CN110425938B - Electronic circular target, target reporting system and shooting result processing method - Google Patents

Abstract

The invention discloses an electronic circular target, a target reporting system and a shooting result processing method, which use conductors with equidistant stripes as sensors and weak current, wherein electrodes between two adjacent conductors are different, and as the surface of a simulated bullet is in a wet state and can conduct electricity, when the simulated bullet, such as a crystal bullet, hits any position of a target body, the conductive surface of the simulated bullet can conduct the adjacent two conductors to generate current pulses, so that the current pulses are used as feedback signals for detecting the hit of the simulated bullet. The invention also solves the problem that the physical target cannot be recycled, is green and environment-friendly, and improves the reality and reliability of simulated bullet shooting. The invention sets the functions of counting the number of rings and counting the number of times, when the target is hit, the total number of rings is broadcasted, the shooting interest is improved, in addition, the invention can rely on the crystal bullet, the true shooting experience is given to people, the shot crystal bullet is in the sky with a radian, and the simulation of shooting is very lifelike in cooperation with a certain recoil.

Description

Electronic circular target, target reporting system and shooting result processing method

Technical Field

The embodiment of the invention relates to the technical field of shooting, in particular to an electronic circular target, a target reporting system and a shooting result processing method.

Background

As is well known, conventional crystal bullets are spherical semitransparent elastic breakable toy bullets made of super absorbent resin and having a diameter of 7-8 mm. The circular target is a shooting target, generally, 1-10 rings are arranged, the center is circular, the area is minimum, the fraction is 10 rings, and the fraction is highest after shooting; the score areas are divided in a circle around the circle, the lower the score the farther from the center.

Currently, there are two types of shooting targets that are most widely used in the market:

first category: the photoelectric target emits a wave from the gun when in work, the photoelectric target senses and calculates the number of rings of the gun through an algorithm, and the target has the function of automatic target reporting.

The existing photoelectric target shooting adopts a simulation gun for emitting laser, the laser within one milliwatt is emitted, the laser is emitted to the target by utilizing the principle that light propagates along a straight line, and a light sensor arranged on the target receives a light signal and then converts the light signal into an electric pulse signal to be transmitted to a singlechip for processing, and the number of rings shot is output. And the voice target reporting module and the target are integrated, if the shooting distance is far, the condition that the target reporting is not timely and the sound cannot be heard can be caused.

In addition, the laser simulation gun is adopted, and the firing is not a "live bullet", is a virtual light signal, and has insufficient experience for real shooting. Because the target adopts laser aiming shooting, light rays can only be transmitted along a straight line, the requirement on shooting difficulty is low, and the influence on shooting reality is large. The laser simulation gun has higher requirements on the light environment, and a smooth plane which can reflect laser and is similar to a mirror, smooth marble and the like cannot appear on the field, otherwise, the recognition accuracy is affected.

A second class; the method is a traditional paper target, namely a physical target, namely a bullet is directly hit on the paper target, and the score is judged manually through marks left on the paper target.

The bullet of the physical target often generates irreversible damage to the target, belongs to disposable products, has high cost and does not accord with the concept of environmental protection. The use efficiency of the physical target is low, the target is required to be reported manually, and the use of a large number of people in a large number of occasions cannot be met. Once the front bullet and the rear bullet of the physical target are overlapped, the achievement is difficult to be recognized. The shooter can not know the score in real time by using the real object target, and can not know the score until all the bullets are shot.

Disclosure of Invention

Therefore, the embodiment of the invention provides an electronic circular target, a target reporting system and a shooting result processing method, which solve the defects of a photoelectric target and a physical target in the prior art, and the target reporting is timely, the shooting real experience is strong, and the environment is protected.

In order to achieve the above object, the embodiment of the present invention provides the following technical solutions: the electronic circular target is provided with a shooting gun, the shooting gun is used for simulating shooting of bullets, the electronic circular target comprises a target body, the target body is outwards expanded at the center position and is sequentially provided with equidistant conductors, electrodes of two adjacent conductors are unequal, and the distance between the two adjacent conductors is larger than the width of the conductor; the distance between the three continuous conductors is smaller than the diameter of the contact surface between the simulated bullet and the target body, and the simulated bullet hits the target body to conduct at least two conductors.

