DE202015009053U1 - Target with black retroreflector material - Google Patents

Abstract

Target for a laser weapon comprising a target image (3) with a. a first region (5) having a first gray value, and b. a second region (6) having a second gray level greater than the first gray level, the first region (5) and the second region (6) comprising retroreflective material, the target image (3) being completely covered by the retroreflective material ,

Description

The invention relates to a target for a laser weapon.

As laser weapons laser guns and laser guns are particularly referred to, which are modeled in shape and handling conventional weapons. Such laser weapons are not weapons in the sense of the German weapon law. Instead of a projectile laser weapons emit light in the form of a laser beam, in particular a red laser beam. The lighting duration of a laser shot is between 5 ms and 100 ms. Laser weapons are used in particular for sports shooters. For the evaluation of a shooting result there are currently two systems. A so-called hit target indicates whether a laser shot has illuminated a target area. The evaluation thus takes place with a view to whether a shot is to be regarded as a hit or as a non-hit. There is no qualitative distinction and evaluation of a hit. A hit target is modeled on a biathlon flip-flop. Furthermore, there are shot position-indicating precision laser targets that determine the position of the laser beam at the time of firing by means of a camera and calculation algorithms. For example, the accuracy of the shot-position-indicating precision laser targets depends on the illuminance of the ambient light and the burn time of the laser weapon. These influencing factors are not or only insignificantly influenced. The shot position indicating precision laser targets are inaccurate. The hit targets provide the shooter in the case of a miss no indication of the firing position. The shooter lacks a corrective for subsequent shots, such as in biathlon, when several shots within a short time in a row are to be delivered.

The DE 35 07 007 A1 discloses a device for practicing straightening with a firearm. At a target different groups of retroreflectors are attached to symbolize different sensitivities of the target.

The DE 20 2009 003 136 U1 discloses a photovoltaic target with lighting. To show a photoelectric evaluation with a light source is provided.

The DE 20 2012 009 553 U1 discloses a road sign.

It is an object of the present invention to improve shooter position detection for the shooter when shooting with a laser weapon.

This object is achieved by a target with the features specified in claim 1.

According to the invention, it has been recognized that a target object for a laser weapon has a target image with retroreflective material. Retroreflector material comprises a translucent substrate, are embedded in the reflection body. The translucent carrier material is in particular a plastic material. The reflection bodies have a particle size of typically between 10 .mu.m and 200 .mu.m, in particular between 20 .mu.m and 100 .mu.m and in particular about 50 .mu.m. Reflection bodies may be microprisms, which are in particular mirrored. Reflecting bodies are, for example, catadioptric glass microspheres. It is also possible to encapsulate the reflection bodies between the support material and a transparent cover material. Typically, the reflection bodies, in particular glass microspheres, are arranged in a honeycomb structure and encapsulated between the carrier material and the transparent covering material. The microprisms can also be embossed in the carrier material. The microprisms throw back incident light like a reflector. A transparent covering material, in particular supported by a honeycomb structure, may be applied to the microprisms embossed into the carrier material. Due to the embedded reflection body, the retroreflective material has a so-called cat's eye effect. Incident light is reflected in a narrow angular range by 180 ° in the axis of incident light. The result is a directed reflection, which is directed in particular in the direction of the incident light. This means that especially the shooter can see the directional reflection of the light of the laser weapon very well. The light of the laser weapon has a wavelength in the visible spectral range, in particular between 400 nm and 700 nm. The light may, for example, be red, green, blue or otherwise colored. The directional reflection minimizes optical scattering effects. Environmental influences and in particular ambient light have only a reduced influence on the visibility of the light of the laser weapon. There are retroreflector sheeting that allow reflection in a wider range of angles to the axis of incident light. By selecting and / or coloring the carrier material, a color impression of the retroreflective material resulting in daylight for the human eye can be influenced. This color impression is referred to as Tagesaufsichtfarbe. Additionally or alternatively to the coloring of the carrier material, the use of a colored substrate below the translucent plastic material is possible. Surprisingly, it has been found that the use of the retroreflective material in the first region and in the second region allows light emitted by the laser weapon to be perceived with the human eye in an improved way. In particular, the improved visibility of the laser light on the retroreflective material is less susceptible to interference with environmental conditions. Ambient light has virtually no adverse effects on the visibility of the light of the laser weapon. The retroreflective material has a specific reflectance value of at least 10 cd / (lx.m ² ), in particular at least 60 cd / (lx.m ² ), in particular at least 120 cd / (lx.m ² ), in particular at least 180 cd / (lx. m ² ), in particular at least 240 cd / (lx * m ² ), in particular at least 300 cd / (lx * m ² ), and in particular at least 400 cd / (lx * m ² ). The specific reflection value applies in particular to an illumination angle of 5 ° and an observation angle of 0.33 °. The target object according to the invention directly enables the visualization of the position of a shot delivered with the laser weapon. Both in the first area, which usually represents misses or a lesser scoring hit on a target object, and in the second area, which typically represents a hit, in particular higher scores, on the target object, the shooter can immediately detect the shooting result. In particular, a complex, computer-aided evaluation system is unnecessary. The target object according to the invention is uncomplicated, inexpensive and intuitive for the shooter. A laser weapon is in particular a laser pistol or a laser rifle. The target image has a first region with a first gray value and a second region with a second gray value. Gray value in the sense of the invention is understood to mean a numerical value between 0 and 1. Gray value 0 means the color white. Gray value 1 means black. Between 0 and 1 different shades of gray are possible. The larger the gray value, the darker the associated gray tone, ie the proportion of black pigments in a white environment. The second gray value is greater than the first gray value. This means that the second area is darker than the first area. The first area is a bright area. The second area is a dark area. The first region and the second region comprise retroreflective material. It is conceivable that the target object has a plurality of first regions and / or a plurality of second regions. These first and / or second regions may be arranged on the target image separately or connected to each other. The difference between the second gray value and the first gray value is in particular at least 0.4, in particular at least 0.5, in particular at least 0.6 and in particular at least 0.8. The first area has a color between white and light gray as the daycare color. The second area has a color between dark gray and black as a daycare color.

