DE60308573T2 - System for displaying and visualizing hits - Google Patents

Description

The The present invention relates to a targeting device for use in either a competition or a game, such as rifle shooting, Japanese Archery, archery etc., to compete for a higher one Score based on the accuracy with which a bullet, an arrow or a bullet Like a target hits, or exercises to carry out a such competition or a game.

Target shooting sport including gun shooting, Japanese Archery, Archery, etc. has so far gained popularity among many people. At present becomes not just Japanese archery and archery, but also gun shooting in competitions played. According to one typical rifle shooting competition shoot Player one floor an air rifle or a laser beam from a laser rifle a goal, and is competing for a higher score on the Accuracy is based on the projectile or the laser beam Goal meets.

1 The accompanying drawings show, partly in block form, a conventional rifle shooting competition system for shooting at a target with a laser beam emitted from a laser rifle. As in 1 As shown, the conventional rifle shooting competition system has a targeting device 1 , a laser gun 7 Being operated by a shooter, ie a player, targets 4 . 4 ' , a display unit 5 and a switching unit 3 on. The targets 4 . 4 ' are used when the aiming device 1 from the laser gun 7 is arranged at distances of 10 m or 25 m. The targets 4 . 4 ' are selectively removable on the targeting device 1 appropriate. In 1 becomes the target 4 shown to be attached to the targeting device 1 is appropriate. If the distance from the laser gun 7 to the target device 1 is changed to 25 m, the at the target device 1 attached target 4 through the target 4 ' replaced. The exchange unit 3 comprises a switching network node of a 10BASE-T-LAN (Local Area Network) 6 , The display unit 5 is through the switching unit 3 electrically with the aiming device 1 connected. The display unit 5 is arranged close to the shooter.

Each player presses the laser rifle 7 to a ray of light 2 ie a laser beam, on the target 4 in competition, competing with other players based on a score added depending on the location where the beam of light 2 the target 4 meets. A ray of light 2 that from the laser gun 7 is typically emitted from a semiconductor laser vibrating device used in the laser gun 7 is appropriate. Like a real projectile fired from a real rifle, the beam of light becomes 2 from the mouth of the laser rifle 7 fired and just moves.

The target device 1 detects the position where the light beam 2 the target 4 meets, ie an impact position, and transmits information representing the detected impact position to the display unit 5 , The display unit 5 also indicates the player's identification number, the light beam number, the score corresponding to the light beam number, the total score obtained thus far, and the landing position, either simultaneously or at time intervals.

The electronic rifle shooting competition system uses a personal computer as a display unit 5 comprising a score calculating means for automatically executing a shooting-match score calculating process. Since player scores can be accurately calculated at a high speed, the electronic rifle shooting competition system can smoothly manage shooting competitions.

2 The attached drawings show the surface of a target 4 , As in 2 shown points the target 4 on its surface, there are ten annular portions enclosing a central circular area just around the center O, which are divided by ten concentric circles around the center O. These areas are also referred to as score ranges. The target 4 also has an outer area around the annular areas. The player receives no score when the beam of light 2 meets the outer area. A score for the outermost annular region, that is, the annular region marked "1" is 1. Scores for the other annular regions are gradually increased by 1 toward the center O, and the central circular region score is 10 A score that the player receives when he hits the target 4 shoots based on the distance from the center O of the target 4 to the impact position on the target 4 certainly.

The target device 1 has an optical position detecting device (not shown) for detecting the impact position. The optical position detection device comprises a condenser lens and a position detecting semiconductor device. The position detecting semiconductor device includes a CCD (Charge Coupled Device) or a PSD (Position Sensitive Device) known in the art. The PSD is preferred over the CCD because of its cost and detection speed.

When the laser gun 7 fired light beam 2 the target 4 meets, detects the PSD of the target device 1 the impact position (x, y) of the light beam 2 on the target 4 , The impact position (x, y) is equal to a coordinate position (x, y) in an orthogonal coordinate system on the target 4 ,

On the target device 1 is the origin of the orthogonal coordinate system with the center O of the target 4 aligned. The target device 1 calculates the distance from the origin to the coordinate position (x, y) and calculates a number of points for the light beam 2 by determining to which score area the coordinate position (x, y) belongs.

The PSD has a two-dimensional power generating membrane. When a laser beam is focused by the condenser lens and applied as a beam spot to the two-dimensional power-generating diaphragm at a coordinate position (x, y), the two-dimensional power-generating diaphragm generates currents therein which correspond linearly to the coordinate position (x, y) two-dimensionally. In particular, the two-dimensional power generating membrane produces two currents Ix1, 1x2 flowing in two opposite directions along the x-axis and two currents Iy1, Iy2 flowing in two opposite directions along the y-axis. The coordinates x, y of the coordinate position (x, y) are calculated from the currents Ix1, 1x2, Iy1, 1y2 according to the following equations: x = k (Ix2 - Ix1) / (Ix2 + Ix1) (1) y = k (Iy2 -Iy1) / (1y2 + Iy1) (2)

The beam spot position where both (Ix2 - Ix1) and (Iy2 Iy1) are zero is defined as the electrical and mechanical coordinate origin (0, 0) of the PSD. The target 4 must be arranged two-dimensionally with respect to the PSD within a permissible accuracy range.

