¬rial of the housing 20 may have a Shore D hardness of 70 -100.
In the embodiment illustrated in FIG. 42, the housing 3 is secured by a snap ring 30 against axial release from the housing 20. A fe¬derder portion of the snap ring 30 is moved during assembly against the Oberflä¬che of the housing 3 and springs back in the end position of the housing 3 back to its original position. In a mounted state, a first edge of the snap ring rests against a surface of the housing 20, while a second edge is supported on the housing 3 and a lateral surface of the snap ring in a region adjoining the second edge between parallel to each other Surface of the housing 3 and 20 and oriented parallel to these surfaces is arranged. The snap ring 30 has a bend between the two edges, the support surfaces of the housings 3 and 20, against which the edges of the snap ring 30 abut, run essentially normal to each other.
According to the embodiment shown in FIG. 43, 19 O-rings 28 may be disposed between the housing 3 of the light source 1 and the housing 20 to form a frictional connection between the housing 3 and the housing 20.
Referring to Fig. 44, the housing 3 of the light source 1 and the housing 20 of the flange 19 may be riveted together. A shaft 22 of a rivet, which passes through an opening of the housing 20 of the holder 19, can be arranged on a rear wall of the housing 3 of the light source 1 facing away from the light-emitting front side of the body 2. On a side facing away from the housing 3 of the light source 1 outside of the housing 20, a head 23 of the rivet is arranged, which is supported against the outside of the housing 20 of the Flaltung 19. For mounting, the head 23, which has not yet been bent, and parts of the shaft 22 of the rivet can be pushed through the opening in the housing 20. Flierauf kön¬nen the two housings 20 and 3 are connected by bending the head 23 captive with each other.
As shown in FIG. 45, the housing 3 of the light source 1 can be held by housing 20 of the holder 19 by means of at least one colored ring 26 pressed between the housing 3 of the light source 1 and the housing 20 of the holder 19.
Alternatively or in addition to the above-mentioned embodiments, the interfaces of the housing 3 and the flange 19 can also be a magnetic
Make up the end. Here, for example, a metal strip or a magnetizable coating can be arranged on the housing 3 or the housing can be made of a magnetizable material (metal), while a magnet can be arranged on the holder. Of course, the positions of magnets and magnetizable material may also be reversed. Alternatively or zuhaben also opposite polarity magnets on the housing 3 and the holder 19 may be arranged.
The arrangement shown in the figures comprising the light source 1 and the holder 19 can be used both as a sighting device, for example as a grain or also quite generally as a holder for the light source, for example in the form of emergency lighting.
An embodiment of a plastic half shell 17 is shown in FIG. 46. Two of these half shells are connected to the housing 3 (not shown in FIG. 46), preferably by snap-fastening and / or gluing and / or welding, in particular by ultrasonic welding ,
The half shell 17 and the other half shell, not shown here, may have ribs 35 on their outer sides. The ribs 35 may be conically ausgebil¬det and taper in the direction of an end face of the half-shells. The shape of the ribs 35 facilitates insertion of the housing into the holder 19 (not shown). The ribs 35 are in this case compressed (squeezed) and the housing 3 is fixed in the holder 19. The ribs 35 are formed integrally with the half shell 17. The half-shell 17 and the ribs 35 may be made by injection molding, for example. A gate mark is designated by reference numeral 36 in FIG. The gate unit 36 is preferably not available in this case in order to allow easy insertion of the housing 3 into the holder 19.
As can be seen from FIGS. 47 and 49, the half-shell 17 can have a projection 38 (bulge) and / or a recess 40. The other half shell (not shown) has a recess corresponding to the extension 38 and a projection which engages in the recess 40. In this way, a self-centering or self-alignment of the half-shells to each other can be achieved. Of course, it is also possible that the half shell 17 only has extensions and the other half shell only recesses.
The hollow body 2 (not shown here) can be welded into the half-shells. In order to achieve an exact positioning of the hollow body 2, as shown in FIGS. 48 and 50, extensions 37 (welding ribs) may be provided per half-shell (at least two), which adapt during welding of the contour of the hollow body 2.
According to FIGS. 48, 50 and 51, at least one rib 39, which protrudes from the connection surface and can be arranged during the (ultrasonic) welding process for optimum energy transmission, can be arranged on a connection surface (contact surface) of the half shell 17 with respect to the other half shell (not shown) ensures half-shells.
The embodiments show possible embodiments of erfindungs¬gemäßen light source and the inventive arrangement comprising a holder and a light source, it being noted at this point that the invention is not limited to the specifically illustrated embodiments thereof, but rather also various combinations of individual variants of execution are mutually possible and this possibility of variation is based on the teaching for technical action by subject invention in the art of working in this technical field.
Furthermore, individual features or combinations of features from the different embodiments shown and described can also represent solutions that are inventive, inventive or inventive.
The problem underlying the independent inventive solutions can be taken from the description. All statements on ranges of values in objective description are to be understood such that these include any and all sub-ranges thereof, eg the indication 1 to 10 is to be understood such that all sub-ranges are included, starting from the lower limit 1 and the upper limit 10, ie all subregions begin with a lower limit of 1 or greater and end at an upper limit of 10 or less, e.g. 1 to 1.7, or 3.2 to 8.1, or 5.5 to 10.
For the sake of order, it should finally be pointed out that in order to better understand the structure of the light source according to the invention and the holder of the sighting device according to the invention, these or their components have been shown partially out of scale and / or enlarged and / or reduced in size.
LIST OF REFERENCE NUMERALS 1 light source 31 pinch ribs 2 hollow body 32 bead 3 housing 33 interface 4 body 34 groove 5 protective cover 35 ribs 6 retaining cage 36 sprue point 7 bracket 37 extension 8 section 38 extension 9 extension 39 rib 10 retaining element 40 recess 11 edge region 12 retaining element 13 rear wall 14 spring 15th Suction cup 16 Holding element 17 Half shell 18 Half shell 19 Holder 20 Housing 21 Bore 22 Shaft 23 Head 24 Pin 25 Nut 26 Ring 27 Spring 28 O-ring 29 Collet 30 Snap ring