A target object in which the first gray value is at most 0.5, in particular at most 0.4, in particular at most 0.3, in particular at most 0.2, in particular at most 0.1, in particular at most 0.05 and in particular at most 0.01 Enables improved capture of misses.

A target object in which the second gray value is at least 0.5, in particular at least 0.6, in particular at least 0.7, in particular at least 0.8, in particular at least 0.9, in particular at least 0.95 and in particular at least 0.99, allows a clear distinction from the first area. Within the second area an immediate firing position detection is possible.

A target object in which the target image is flat, is particularly suitable for sports shooters, such as Modern Pentathlon, when shooting with a laser gun on a 10 m away target object, in biathlon with a biathlon laser rifle on a 50 m away target or in the summer biathlon when shooting with a laser rifle at a 10 m away target object. In principle, uneven and especially arbitrarily spatially shaped, three-dimensional free-form surfaces are also suitable for the target image. For example, it is conceivable to use three-dimensionally shaped target objects in the form of human figures or animal figures.

A target object in which the retroreflective material, in particular in the first region and / or in the second region, is designed as a film, in particular as a plastic film and in particular as a self-adhesive film, is easy to assemble. In case of unwanted damage to the target image, the target object can be quickly and easily restored and thus brought into a functional state. A retroreflective sheeting has a film thickness in a range of 0.1 to 0.3 mm, in particular in a range of 0.15 to 0.25 mm, and in particular in the range of 0.18 to 2.0 mm.

A target object with a support member for supporting the target image simplifies the handling of the target object. In particular, the carrier element is a carrier plate. The carrier plate is designed rigidly. This means that the carrier plate does not buck due to its own weight. The carrier plate is made stable with respect to its own weight. On the rigid support plate, the target image can be defined and permanently arranged stable. The support element is in particular made of plastic, sheet steel and / or aluminum. The support element is easy to build and in particular cost-effective.

A target with a fastener simplifies handling. In particular, the fastening element serves for fastening the target object to a retaining element. A holding element may for example be a stand or a hook or a nail in a wall. Accordingly, the fastener is an opening, a hook or a pin. The fastening element is arranged, in particular, on a rear side of the target object facing away from the target image. It is also possible to provide a plurality of fastening elements, in particular at least two, in particular at least three, in particular at least four, and in particular the highest, 100 fastening elements. In particular, the fastening element is embodied on the carrier element and in particular integrally with the carrier element. The fastener is integrated with the target object.

A target object with a protection element for protecting the target image simplifies the handling of the target object. In particular, when the target object is not in use, that is not shot with a laser weapon on the target object, the protective element prevents damage to the target image. This is especially true for the transport of the target object. In particular, it is avoided that the target image scratched. The protection element is designed such that it completely covers the target object. An outer contour of the protective element is at least as large as an outer contour of the target image. The protective element can also survive on the target image.