In the conventional electronic rifle shooting competition system, it is required that the display device 5 arranged to display the scores and landing positions near the shooting standpoint of the player. Therefore, the conventional electronic rifle shooting competition system is not suitable for use in limited-range target practice. The conventional electronic gun shooting competition system is also disadvantageous in that its cost is high. Therefore, there is a demand in the art for an electronic rifle shooting competition system that does not have a display unit such as the display unit 5 needed.

Gun shooting exercises or Competitions that actual Use projectiles, allow it the player to visually detect an impact position on the target, as a storey brand on the finish. However, a rifle shooting system leaves behind that uses a beam of light, like a laser beam, at all no storey marks on the goal. It is for such a gun shooting system in use, a separate device for displaying the impact positions to build in the goal. According to one Another suggestion is a display for displaying an impact position a beam of light placed on the target. A problem with that proposed system is that it is unable, one Impact position of the light beam to detect the display has met.

US 4,708,341 , which forms a basis for the preamble of claim 1, and CH 675 909 A disclose target devices, wherein the score is indicated by the use of segmented light emitting diodes in numerical form.

It It is an object of the present invention to provide a targeting device to provide it to a shooter who is far from the target located away, allows easily a shooting result to recognize, without the need for a display device, the close to the position of the shooter is located to display an image of the destination.

These Object of the present invention is achieved with the features of the claims.

According to one Aspect of the present invention comprises a target device Group of light emitting elements standing near a target is arranged and changes Switch-on pattern of the group of light-emitting elements depending on a calculated score and a possibly detected landing position.

The Target device shows scores and landing positions with simple On patterns of the group of light-emitting elements. Because simple Power-up pattern can be visually perceived from a remote location can, can the shooter, the is located far away from the target device, easily the Recognize the number of points and the impact position without the necessity a display device for displaying an image of the target in the vicinity of the shooting position point, where the shooter is located.

According to an embodiment which does not form part of the present invention, the group of light-emitting elements comprises a plurality of light-emitting elements arranged at substantially equally spaced intervals around the target are orders. Preferably, the light-emitting elements are arranged so that angles formed between straight lines each extending from a center of the target to the light-emitting elements are predetermined angles. Since the light-emitting elements are arranged at substantially equally-spaced intervals, the impact position on the target can be displayed without undesired localized display irregularities.

According to one another embodiment, which does not form part of the present invention is one of light-emitting elements, the impact position on the target the next is on, switched on. Alternatively, one of the light-emitting elements turned on, so that a Angle between a straight line extending from a center the target extends to the one of the light-emitting elements, and a straight line extending from the center of the target to the Impact position on the target extends, is minimal. With this Arrangement can be a direction in which the impact position from the center the target is different, are displayed.

According to one more another embodiment, which forms no part of the present invention, becomes a first light-emitting element of the light-emitting elements is set so that an angle, between a straight line extending from a center of Target to the first light-emitting element extends, and A straight line is formed, extending from the center of the target extends to the impact position on the target, a smallest is first angle, and becomes a second light-emitting element the light emitting elements selected so that an angle between a straight line extending from the center of the target to the second light-emitting element extends, and formed the straight line is going from the center of the target to the impact position extends on the target, a next smallest second angle is. The first light-emitting element is turned on, and the second light-emitting element is turned on when the Difference between the second angle and the first angle at most is a predetermined angle. With this arrangement, the resolution, with the direction of the impact position with respect to the center of the target is twice the resolution of a target device be, which has the same number of light-emitting elements.

According to one more another embodiment The present invention relates to light-emitting elements which be switched on, depending changed from the number of points by a score calculator is calculated. Alternatively, combinations of light-emitting Elements that are to be turned on, depending on the score changed, the is calculated by the score calculating means. If some scores by changing expressed by combinations of light-emitting elements, then the number of light-emitting elements for expressing a full score be small.

According to one more another embodiment of the present invention the group of light-emitting elements is a first group of light-emitting elements Elements that can be switched on in switch-on patterns that depend on vary the number of points by the score calculating device calculated, and a second group of light-emitting elements, which can be switched on in switch-on patterns that depend on vary the detected impact position. The first group of light-emitting Elements and the second group of light-emitting elements should preferably be switched to each light in different Emit colors. If he ste group of light-emitting elements and the second group of light-emitting elements light in different Emit colors, the shooter, which is far away from the target device, easily differentiate between the number of points and the position of impact.

According to one more another embodiment of the present invention, the group of light-emitting elements turned on to the point number and the landing position in one Display time division way. Alternatively, the group becomes light-emitting Elements switched on to the points and the impact position alternately display in an intermittent manner. In addition, points each of the light-emitting elements has a bicolor light-emitting Diode for emitting light in two colors, and should preferably be turned on to emit light to the score and the impact position for better visibility in different To display colors. Because a group of light-emitting elements is capable is to display both scores and landing positions can reduce the number of light-emitting elements used and the aiming device is relatively inexpensive and small.