权利要求:
Claims (47)
[1]
1. Light source (1), which has a gas-tight closed hollow body (2), which beschich¬tet on at least one inside with a phosphor and filled with gaseous tritium and emits light, wherein the hollow body (2) in a housing (3 ) of the light source (1), characterized gekenn¬zeichnet that the light source (1) at least one ring around a Längsmit¬telachse the light source (1) encircling body (4) of a colored material, the color of which differs from black in daylight wherein the annularly revolving body (4) is arranged at least on an end-side end region of the housing (3) or at least between the end-side end region of the housing (3) and at least one light-emitting end side of the hollow body (2), such that in the case of a plan view of the annular revolving body (4). 4) and the hollow body (2) along the longitudinal center plane of the light source (1) the end face of the hollow body (2) appears as a bright, central point which is surrounded by a colored ring, the colored ring being formed by an end face of the annular encircling body (4) facing away from the front side of the hollow body (2).
[2]
2. Light source according to claim 1, characterized in that the housing (3) on its inside a highly reflective coating, insbesonde¬re a mirror coating, and / or the hollow body (2) on its outer side einedem the interior of the hollow body (2) facing highly reflective coating, in particular silver-plating.
[3]
A light source according to claim 1 or 2, characterized in that the light source (1) comprises at least one protective cover (5) made of a transparent material, by which the at least one light-emitting front side of the hollow body (2) is covered.
[4]
4. Light source according to one of claims 1 to 3, characterized gekennzeich¬net that the annular encircling body (4) covers an edge region of lichtemittie¬renden end face of the hollow body (2), wherein a central region of the light-emitting end side by a clear cross-section of the annular circulating body (4) is visible.
[5]
5. Light source according to one of claims 1 to 4, characterized gekennzeich¬net that the annular encircling body (4) on the protective cover (5) or on the light-emitting end face of the hollow body (2) or on the housing (3) is printed.
[6]
6. Light source according to one of claims 1 to 5, characterized gekennzeich¬net that the annular encircling body (4) is part of a holding cage (6), inwelchem the hollow body (2) is arranged, wherein the holding cage (6) with an In ¬nenseite of the housing (3) is connected.
[7]
7. Light source according to one of claims 3 to 6, characterized gekennzeich¬net that the annular encircling body (4) is part of a holder (7) through which the protective cover (5) is held in the housing (3).
[8]
8. Light source according to claim 7, characterized in that a Rand¬bereich one of the hollow body (2) pointing away surface of the Schutzabdebeckung (5) on the annular encircling body (4) and is covered by this.
[9]
9. Light source according to one of claims 1 to 8, characterized gekennzeich¬net that the annular encircling body (4) is connected to a vertically projecting from this, tubular portion (8) or integrally formed, wherein the protective cover (5) aufwei¬ cylinder jacket-shaped side surfaces aufwei¬ sen, which are connected to the vertically of the annular body (3) projecting, rohr¬förmigen section (8).
[10]
10. Light source according to one of claims 3 to 9, characterized gekennzeich¬net that the annular encircling body (4) is arranged on an outer side of the Gehäu¬ses (3) and connected by a press fit with the housing (3), wherein the protective cover (5) is clamped by means of the annular encircling body (4) in the housing (3).
[11]
11. Light source according to one of claims 3 to 10, characterized gekennzeich¬net in that in the housing (3) at least one holding element (10) is arranged, which has a free, in the interior of the housing (3) projecting end and with the housing (3) has a connected end, wherein the free end of zumin¬dest a holding element (10) of the hollow body (2) facing surface of the protective cover (5) faces or abuts against this.
[12]
12. Light source according to claim 11, characterized in that the zu¬mindest one holding element (10) is designed as a resilient tongue.
[13]
13. Light source according to one of claims 3 to 12, characterized gekennzeich¬net that the protective cover (5) at its lateral edges holding portions in the form of recesses or extensions and the housing (3) on its inner side also holding sections in the form of recesses or Has extensions, wherein the holding portions of the protective cover (5) and the holding portions of the housing (3) engage with each other.
[14]
14. Light source according to one of claims 3 to 13, characterized gekennzeich¬net that the housing (3) has at least one circumferential recess which receives a lateral lateral surface of the protective cover (5).