As a preferable scheme of the electronic circular target, the conductors are made of copper-iron or iron-lithium materials, and the conductors made of copper-iron or iron-lithium materials are arranged at intervals.

As a preferable scheme of the electronic circular target, the width of each conductor is m, the distance between two adjacent conductors is 2m, and m is a positive integer.

As a preferable scheme of the electronic circular target, the simulated bullet is a crystal bullet, the crystal bullet adopts super absorbent resin, and the crystal bullet is adsorbed with conductive substances.

As a preferred scheme of the electronic circular target, the conductor on the target body is divided into 10 areas, and the colors of the conductors between adjacent areas in the 10 areas are different.

The embodiment of the invention also provides a target reporting system, which comprises the electronic circular target, wherein the electronic circular target is provided with a shooting gun, the shooting gun is used for simulating shooting of bullets, and the target reporting system further comprises a current detection circuit, a microprocessor, a wireless transmission module and a voice playing terminal, wherein the current detection circuit is used for detecting pulse current between conductors after the simulated bullets are shot on the surface of the conductors, the microprocessor is electrically connected with the current detection circuit, the microprocessor is used for processing shooting results of the simulated bullets according to the pulse current, the wireless transmission module is electrically connected with the microprocessor, and the wireless transmission module is used for transmitting the shooting results of the simulated bullets; the voice playing terminal adopts a wireless voice player, a connection relationship is established between the voice playing terminal and the wireless transmission module, and the voice playing terminal is used for broadcasting the shooting result of the received simulation bullet.

The embodiment of the invention further provides a shooting result processing method, which comprises the following steps:

The conductors on the target body are arranged and divided into areas, the electrodes of two adjacent conductors are unequal, the distance between the two adjacent conductors is larger than the width of the conductor, the distance between three continuous conductors is smaller than the diameter of the contact surface between the simulated bullet and the target body, and the simulated bullet hits the target body to conduct at least two conductors;

performing voice configuration on each conductor region, wherein the voice configuration comprises a region ring number result of the conductor;

Acquiring pulse current after the simulated bullet shoots on the surface of the conductor on the target body, detecting the pulse current and judging whether the pulse current is larger than a preset current threshold value, a) judging that the simulated bullet hits the target body when the pulse current is larger than the preset current threshold value; b) When the pulse current is smaller than or equal to a preset current threshold value, judging that the simulated bullet does not hit the target body;

And judging the area of the conductor which is hit by the simulated bullet according to the pulse current, and playing the voice loop number result configured in the hit area.

As a preferable mode of the firing result processing method, whether there is a continuous change in the resistance value between the adjacent two conductors is detected in a preset period of time, and when the resistance value between the adjacent two conductors is continuously changed, it is determined that there is a simulated bullet residue on the surface of the conductor.

As a preferable scheme of the shooting result processing method, a residue early warning threshold value is preset, and when the resistance value between two conductors exceeds the residue early warning threshold value, a user is reminded to clean the simulated bullet residues.

As a preferable scheme of the shooting result processing method, the shooting times and the shooting ring number results of the user are counted, and the shooting result is played according to a preset broadcasting mode, wherein the broadcasting mode comprises the sum and the average of the shooting ring number of the preset times.

As a preferable scheme of the shooting result processing method, the conductors are made of copper-iron or iron-lithium materials, and the conductors made of copper-iron or iron-lithium materials are arranged at intervals; the width of each conductor is m, the distance between every two adjacent conductors is 2m, and m is a positive integer; the simulated bullet is a crystal bullet, the crystal bullet adopts super absorbent resin, and the crystal bullet is adsorbed with conductive substances; the conductors on the target body are divided into 10 areas, and the colors of the conductors between adjacent areas in the 10 areas are different.

The invention innovatively uses conductors with equidistant stripes as a sensor and has weak current, and electrodes between two adjacent conductors are different, because the surface of the simulated bullet is in a wet state and can conduct electricity, when the simulated bullet, such as a crystal bullet, hits any position of a target body, the conductive surface of the simulated bullet can lead the two adjacent conductors to conduct, and current pulses are generated, so that the current pulses are used as feedback signals for detecting the hit of the simulated bullet.