According to still another embodiment of the present invention, at least one of the light emitting elements is operable as a standby lamp for indicating that a shooter can shoot at the target. Preferably, at least one of the light-emitting elements operable as the standby lamp is disposed under the target. Since at least one of the light-emitting elements plays a dual role as a standby lamp, no need ne additional ready lamp be re-provided. Therefore, the number of light-emitting elements can be small. Since at least one of the light-emitting elements operable as the standby lamp is disposed under the target, the light-emitting element as the standby lamp, when the shooter holds a laser rifle and aims at the target, is hidden from view by the shooter through the gun , and thus the ready lamp does not obstruct the shooter's shootout.

According to one more another embodiment The present invention is at least one of the light-emitting Elements as a busy lamp for display operable that a shooter does not open shoot the target can. Preferably, at least one of the light-emitting elements, the as the busy lamp operable is over the target arranged. Because at least one of the light-emitting Elements as a busy lamp plays a dual role, no need additional Busy lamp be re-deployed. Therefore, the number of light-emitting elements are small. Because at least one of light emitting elements operable as the busy lamp over the Target is arranged, the light-emitting element as the busy lamp then, if the shooter holds the laser gun and on the target is aimed, present in the field of vision of the shooter, what the Protect allows easy to recognize that the Sagittarius do not shoot at the target can.

According to one another embodiment According to the present invention, the aiming device further comprises Switch for setting a type of target on which Place is appropriate and there will be an equation for calculation the number of points from the impact position depends on the type of target changed, which is set by the switch. By pressing the Switch it is possible a score depends the type of target, which is placed in place exactly to calculate and display.

According to one more another embodiment of the present invention the aiming device further comprises a detection device for automatic Detecting a type of target that is attached in place is, and it gets an equation to calculate the score depending on the impact position changed by the type of target, which is detected automatically by the detection device. Because the equation for calculating scores depends on The type of target used is changed automatically, the user finds It is less difficult to change the target than with the Target device with the switch, and it is prevented that scores according to a calculated incorrect equation.

According to one more another embodiment The present invention detects the detection device the type of target that is mounted in place by Measurement of either the resistance of a resistor in the target is built in, which is attached in place is information stored in an IC chip that is stored in the target is built in, which is attached in place is, magnetic information built into the target are installed in place or a pattern of Slits that are arranged in the target, in place and Location is appropriate.

According to one more another embodiment According to the present invention, the aiming device further comprises Sound emitting device to depending on a shot on the Target to provide sound information.

The Sound output device provides predetermined sound information, if by the impact position detecting means a shot on the Target is detected. The shooter is thus given a feeling the similar to an actual Rifle shooting activity is.

According to one more another embodiment According to the present invention, the sound delivery device provides sound information, which depends on the score which is calculated by the score calculating means. The shooter can be such a listener the score of the shot received.

The Above and other objects, features and advantages of the present invention The invention will become apparent from the following description with reference to FIG the attached Drawings more clearly illustrate the examples of the present invention illustrate.

1 Fig. 12 is a view, partly in block form, of a conventional rifle shooting competition system employing a laser gun for shooting a laser beam;

2 Fig. 13 is a view of a target used in the conventional rifle shooting competition system;

3A Fig. 10 is a front elevational view of a target device according to a first embodiment of the present invention;

3B Fig. 10 is a block diagram of a circuit arrangement of the target device according to the first embodiment;

4A Fig. 10 is a front elevational view of a target device according to a second embodiment of the present invention;

4B Fig. 10 is a block diagram of a circuit arrangement of the target device according to the second embodiment;

5A Fig. 10 is a front elevational view of a target device according to a third embodiment of the present invention;

5B Fig. 10 is a block diagram of a circuit arrangement of the target device according to the third embodiment;

6A Fig. 10 is a front elevational view of a target device according to a fourth embodiment of the present invention;

6B Fig. 10 is a block diagram of a circuit arrangement of the target device according to the fourth embodiment;

7A Fig. 10 is a front elevational view of a target device according to a fifth embodiment of the present invention;

7B Fig. 10 is a block diagram of a circuit arrangement of the target device according to the fifth embodiment;

8A Fig. 10 is a front elevational view of a target device according to a sixth embodiment of the present invention;

8B Fig. 10 is a block diagram of a circuit arrangement of the target device according to the sixth embodiment;

9A Fig. 15 is a perspective view of a sighting apparatus according to a seventh embodiment of the present invention;

9B Fig. 10 is a block diagram of a circuit arrangement of the target device according to the seventh embodiment;

10 Fig. 10 is a block diagram of a circuit arrangement of a target device according to an eighth embodiment of the present invention;

11A Fig. 11 is a perspective view of a sighting apparatus according to a ninth embodiment of the present invention; and

11B FIG. 10 is a block diagram of a circuit arrangement of the target device according to the ninth embodiment. FIG.

1st embodiment:

3A shows in a front elevation of a target device according to a first embodiment of the present invention, and 3B shows in block form a circuit arrangement of the target device according to the first embodiment. The aiming device has a front side on which a target disc 4 is attached, with the front to a firing point points where a shooter is located.