[15]
15. Light source according to one of claims 1 to 14, characterized gekennzeich¬net that the housing (3) in a region of the end-side end region zumin¬dest a protruding in the direction of the longitudinal center line edge region (11).
[16]
16. Light source according to one of claims 3 to 15, characterized gekennzeich¬net that the hollow body (2) in the housing (3) is glued, welded, clamped or encapsulated.
[17]
17. Light source according to one of claims 1 to 16, characterized gekennzeich¬net that in the housing (3) at least one holding element (12) is arranged, which has a free, in the interior of the housing (3) projecting end and with the housing having connected end, wherein the free end of the at least one retaining element (12) rests against a surface of the hollow body (2).
[18]
18. Light source according to one of claims 1 to 17, characterized gekennzeich¬net that between a ring encircling body (4) facing away from the rear side of the hollow body (2) and a rear wall (13) of the housing (3) in a direction of the longitudinal central axis of the light source ( 1) acting spring (14) is arranged.
[19]
19. Light source according to one of claims 1 to 18, characterized gekennzeich¬net that one of the annular encircling body (3) facing away from the hollow body (2) and a rear wall (13) of the housing (3), a suction cup (15) is arranged.
[20]
20. Light source according to one of claims 1 to 19, characterized gekennzeich¬net that on the outside of the housing (3) at least one holding element (16) is arranged, which a free, of the housing (3) protruding end andein the housing (3) has connected end.
[21]
21. Light source according to one of claims 1 to 20, characterized gekennzeich¬net that the housing (3) by two interconnected half-shells (17,18) is formed.
[22]
22. Sighting device with a holder (19) for a light source according to ei¬nem of claims 1 to 21, characterized in that the holder (19) comprises a housing (20), wherein the housing (3) of the light source (1) and the Housing (20) of the holder (19) non-positively and / or positively locking verbun¬den are.
[23]
23. A sighting device according to claim 22, characterized in that between the housing (3) of the light source (1) and the housing (20) of the Halte¬rung (19) O-rings are arranged.
[24]
24. A sighting device according to claim 22 or 23, characterized in that the housing (20) of the holder (19) has a bore (21) with a Innenge¬winde, wherein the housing (3) of the light source (1) with the Innenge ¬winde the bore has corresponding external thread and the housing (20) of the holder (19) and the housing (3) of the light source (1) are screwed together.
[25]
25. Sighting device according to one of claims 22 to 24, characterized in that the housing (3) of the light source (1) and the housing (20) of the holder (19) are riveted together, wherein at one of the light-emitting front side of the hollow body (2 1) a shaft (22) of a rivet which passes through an opening of the housing (20) of the holder (19), facing away from the light source (1) on a housing (3) Outside of the housing (20) of the holder (19) a head (23) of the rivet is arranged and is supported against the outside of the housing (20) of the holder (19).
[26]
26. Sighting device according to one of claims 22 to 25, characterized ge indicates that the housing (3) of the light source (1) and the housing (20) of the holder (19) are connected to each other via a bayonet closure.
[27]
27. Sighting device according to one of claims 22 to 26, characterized ge indicates that the housing (3) of the light source (1) on an outer side and the housing (20) of the holder (19) on an inner side each have at least one groove, wherein the Housing (3) of the light source (1) and the housing (20) of the holder (19) by at least one section in the groove of the housing (3) of the light source (1) and partially in the groove of the housing (20) of the Hal¬terung (19) engaging pin (24) are interconnected.
[28]
28. Sighting device according to one of claims 22 to 27, characterized ge indicates that the housing (3) of the light source (1) on its outside Hal¬teabschnitte in the form of recesses or extensions and the housing (20) of the holder (19). also has holding sections in the form of recesses or extensions on its inside, wherein the holding sections of the housing (3) of the light source (1) and the holding sections of the housing (20) of the Halte¬rung (19) intermesh.
[29]
29. Sighting device according to one of claims 22 to 28, characterized ge indicates that the housing (3) of the light source (1) in a bore of the Ge¬häuses (20) of the holder (19) and arranged by means of a conical in a light exit direction tapered nut (25) in the housing (20) of the Halte¬rung (19) is held.
[30]