A target object, in which the protective element has at least one spacer for abutment against the target image, ensures that the target image is not inadvertently damaged by the protective element itself. The spacers are arranged between the target image and the protective element. The protective element itself is arranged at a distance from the target image.

A target object, in which the protective element is releasably attachable to the target object, improves the handling of the target object. In particular, attaching and releasing the protective element from the target object is straightforward and immediate. For releasable fastening, magnetic elements can be embedded on the protective element and on the target object, in particular on the carrier element. The magnetic elements may be integrated in the carrier element and the protective element in particular such that the protective element can be fastened both to the front image of the target object having the target image and to an opposite rear side of the target object. Alternatively, it is conceivable that the protective element is attached to the carrier element as a hinged hinged lid. For this purpose, for example, a hinge may be arranged on an edge of the outer contour of the target image.

A target object, in which the protective element can be arranged on the target object in a stand arrangement that is different from a protective arrangement, such that the protective element serves as a stand for holding the target object, enables independent handling of the target object. It is therefore conceivable that the protective element, which is arranged, for example, during transport in the protective arrangement on the target image, is removed for the purpose of using the target object as target. The protective element can then be used in a stand arrangement as a stand for the target object. The stand may for example have a base for supporting on the ground. The stand may also have a tapered anchoring portion with which the stand is anchored directly in a ground. An additional stand is unnecessary. The protective element is executed functionally integrated.

A target object, which is designed as a target, is suitable for shooters. In particular for a training operation, a complex evaluation technique is dispensable. Depending on the used laser weapon and / or an organization, which is responsible for the determination of rules of shooting competitions, size and form of the target picture can be determined. The International Sports Shooting Federation (ISSF), for example, has defined a square contour for an airgun disk that is shot at a distance of 10 m that has a side length of 170 mm. The target has a slice thickness D of about 20 mm. Depending on the carrier material, the slice thickness may also be smaller, for example about 0.2 mm to 15 mm, or larger, in particular at least 25 mm or more.

A target object, in which the target image has a caption, allows in particular the shooter an immediate capture of his shooting result. The label usually consists of rings and numbers, which subdivide the target image into different hit zones.

Typically, a spot of light that can be displayed on the target is substantially circular. The light spot typically has a diameter of up to 10 mm. Typically, the spot of light is significantly smaller than the surface of the target. The surface of the target object is the area to be hit by a shooter, e.g. B. a circular area in biathlon with different annular areas. In particular, the area of the light spot is less than 5% of the surface of the target object, in particular less than 2% of the surface of the target object and in particular less than 1%. the surface of the target object. In particular, the light spot is larger than the reflection body. In particular, the area of the light spot is at least one hundred times, in particular at least five hundred times and in particular at least one thousand times the projection area of a reflection body in the surface of the target object.

What is essential is that the retroreflective material does not adversely affect the target image of the target object. The target image must remain recognizable despite attached retroreflective material. This ensures that already existing target images can be used as target objects within the meaning of the invention. In particular, the retroreflective material is a transparent or partially transparent retroreflective sheeting. In particular, the retroreflector sheeting is a homogeneous, continuous film. The film has consistently homogeneous material properties. In particular, the density of the reflection body is homogeneously distributed in the film. The film is easy to produce. The production of a target object is possible in a straightforward manner, since a one-piece, continuous film can be attached to the target image independently of the target image. In particular, the use of different films or different reflection body on the target image is unnecessary.

The target image is completely covered with the retroreflective material.

The target object is a closed disc.

The target object is a passive element. Active elements for displaying a shooting result are unnecessary. The target object is uncomplicated. The target object is lightweight construction. The target object is particularly well suited for mobile use. The target object allows an immediate representation of the laser light of a laser weapon.

An embodiment of the invention will be explained in more detail with reference to the drawing. In this show:

1 a representation of a target object according to the invention as a target, and

2 a sectional view according to line II-II in 1 ,

An in 1 and 2 illustrated target 1 is a target for a laser weapon. The target 1 comprises a carrier element designed as a carrier plate 2 that is a target image 3 wearing. The carrier element 2 is made of plastic according to the embodiment shown. It is also conceivable that the carrier element is made of aluminum. It is essential that the carrier element 2 is sufficiently rigid to the target image 3 to keep in a defined planar arrangement.