The front of the in 3A shown target device consists of a square shape with a vertical dimension of 10 cm and a horizontal dimension of 10 cm. The target 4 , which also consists of a square shape, is mounted on a central area of the front of the aiming device. The target 4 includes a solid plate and has a plurality of circular dot number areas around its center, as in FIG 2 shown. The target 4 is at its corners by four screws 5 attached to a housing of the aiming device.

The aiming device has an LED group 8th comprising eight light emitting elements, ie light emitting diodes (LEDs) 8 ₁ to 8 ₈ that's about the target 4 are arranged. The LEDs 8 ₁ to 8 ₈ are at substantially equal distances around the target 4 arranged. In particular, the LEDs 8 ₁ to 8 ₈ arranged so that all straight lines (which are indicated by the dotted lines in 3A displayed), extending from the center of the target 4 to respective LEDs 8 ₁ to 8 ₈ extend, are at 45 ° angularly spaced from other adjacent straight lines.

The aiming device also has an impact position detector 11 , a score calculator 12A , and a drive unit 13A light-emitting elements. The aiming device displays a score with the LED group 8th at. The impact position detector 11 detects the impact position (x, y) on the target 4 according to the equations (1), (2) described above. The score calculator 12A calculates the distance from the center O of the target 4 to the impact position (x, y) based on the detected impact position (x, y), and compares the calculated distance with the ranges (radii) of the points number ranges to calculate a score for the detected impact position (x, y). It is necessary that the center O of the target 4 and the detection origin of the impact position detector 11 in full alignment with each other.

The drive unit 13A light-emitting elements determined depending on the number of points by the score calculator 12A calculated has been a turn-on pattern of the LEDs 8 ₁ to 8 ₈ the LED group 8th , If, for example, by the score calculator 12A calculated number of points is "1", then the drive unit switches 13A light-emitting elements only the LED 8 ₁ one. If the score calculator 12A has calculated the score "2" to "8", then turns on the drive unit 13A light-emitting elements in each case only the LEDs 8 ₂ to 8 ₈ one. So an LED or LEDs are turned on, the one by the score calculator 12A correspond to the calculated number of points. Thus, if as a result of a shot only the LED 8 ₅ is switched on, the shooter can immediately recognize that the shot has scored a score "5." If the score calculator 12 has calculated a score of "9", then the drive unit switches 13A light-emitting elements the LED 8 ₂ and LED 8 ₈ one. If the score calculator 12 has calculated a score of "10", then the drive unit switches 13A light-emitting elements all LEDs 8 ₁ to LED 8 ₈ one. In other words, the target device changes combinations of LEDs to be turned on, depending on the number of points scored by the score calculator 12A has been calculated. Typically, at least 10 LEDs would be required to display scores "0" to "10". However, according to the present embodiment, the number of LEDs required can be reduced from 10 to 8, since some scores are expressed by changing the combinations of the LEDs to be turned on.

In the present embodiment, the LEDs from the left bottom are under the target 4 in 3A turned counterclockwise in steps as the score increases. However, the LEDs can be turned on gradually in a clockwise direction. The number of LEDs used can be further reduced by using a binary representation of the scores. According to the invention, the LEDs may be turned on in any turn-on pattern, as long as they allow the shooter to read the scores he has achieved. While the target 4 In the present embodiment, a solid plate may comprise a sheet of film or paper.

2nd embodiment:

4A shows in a front elevation the target device according to a second embodiment, which does not form part of the present invention, and 4B shows in block form a circuit arrangement of the target device according to the second embodiment.

As in 4A As shown in FIG. 2, the target device according to the second embodiment has an LED group 9 on, the eight LEDs 9 ₁ to 9 ₈ that covers the target 4 are arranged. According to the second embodiment, eight LEDs 9 ₁ to 9 ₈ the LED group 9 used to give an approximate indication of an impact position on the target 4 instead of giving a number of points. As in 4B also shown, the target device has an impact position detector 11 and a drive unit 13B light-emitting elements. The drive unit 13B light-emitting elements switches the LED group 9 depending on an impact position on the target 4 one. It is now assumed that the impact position on the target 4 through a point A in 4A is represented. The position (x, y) of the point A is calculated according to the equations (1), (2) described above. A line segment OA extends from the center O of the target 4 to the point A. The point A is between a line segment OB extending from the center O to the LED 9 ₁ extends, and arranged a line segment OC, which extends from the center O to the LED 9 ₅ extends. An angle θ _{1 formed} between the line segments OA, OB is smaller than an angle θ _{2 formed} between the line segments OA, OC. The drive unit 13B light-emitting elements switches the LED 9 ₄ on the line segment OB. Consequently, if the shooter is the target 4 hits at a certain impact position, the drive unit switches 13B for light emitting elements one LED of all LEDs 9 ₁ to 9 ₈ the LED group 9 such that the angle formed between a line segment extending from the center O to this LED and a line segment extending from the center O to the landing position is minimum. In other words, the scoring areas are on the target 4 through eight LEDs 9 ₁ to 9 ₈ at the same angles around the target 4 are divided into eight angular zones at equal angles (45 °) about the center O, and the drive unit 13B light-emitting elements determines in which of the divided angle zones the impact position is located, and turns on an LED belonging to the detected angular zone. The shooter can confirm from the firing point in which direction the impact position deviates from the center O. In general, in rifle shooting competitions, most impact positions are concentrated on score areas representing the scores "7" to "10", ie, score areas near the center O. Therefore, the direction in which the landing position deviates from the center O becomes the shooter's is more important information than the distance that the impact position deviates from the center O to correct its shooting activity. The aiming device displays the deviation direction in accordance with the second information to give the shooter an indication of the deviation direction of the landing position. The shooter confirms the indicated deviation direction and corrects his shooting activity based on the confirmed rejection chung direction.