In addition, the invention innovatively establishes the independent wireless voice target, thereby being convenient for operators to clearly and immediately hear the shooting result, having light weight, small volume and convenient carrying, and solving the problems of long distance, untimely target reporting and the like of the traditional target reporting.

The invention also solves the problem that the physical target cannot be recycled, is green and environment-friendly, and improves the reality and reliability of simulated bullet shooting. In addition, the invention can rely on the crystal bullet to give a real shooting experience, and the shot crystal bullet is in an radian in the air, and is matched with a certain recoil force, thus being very vivid to the simulation of shooting.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It will be apparent to those of ordinary skill in the art that the drawings in the following description are exemplary only and that other implementations can be obtained from the extensions of the drawings provided without inventive effort.

The structures, proportions, sizes, etc. shown in the present specification are shown only for the purposes of illustration and description, and are not intended to limit the scope of the invention, which is defined by the claims, so that any structural modifications, changes in proportions, or adjustments of sizes, which do not affect the efficacy or the achievement of the present invention, should fall within the scope of the invention.

FIG. 1 is a schematic view of an electronic ring target structure according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of a target reporting system according to an embodiment of the present invention;

fig. 3 is a schematic diagram of a shooting result processing method according to an embodiment of the present invention.

Detailed Description

Other advantages and advantages of the present invention will become apparent to those skilled in the art from the following detailed description, which, by way of illustration, is to be read in connection with certain specific embodiments, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1, an electronic ring target is provided, the electronic ring target is configured with a shooting gun 4, the shooting gun 4 is used for simulating shooting of a bullet 3, the electronic ring target comprises a target body 1, electrodes of two adjacent conductors 2 are unequal, the distance between the two adjacent conductors 2 is larger than the width of the conductors 2, the distance between three continuous conductors 2 is smaller than the diameter of the contact surface between the simulated bullet 3 and the target body 1, and the simulated bullet 3 hits the target body 1 to conduct at least two conductors 2.

Specifically, the simulated bullet 3 is a crystal bullet, the crystal bullet adopts super absorbent resin, and the crystal bullet is adsorbed with conductive substances. The conductors 2 are made of copper-iron or iron-lithium materials, and the conductors 2 made of copper-iron or iron-lithium materials are arranged at intervals. The two adjacent conductors 2 are made of different materials, taking the copper-iron material as an example of the conductors 2, the conductors 2 are arranged at intervals of copper and iron, when the crystal ball shoots on the surface of the conductors 2, the adjacent conductors 2 are conducted, so that pulse current is generated, and the generated pulse current is used as a feedback signal for detecting the impact of the crystal ball. Depending on the experience of real shooting of a crystal bullet emitter, the emitted crystal bullet is in an radian in the air, and is matched with a certain recoil, so that the simulation of shooting is very realistic. The conductive material may be an electrolyte, such as a copper sulphate solution, or a liquid containing conductive impurities, such as tap water or well water, in order to allow the surface of the crystal bullet to conduct electricity.

Circular conductors 2 with different diameters are distributed on the target body 1, and a certain interval distance is reserved between every two adjacent circular conductors, for example, the width of each conductor 2 is designed to be 1mm, and the interval between every two adjacent conductors 2 is designed to be 2mm. The key to sensing is that when the crystal is fired to that location, the resistance of the distance changes, thereby producing a change in current, and ultimately a change in voltage, which is then signaled to the microcontroller for processing. In addition, the distance between the three continuous conductors 2 is smaller than the diameter of the contact surface between the simulated bullet 3 and the target body 1, so that at least two conductors 2 are conducted after the simulated bullet 3 hits the target body 1.

Specifically, the electric conductor 2 on the target body 1 is divided into 10 areas, and the colors of the electric conductors 2 in the 10 areas are alternately black and white. The target body 1 is provided with a plurality of circular conductors with different diameters, which can be divided into 1 to 10 rings, and each adjacent ring number is distinguished by different colors for easier distinguishing of ring number information, for example, the color of the target body 1 is black, the adjacent color can be white, or other colors, of course, the target body 1 can also be other colors, and the adjacent colors can be distinguished by different other colors. In any case, no matter any color, only the effect of distinguishing the ring numbers is needed.

Based on the idea of the present embodiment, the target body 1 may be comb-shaped, or may take other shapes, such as a groined shape, to detect the number of middle bullets of the water bullet. Instead of firing a crystal, a bullet of another material shape may be used to achieve the desired effect, provided that it is electrically conductive. For example, using a water bomb containing impurities.