A sighting device according to any one of claims 22 to 29, characterized in that the housing (3) of the light source (1) is tapered and pressed into a cylindrical bore of the housing (20) of the holder (19).
[31]
31. Sighting device according to one of claims 22 to 30, characterized ge indicates that the housing (3) of the light source (1) by means of at least one between the housing (3) of the light source (1) and the housing (20) of Halte¬rung (19) pressed ring (26) in the housing (20) of the holder (19) is supported.
[32]
32. Light source (1), in particular according to one of claims 1 to 21, wel¬che a gas-tight closed hollow body (2), which is coated on a In¬nenseite with a phosphor and filled with gaseous tritium and emits light, wherein the hollow body (2) in a housing (3) of the light source (1) is arranged, characterized in that the housing (3) at least ei¬ne interface (33), in particular non-destructive releasable, non-positive and / or positive connection with a Has holder (19) for the light source (1).
[33]
33. The light source as claimed in claim 32, characterized in that the housing (3) has a recess on at least one section of a lateral surface, through which light emitted by the hollow body emerges.
[34]
34. Light source according to claim 32 or 33, characterized in that the hollow body (2) and the housing (3) each at least one interface (33) for destructive releasable, non-positive and / or positive connection of the hollow body (2) with the housing (3 ) exhibit.
[35]
35. Light source according to claim 34, characterized in that the at least one interface (33) of the hollow body (2) and the at least one interface of the housing (3) form a magnetic closure.
[36]
36. Light source according to one of claims 32 to 35, characterized gekenn¬zeichnet that the housing (3) of the light source (1) consists of two half-shells (17,18) is formed of plastic, which welded together and / or glued and / or snapped are.
[37]
37. Light source according to claim 36, characterized in that the housing (3) on an outer side of at least one half-shell (17) ribs (35), in particular those which ver¬ in the direction of an end face of the half-shell (17) ver¬ are provided, wherein the ribs are preferably formed integrally with the half-shell (17).
[38]
A light source according to claim 36 or 37, characterized in that each half-shell (17) has inwardly projecting projections (37) for fixing the hollow body.
[39]
39. Light source according to one of claims 36 to 38, characterized gekenn¬zeichnet that at least one of the half-shells (17) has at least one extension (38) and at least a second of the half-shells (17) at least one of the at least one extension (38) corresponding Recess (40).
[40]
40. Light source according to one of claims 36 to 38, characterized gekenn¬zeichnet that at least a first of the half-shells (17) on a Verbindungs¬fläche to the other half-shell (17) has at least one of the connecting surface extending rib (39).
[41]
41. Holder (19) for a light source according to one of claims 32 to 40, characterized in that the holder (19) at least one interface for, in particular non-destructively releasable, non-positive and / or formschlüssi¬gen connection with the housing (3) Light source (1).
[42]
42. Arrangement comprising a light source (1) according to one of claims 32 to 40 and a holder (19) according to claim 41, characterized in that the holder (19) and the housing (3) of the light source (1) each have at least one interface, wherein the at least one interface of the housing (3) and the at least one interface of the holder (19) in a connected state of the light source (1) with the holder (19) engage with each other and the light source (1) and the holder ( 19) positively and / or non-positively connect miteinan¬der, wherein the at least one interface of the housing (3) and standing in engagement with this at least one interface of the holder (19) are detachable from each other.
[43]
43. Arrangement according to claim 42, characterized in that the at least one interface of the housing (3) and the at least one interface of the holder (19) form a bayonet closure.
[44]
44. Arrangement according to claim 42, characterized in that the at least one interface of the housing (3) and the at least one interface of the holder (19) form a snap closure.
[45]
45. Arrangement according to claim 42, characterized in that the at least one interface of the housing (3) and the at least one interface of the holder (19) form a screw cap.
[46]
46. Arrangement according to claim 42, characterized in that the at least one interface of the housing (3) and the at least one interface of the holder (19) form a clamp closure.
[47]
47. Arrangement according to claim 42, characterized in that the at least one interface of the housing (3) and the at least one interface of the holder (19) form a magnetic closure.