Alternatively, an LED of all LEDs 9 ₁ to 9 ₈ the LED group 9 which is linearly closest to the point A of the impact position, are turned on to give the shooter an approximate indication of the impact position.

3rd embodiment:

5A shows in a front elevation the target device according to a third embodiment, which does not form part of the present invention, and 5B shows in block form a circuit arrangement of the target device according to the third embodiment. The aiming apparatus according to the third embodiment has an LED group 9 of eight LEDs 9 ₁ to 9 ₈ on, the target 4 arranged as in the second embodiment. As in 5B Also, the aiming apparatus according to the third embodiment has an impact position detector 11 and a drive unit 13C light-emitting elements.

It is now assumed that the impact position on the target 4 through a point A in 5A is represented. The point A is between a line segment OB extending from the center O to the LED 9 ₄ extends, and arranged a line segment OC, which extends from the center O to the LED 9 ₅ extends. An angle θ _{1 formed} between the line segments OA, OB is smaller than an angle θ _{2 formed} between the line segments OA, OC. According to the third embodiment, the drive unit switches 13C light-emitting elements also the LED 9 ₄ on the line segment OB as in the target device according to the second embodiment.

If the difference between the angle θ ₁ and the angle θ _{2 is} at most a predetermined angle of 11.25 °, then the driving unit switches 13C light-emitting elements not only the LED 9 ₄ but also the LED 9 ₅ one. If the shooter activates both LEDs 9 ₄ 9 ₅ sees, the shooter becomes aware of the fact that the impact position from the center O in an intermediate direction between the LEDs 9 ₄ . 9 ₅ differs. In the target device according to the third embodiment, therefore, determines the drive unit 13C light-emitting elements, an LED (first light-emitting element, ie LED 9 ₄ in 5A ), all LEDs 9 ₁ to 9 ₈ the LED group 9 such that the angle formed between a line segment extending from the center O to this LED and a line segment OA extending from the center O to the landing position (point A) is smallest (first angle, ie, θ ₁ in 5A ), and an LED (second light-emitting element, ie LED 9 ₅ in 5A ), so that the angle formed between a line segment extending from the center O to this LED and a line segment OA is the next smallest (second angle, ie, θ ₂ in FIG 5A ). Then the drive unit switches 13C light-emitting elements, the first light-emitting element (LED 9 ₄ ), and also switches the second light-emitting element (LED 9 ₅ ) when the difference between the first angle and the second angle is at most a predetermined angle.

If the predetermined angle is 22.5 °, then the scoring areas on the target can 4 divided into 16 angular zones with equal angles (22.5 °) around the center O. With this arrangement, although the number of LEDs used in the aiming apparatus according to the third embodiment is the same as the number of LEDs used in the aiming apparatus according to the second embodiment, the resolution with which the direction of the impact position relative to the center of the target 4 is to be twice the resolution of the aiming device according to the second embodiment, that is, can be represented by 16 angle zones.

The aiming apparatus according to the third embodiment can meet landing positions with simple turn-on patterns of the LED group 9 Show. Because such simple turn-on pattern of the LED group 9 can be visually perceived from a remote location, the shooter who is far away from the target can easily see the landing position without the need for a display device to display an image of the target near the shooting point where the shooter is located.

4th embodiment:

6A shows in a front elevation the target device according to a fourth embodiment, which forms part of the present invention, and 6B shows in block form a circuit arrangement of the target device according to the fourth embodiment. The aiming apparatus according to the fourth embodiment has an LED group 8th (first group of light-emitting elements) of eight LEDs 8 ₁ to 8 ₈ and an LED group 9 (second group of light-emitting elements) of eight LEDs 9 ₁ to 9 ₈ on that around the target 4 are arranged.

As in 6B Also, the aiming apparatus according to the fourth embodiment has an impact position detector 11 , a score calculator 12A and a drive unit 13D light-emitting elements.

The LED group 8th serves to get one through the score calculator 12A display the calculated score, and the LED group 9 serves one by the impact position detector 11 detected Display landing position. Both LED groups 8th . 9 be through the drive unit 13D turned on light-emitting elements. As in the first and second embodiments, the LEDs are 8 ₁ to 8 ₈ and LEDs 9 ₁ to 9 ₈ arranged so that all straight lines (which are indicated by the dotted lines in 6A displayed), extending from the center of the target 4 to respective LEDs 8 ₁ to 8 ₈ and respective LEDs 9 ₁ to 9 ₈ extend, are at 45 ° angularly spaced from other adjacent straight lines. In the fourth embodiment, the LED group is 9 outside the LED group 8th arranged. However, the LED groups are 8th . 9 not limited to the design that in 6A is shown, but the LED group 8th can outside the LED group 9 be arranged.