The target image 3 is just. The target image 3 is square with a side length of 170 mm. The target image 3 has eleven concentrically arranged circular lines of different diameters. The ring areas formed between two circular lines are labeled with numbers. The numbers indicate the valency of the ring areas. The value increases from outside to inside from 1 to 10. The two inner ring areas, which is the valence 9 and 10 have are not labeled. The size of the circular lines is set for the embodiment shown by the competent organization, the ISSF. The target shown 1 is used, for example, for laser pistol shooting competitions in which the target 1 10 m away from the shooter. The circles and the numbers form a caption 4 ,

The target image 3 includes a first area 5 which is white as day supervision color. It is essential that a first gray value of the first range 5 does not exceed a maximum. The first area 5 is sufficiently light, preferably light gray or white. The first area 5 represents the ring domains of low valence, in particular the valences 0 to 6. The first domain 5 is in an outer, in particular reaching to an edge, area of the target image 3 arranged.

The target image 3 includes a second area 6 which has a second gray value greater than the first gray value. The second area 6 is darker than the first area 5 , The second area 6 is dark gray or black. The second area 6 represents the ring regions of higher significance, in particular of the valencies 7 to 10 , The second area 6 is central to the target image 3 arranged. The second area 6 is completely from the first area 5 enclosed. Depending on the design of the target image 3 can have several first areas 5 and / or several second areas 6 be provided in any way on the target image 3 can be arranged combined with each other.

It is also possible that the first area 5 to represent the higher weights and the second range 6 to represent the lower weights. Such an alternatively executed target 1 has an inverse black and white distribution to that in 1 shown target 1 on.

It is also possible that the first area 5 the lower valences and the second range 6 represents the higher valences. In particular, therefore, the areas of higher significance bright, especially white, and the areas of low valency dark, especially black, be shown.

The caption 4 has a different color than the respective area 5 . 6 , In the first area 5 the label is executed in black. In the second area 6 is the label 4 executed in white color. In particular, the color of the label 4 chosen such that sufficient contrast to the color of each area 5 . 6 given is.

The second area 6 is designed as a black circle. The first area 5 is designed as a white square centered in the second area 6 is arranged.

The first area 5 and the second area 6 are made of retroreflective material. The first area 5 and the second area 6 are in the form of a retroreflective sheeting on the support element 2 arranged.

In the carrier element 2 integrated on a rear side a recess as a fastening element 7 , The recess serves to receive a holding element, for example a nail or a screw, which is fastened, for example, to a wall. The fastener 7 may also be designed as a hook, as an eyelet, as a pin or in any other way, in particular as a male fastener or female fastener, to attach the target 1 to ensure a corresponding retaining element. The fastener 7 is at a rear side of the support element 2 arranged. There may also be several fasteners 7 be provided. The back is the one through the target image 3 fixed front of the target 1 arranged opposite.

In the carrier element 2 integrated are fastening means in the form of magnets 8th , The magnets 8th are so in the carrier element 2 arranged directed in the thickness direction, that in each case a magnetic pole of the front side and the respective other magnetic pole faces the back. This makes it possible for a protective element 9 detachable on the target 1 is fastened. For illustration purposes, the protective element 9 only in 2 shown. The protective element 9 is in particular a transparent plastic plate, in particular of PMMA. The protective element can have several, in particular at least three spacers 10 in a protective arrangement in which the protective element 9 on the target image 3 is present ( 2 ), unintentional damage to the target image 3 prevent. The spacers 10 are in particular made of the same material as the protective element 9 produced. At the target picture 3 facing the free end can be the spacers 10 each having a protective coating, for example in the form of a soft material such as felt or wool.

In the protective element 9 are also magnets 8th arranged with those in the support element 2 arranged magnets 8th correspond. In particular, the magnets 8th in the protective element 9 perpendicular to the thickness of the protective element 9 oriented. Due to the directional orientation of the magnets 8th in the carrier element 2 and the protective element 9 can the protective element 9 both on the target image 3 at the front of the target 1 as well as attached to the rear side facing away from it.

The protective element 9 can have a stand section. The upright portion is, for example, a columnar extension integrally formed with the plate portion of the protection member. At a free end of the stator section, a base plate may be provided to park the protective element on a substrate. In particular, the stand is made of a high density material to avoid tilting of the stand. If the protective element in a non-protective arrangement of the target image 3 is provided, so if the protective element 9 at the back of the target 1 is arranged, is the protective element 9 in the so-called stand arrangement on the target 1 arranged. In this arrangement, the protective element serves 9 as a stand for the target 1 , The target 1 has a slice thickness D which is about 20 mm.