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同族专利:

公开号 | 公开日

WO2016124686A1|2016-08-11|

CN107208990A|2017-09-26|

IL253589D0|2017-09-28|

US10386158B2|2019-08-20|

AT516018B1|2016-02-15|

US20180010886A1|2018-01-11|

CN107208990B|2019-04-30|

IL253589A|2021-04-29|

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WO2011067291A1|2009-12-02|2011-06-09|Mb-Microtec Ag|Sighting device|DE202017104072U1|2017-07-07|2017-07-19|Mb-Microtec Ag|target device|US4020203A|1973-06-15|1977-04-26|Oscar Thuler|Luminous marking in an indentation of an object|

US6122833A|1996-12-26|2000-09-26|Tru-Glo, Inc.|Day/night weapon sight|

US6640482B2|2001-04-30|2003-11-04|John T. Carlson|Dual powered illuminated fiber optic gun sight|

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AT507403A1|2008-09-24|2010-04-15|Mb Microtec Ag|sight|

US20100088944A1|2008-10-02|2010-04-15|Callihan Rick|Illuminated Sight for use with Firearms and other instruments|

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US8925237B2|2010-12-17|2015-01-06|North Pass, Ltd.|Weapon sight light emission system|WO2019209535A1|2018-04-13|2019-10-31|Hiviz Llc|Weapon sight light emission system|

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EP3663699A1|2018-12-05|2020-06-10|Sherpa Enterprises, LLC|Tritium housing|

US10062464B2|2016-08-17|2018-08-28|Cammenga Company, Llc|Tritium housing|

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法律状态:

优先权:

申请号 | 申请日 | 专利标题

ATA50087/2015A|AT516018B1|2015-02-04|2015-02-04|Light source with a gas-tight hollow body|ATA50087/2015A| AT516018B1|2015-02-04|2015-02-04|Light source with a gas-tight hollow body|

US15/545,537| US10386158B2|2015-02-04|2016-02-04|Light source with a gas-tight hollow body|

CN201680008740.7A| CN107208990B|2015-02-04|2016-02-04|Light source with airtight hollow body|

PCT/EP2016/052368| WO2016124686A1|2015-02-04|2016-02-04|Light source with a gas-tight hollow body|

IL253589A| IL253589A|2015-02-04|2017-07-19|Light source with a gas-tight hollow body|

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