In the target device according to the fourth embodiment, the LED group emit 8th and the LED group 9 Light in different colors. For example, the LEDs include 8 ₁ to 8 ₈ the LED group 8th red light-emitting diodes, and the LEDs 9 ₁ to 9 ₈ the LED group 9 include green light emitting diodes. This differently colored light emission from the LED group 8th and the LED group 9 is effective to prevent the shooter from messing up score scores and landing position scores.

According to the fourth embodiment, the LED group 8th for displaying dots in the same power-on patterns as in the first embodiment, and the LED group 9 for indicating the landing positions is turned on in the same power-on patterns as in the second and third embodiments.

5th embodiment:

7A shows in a front elevation the target device according to a fifth embodiment, which forms part of the present invention, and 7B shows in block form a circuit arrangement of the target device according to the fifth embodiment. The aiming apparatus according to the fifth embodiment has an LED group 19 of eight LEDs 19 ₁ to 19 ₈ which can be turned on in power-on patterns that depend on one by a score calculator 12A calculated point number can be changed, and can also be switched on in turn-on patterns, which depends on one by an impact position detector 11 detected impact position to be changed.

As in 7B 1, the aiming apparatus according to the fifth embodiment also has an impact position detector 11 , a score calculator 12A , and a drive unit 13E light-emitting elements. The drive unit 13E light-emitting elements switches an LED group 19 to indicate a score and an impact position in a time division manner, or preferably alternately in an intermittent manner.

Each of the LEDs 19 ₁ to 19 ₈ the LED group 19 has a two-color LED for selective color emission in two colors. When each of the LEDs 19 ₁ to 19 ₈ a two-color LED for selective color emission in red and green, then controls the drive unit 13E light-emitting elements the LEDs 19 ₁ to 19 ₈ such that they emit red light to display scores and emit green light to indicate landing positions. Because the LED group 19 For the display of scores and landing positions emitted light in different colors, the shooter can easily distinguish between scores and impact position displays.

According to the fifth embodiment, the LED group 19 for displaying dots in the same power-on patterns as in the first embodiment, and the LED group 19 is turned on to display landing positions in the same power-on patterns as in the second and third embodiments.

Unless an LED group 19 is capable of displaying both dot numbers and landing positions with bi-color LEDs, the number of LEDs used may be smaller than the number of LEDs used in the fourth embodiment. Therefore, the aiming device according to the fifth embodiment is relatively inexpensive and small.

6th embodiment:

8A shows in a front elevation the target device according to a sixth embodiment, which forms part of the present invention, and 8B shows in block form a circuit arrangement of the target device according to the sixth imple mentation form. The aiming apparatus according to the sixth embodiment has an LED group 8th of eight LEDs 8 ₁ to 8 ₈ on, as in the target device according to the first embodiment. According to the sixth embodiment, at least one of the LEDs 8 ₁ to 8 ₈ , eg the LEDs 8 ₁ to 8 ₃ as a ready lamp for indicating that the shooter can fire a beam of light and at least one of the LEDs 8 ₁ to 8 ₈ , eg the LEDs 8 ₅ to 8 ₇ , is used as a busy lamp to indicate that the shooter can not fire a beam of light. The LEDs 8 ₁ to 8 ₃ , who play a dual role as the ready lamp, are under the target 4 arranged. Therefore, if the shooter holds the laser rifle and hits the target 4 aims are the LEDs 8 ₁ to 8 ₃ in front of the shooter's gaze hides the rifle barrel, and thus the ready light does not interfere with the shooting activity of the shooter. The LEDs 8 ₅ to 8 ₇ , who play a dual role as the busy lamp, are over the target 4 arranged. Therefore, if the shooter holds the laser rifle and hits the target 4 aims are the LEDs 8 ₅ to 8 ₇ Present in the field of sight of the shooter, which allows the shooter to easily recognize that the shooter can not fire a beam of light.

As in 8B 1, the aiming apparatus according to the sixth embodiment also includes an impact position detector 11 , a score calculator 12 and a drive unit 13F light-emitting elements. The drive unit 13F light emitting elements operates the LED group 8th in response to a signal from an external source, selectively as the standby lamp or the busy lamp.

Since according to the sixth embodiment, the LEDs 8 ₁ to 8 ₈ the LED group 8th When the standby lamp and the busy lamp play a dual role, a separate standby lamp and busy lamp need not be provided, and thus the number of LEDs used can be reduced.

In the target devices according to the second to fifth embodiments can the LED group or groups as a standby lamp and a Busy lamp working.

7th embodiment:

9A shows in perspective the target device according to a seventh embodiment, which forms part of the present invention, and 9B shows in block form a circuit arrangement of the target device according to the seventh embodiment. Targets arranged at different distances from the laser rifle (which in 9A not shown), eg the target 4 (located 10 m from the laser rifle) and the target 4 ' (which is located 25 m from the laser rifle), which is located in 1 have different scoring ranges. Even if an impact position remains the same on the different targets, it is necessary for a score calculator to use a score calculation equation that depends on the score areas of the target that is actually attached to the target apparatus. As in 9A 11, the aiming apparatus according to the seventh embodiment has a target setting switch 10 which can be operated by the user to set the type of target actually attached to the aiming device.