The protective element 9 can be designed to be foldable in a non-illustrated embodiment by means of a pivoting hinge. For example, the hinge is at the top edge of the target image 3 arranged and allows pivoting of the protective element 9 about a horizontal pivot axis by 180 °. The protective element 9 Then, starting from the guard assembly, it is 180 ° backwards to the back of the target 1 worked.

In a further, not shown embodiment, the protective element 9 be designed hinged by a first pivot hinge. The first pivot hinge is at a lower edge of the target image 3 arranged. The first pivot hinge can also be on one of the two lateral edges of the target image 3 be arranged. The protective element 9 can be pivoted by 90 ° starting from a protective arrangement about a horizontal pivot axis. In particular, the protective element and / or the target 1 Have stopper elements such that a positioning of the target 1 with the target image 3 perpendicular to the protective element 9 is guaranteed. The protection element 9 serves as an integrated stand in this stand arrangement. In the stator assembly, the protective element is oriented horizontally and allows a shutdown of the target 1 on a base such as a table. The protective element may have a second pivoting hinge, which allows additional pivotability about a horizontal pivot axis. The second pivot hinge allows a free end of the protective element from the horizontal orientation by an angle of at least 90 ° and at most 180 ° and in particular of at least 110 ° and at most 160 °, in particular at least 120 ° and at most 150 °, in particular of at least 130 ° and at most 140 ° and in particular of 135 ° is pivotable. The free leg of the protective element 9 serves to rest on the back of the carrier element 2 and allows additional support of the support element 2 , In this stand arrangement is the target 1 safely positioned. The risk of unintentional falling over is reduced. At the back of the support member, a recess may be provided to secure the free leg of the protective element for supporting there.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 3507007 A1 [0003]
• DE 202009003136 U1 [0004]
• DE 202012009553 U1 [0005]

Claims (13)

Target for a laser weapon comprising a target image ( 3 ) with a. a first area ( 5 ) having a first gray value, and b. a second area ( 6 ) having a second gray value greater than the first gray value, the first region ( 5 ) and the second area ( 6 ) Retroreflective material, the target image ( 3 ) is completely covered with the retroreflective material. Target object according to Claim 1, characterized in that the first gray value is at most 0.5, in particular at most 0.4, in particular at most 0.3, in particular at most 0.2, in particular at most 0.1, in particular at most 0.05 and in particular at most 0 , 01 is. Target object according to one of the preceding claims, characterized in that the second gray value at least 0.5, in particular at least 0.6, in particular at least 0.7, in particular at least 0.8, in particular at least 0.9, in particular at least 0.95 and in particular at least 0.99. Target object according to one of the preceding claims, characterized in that the target image ( 3 ) is executed. Target object according to one of the preceding claims, characterized in that the retroreflective material in the first region ( 5 ) and / or in the second area ( 6 ) is designed as a film, in particular as a plastic film and in particular as a self-adhesive film. Target object according to one of the preceding claims, characterized by a carrier element ( 2 ), in particular a carrier plate, for carrying the target image ( 3 ), wherein the carrier element in particular plastic, sheet steel and / or aluminum. Target object according to one of the preceding claims, characterized by at least one fastening element ( 7 ) for attaching the target object to a holding member. Target object according to one of the preceding claims, characterized by a protective element ( 9 ) to protect the target image ( 3 ). Target object according to claim 8, characterized in that the protective element ( 9 ) at least one spacer ( 10 ) to concern with the target image ( 3 ) having. Target object according to claim 8 or 9, characterized in that the protective element ( 10 ) releasably attachable to the target object. Target object according to one of claims 8 to 10, characterized in that the protective element ( 10 ) can be arranged on the target object in a stand arrangement which is different from a protective arrangement in such a way that the protective element ( 10 ) serves as a stand for holding the target object. Target object according to one of the preceding claims, characterized in that the target object as a target ( 1 ) is executed, the target ( 1 ) in particular a square contour, in particular with a side length of 170 mm, and wherein in particular the disc thickness (D) is about 20 mm. Target object according to one of the preceding claims, characterized in that the target image ( 3 ) a label ( 4 ) having.

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