As in 9B 1, the aiming apparatus according to the seventh embodiment also has a target setting switch 10 , an impact position detector 11 , a score calculator 12B and a drive unit 13A light-emitting elements. Depending on the type of target, by the user using the target setting switch 10 has been set, sets the drive unit 13A light-emitting elements a score calculation equation for determining a score from an impact position on the target fixed, and calculates a score according to the specified equation. Therefore, the aiming device can display an accurate score depending on the type of the target actually attached to the aiming device.

The target adjustment switch 10 can be incorporated into the aiming devices according to the fourth to sixth embodiments.

8th embodiment:

10 shows in block form a circuit arrangement of the target device according to an eighth embodiment which forms part of the present invention. The aiming apparatus according to the eighth embodiment has a target disk detector 14 for automatically detecting the type of target actually attached to the target device, in addition to an impact position detector 11 , a score calculator 12B and a drive unit 13A light-emitting elements. The target disk detector 14 includes a pull-up resistor 14a and a detector 14b , The resistance 15 , which is installed in the target, is electrically connected to the detector 14b connected. The one port of the detector 14b is with the pullup resistor 14a connected and whose other terminal is connected to ground. The resistance 15 has a resistance that varies depending on the type of target used, eg, the target 4 or the target 4 ' , If the target 4 attached to the aiming device are the ends of the target 4 built-in resistor 15 electrically with the detector 14b connected, the resistance of the resistor 15 read, the type of target attached 4 detected and the detected type to the score calculator 12B outputs.

After he with the detected type from the detector 14b the score calculator sets 12B an impact position on the target 4 passing through the impact position detector 11 is detected in the score calculation equation which depends on the detected type, calculates a score according to the score calculation equation, and supplies the calculated score to the drive unit 13A lichtemittie render elements. The score is displayed in the manner described above in the first embodiment.

As according to the eighth embodiment, the in the score calculator 12B is used, the user finds it less cumbersome to change the target than with the seventh embodiment, and many errors associated with the setting of the type of target used are eliminated.

According to the eighth embodiment, the type of target used is based on the resistance of the resistor 15 detected, which is installed in the target. However, the type of target used may be detected by the reading of information stored in an IC chip built in the target, magnetic information built into the target, or a pattern of slots recorded in the target Target are arranged.

The target disk detector 14 may be incorporated in the aiming devices according to the fourth to sixth embodiments.

9th embodiment:

11A shows in perspective the target device according to a ninth embodiment, which forms part of the present invention, and 11B shows in block form a circuit arrangement of the target device according to the ninth embodiment.

As in 11A As shown, the aiming device holds a square target 4 centrally on its front, with the target 4 has circular score areas around its center, as in 2 shown. The target 4 is on a housing of the target device by four screws 5 attached to their corners.

The aiming device has a loudspeaker 18 mounted on a side wall of its housing for generating speech or an electronic sound representative of an impact position and a score based on the impact position when one of the (in 11A not shown) laser gun fired light beam the target 4 meets. The speaker 18 may be attached to any areas of the aiming device where the target 4 not attached, instead of on a side wall of its housing.

As in 11B 1, the aiming apparatus according to the ninth embodiment also has an impact position detector 11 , a score calculator 12A and a sound output control device 17 on. When the impact position detector 11 an impact position on the target 4 detected at the time when a laser beam fired from the laser gun, the target 4 the sound output control device controls 17 the speaker 18 such that it emits an electronic tone indicating that the beam of light fired from the laser gun is the target 4 meets. In rifle shooting activities using actual projectiles, the sound generated when a projectile is fired from the rifle is much louder than the sound generated when the projectile actually hits the target. In order to give the shooter with the aiming device according to the ninth embodiment a feeling which is analogous to an actual shooting activity using a real projectile, it is preferable to remove the electronic sound from the speaker 18 at the time the light beam is emitted from the laser gun. However, regardless of whether a real projectile is fired from the real rifle or a beam of light is emitted from the laser rifle, the amount of time elapsed after the shooter pulls the trigger until the real projectile or the light beam hits the target can become quite In short, the shooter has a feeling similar to a gun shooting activity that uses a real projectile, with an electronic sound that simulates a real shot from the speaker 18 at the time the light beam emitted from the laser gun hits the target 4 meets.

The impact position detector 11 detects an impact position of the light beam emitted from the laser gun, as in the above embodiments. The score calculator 12A also calculates a score based on the impact position generated by the impact position detector 11 is detected, as in the above embodiments. There will be information provided by the scorecard 12A calculated number of points to the sound output control device 17 sent the speaker 18 so controls that he gives off a tone that represents the score that on the by the score calculator 12A calculated score. For example, the calculated score as speech information from the speaker 18 be issued. If the score is equal to or higher than a predetermined score, then voice information or a melody indicating that the score is equal to or higher than the predetermined score may be output from the speaker 18 be issued. When hearing such a sound, the shooter can get a hearing recognition of the score of the shot.

In the ninth embodiment, sound information is output from the speaker 4 delivered on impact positions on the target 4 and scores that depend on the landing positions. The visual display system for displaying landing positions and dots with LEDs according to any one of the above embodiments may be combined with the system according to the ninth embodiment to generate a presentation of the landing positions and scores.

While preferred Embodiments of have been described in specific terms Such description is for illustrative purposes only.

Claims (19)

Targeting device comprising: a target ( 4 ); a group ( 8th ) light-emitting elements close to the target ( 4 ) is arranged; an impact position detection device ( 11 ) for detecting an impact position on the target ( 4 ); a score calculation device ( 12 ) for calculating a score based on the impact position detected by the impact position detection means (16). 11 ) is detected; and a drive device ( 13 ) the group of light-emitting elements for switching on the group ( 8th ) light emitting elements depending on the calculated score, where the group ( 8th ) light-emitting elements a plurality of light-emitting elements ( 8 ₁ - 8 ₈ ), which are arranged at substantially equally spaced intervals around the target, characterized in that the drive means ( 13 ) of the group of light-emitting elements has a device for switching-on the light-emitting elements ( 8 ₁ - 8 ₈ ) depending on the number of points generated by the score calculation device ( 12 ) is calculated. A sighting device according to claim 1, further comprising a second group ( 9 ) light-emitting elements which can be switched on in turn-on patterns, which vary depending on the impact position, which is determined by the impact position detection device ( 11 ) is detected. Targeting device according to claim 2, wherein the group ( 8th ) light-emitting elements and the second group ( 9 ) light-emitting elements are switched on, each to emit light in different colors. Targeting device according to one of claims 1 to 3, wherein the driving device ( 13 ) of the group of light-emitting elements has means for switching on the group of light-emitting elements in order to display the point number and the impact position in a time division manner. Targeting device according to claim 4, wherein the group ( 8th ) light-emitting elements and the second group ( 9 ) light-emitting elements are turned on alternately in an intermittent manner. Targeting device according to claim 1, wherein the group ( 8th ) light-emitting elements a plurality of light-emitting elements ( 8 ₁ - 8 ₈ ), each of the light-emitting elements ( 8 ₁ - 8 ₈ ) has a bicolor light emitting diode for emitting light in two colors. Targeting device according to claim 6, wherein the driving device ( 13 ) the group of light-emitting elements comprises means for switching on the light-emitting elements ( 8 ₁ - 8 ₈ ) to display the score and the landing position in different colors. Targeting device according to one of claims 1 to 7, wherein the group ( 8th ) light-emitting elements a plurality of light-emitting elements ( 8 ₁ - 8 ₈ ), wherein at least one of the light emitting elements is operable as a standby lamp for indicating that a shooter is aimed at the target 4 ) can shoot. A sighting device according to claim 8, wherein the at least one of the light-emitting elements operable as the ready light is under the target (16). 4 ) is arranged. Targeting device according to one of claims 1 to 9, wherein the group ( 8th ) light-emitting elements a plurality of light-emitting elements ( 8 ₁ - 8 ₈ ), wherein at least one of the light-emitting elements is operable as a busy lamp for indicating that a shooter is not aimed at the target 4 ) can shoot. A sighting device according to claim 10, wherein the at least one of the light-emitting elements operable as the busy lamp overlays the target (10). 4 ) is arranged. A sighting apparatus according to any one of claims 1 to 11, further comprising: a switch ( 10 ) for setting a type of target ( 4 ), which is installed on the spot. A sighting apparatus according to claim 12, wherein said score calculating means (15) 12 ) has means for obtaining an equation for calculating the score from the landing position depending on the type of the target ( 4 ) to change through the switch ( 10 ) is set. Targeting device according to one of claims 1 to 13, further comprising: a detection device ( 14 ) for automatic detection of a type of target ( 4 ), which is installed on the spot. Targeting apparatus according to claim 14, wherein the score calculating means ( 12 ) has means for obtaining an equation for calculating the score from the hit position depending on the type of the target ( 4 ) to be changed by the detection device ( 14 ) is detected automatically. Targeting device according to claim 14 or 15, wherein the detection device ( 4 ) a device for detecting the type of target ( 4 ), which is mounted in place, by measuring the resistance of a resistor which is placed in the target ( 4 ) installed in place. Targeting device according to claim 14, 15 or 16, wherein the detection device ( 14 ) a device for detecting the type of target ( 4 ) mounted in place by measuring information stored in an IC chip in the target ( 4 ) installed in place. Targeting device according to claim 14, 15, 16 or 17, wherein the detection device ( 14 ) a device for detecting the type of target ( 4 ), which is mounted in place, by measuring magnetic information contained in the target ( 4 ) are installed, which is mounted in place. Targeting device according to one of claims 14 to 18, wherein the detection device ( 14 ) a device for detecting the type of target ( 4 ), which is mounted in place, by measuring a pattern of slits formed in the target ( 4 ), which is mounted in place.