Referring to fig. 2, an embodiment of the present invention further provides a target reporting system, where the target reporting system includes the electronic circular target described above, where the electronic circular target is configured with a shooting gun 4, where the shooting gun 4 is used for simulating shooting of a bullet 3, and further includes a current detection circuit 5, a microprocessor 6, a wireless transmission module 7, and a voice playing terminal 8, where the current detection circuit 5 is used for detecting a pulse current between the conductors 2 after the simulated bullet 3 shoots onto the surface of the conductors 2, the microprocessor 6 is electrically connected with the current detection circuit 5, the microprocessor 6 is used for processing a shooting result of the simulated bullet 3 according to the pulse current, the wireless transmission module 7 is electrically connected with the microprocessor 6, and the wireless transmission module 7 is used for transmitting the shooting result of the simulated bullet 3; the voice playing terminal 8 adopts a wireless voice player, a connection relationship is established between the voice playing terminal 8 and the wireless transmission module 7, and the voice playing terminal 8 is used for broadcasting the shooting result of the received simulation bullet 3.

The embodiment innovatively establishes the independent voice playing terminal 8, the voice playing terminal 8 adopts a wireless voice player, so that an operator can hear the target clearly and instantly, the weight is light, the volume is small, the portable device is convenient, and a uniformly configured 20mm guide rail can be arranged to facilitate the installation on the crystal bullet emitter instead of the target, thereby solving the problems of long distance, untimely target reporting and the like of the traditional target reporting.

Specifically, the current detection circuit 5 may use MAX44284, which integrates high-precision and wide input common mode range. 2 mu V input offset voltage, gain error of only 0.05%, extremely low input offset temperature coefficient: 50nV/°C, -0.1V to +36V wide input common mode range, low offset drift and input noise, providing shutdown control, saving battery power.

Referring to fig. 3, an embodiment of the present invention further provides a shooting result processing method, including the following steps:

S1: the conductors 2 on the target body 1 are arranged and divided into areas, the electrodes of two adjacent conductors 2 are unequal, the distance between two adjacent conductors 2 is larger than the width of the conductor 2, the distance between three continuous conductors 2 is smaller than the diameter of the contact surface between the simulated bullet 3 and the target body 1, and the simulated bullet 3 hits the target body 1 to conduct at least two conductors 2;

s2: performing voice configuration on each conductor 2 region, wherein the voice configuration comprises a region ring number result of the conductor 2;

S3: acquiring pulse current of the simulated bullet 3 shot on the surface of the conductor 2 on the target body 1, detecting the pulse current and judging whether the pulse current is larger than a preset current threshold value, a) judging that the simulated bullet 3 hits the target body 1 when the pulse current is larger than the preset current threshold value; b) When the pulse current is smaller than or equal to a preset current threshold value, judging that the simulated bullet 3 does not hit the target body 1;

S4: and judging the area of the conductor 2 hit by the simulated bullet 3 according to the pulse current, and playing the voice loop number result configured in the hit area.

Specifically, the implementation principle of step S4 is that, since the target body 1 has 10 groups of annular conductive areas with different diameters, the annular conductive areas can be numbered 1 to 10, the outermost area is 1 ring, the number of rings of the area which is more inward is larger, and the central area is 10 rings. The microprocessor 6 sends data such as "1" when loop 1 is sensed, data such as "2" when loop 2 is sensed, and so on, and sends data such as "10" when loop 10 is sensed. In short, the data sent by each ring is different and is transmitted to the voice playing terminal 8 in a wireless mode, the microcontroller of the voice playing terminal 8 receives different data, and the voice playing terminal plays different numbers of rings according to different data.

In one embodiment of the firing result processing method, the method further includes detecting whether there is a continuous change in the resistance value between the adjacent two conductors 2 within a preset period of time, and determining that there is a residue of the simulated bullet 3 on the surface of the conductor 2 when the resistance value between the adjacent two conductors 2 continuously changes. In addition, a residue early warning threshold is preset, and when the resistance value between the two conductors 2 exceeds the residue early warning threshold, a user is reminded to clean the residue of the simulation bullet 3.

Specifically, taking a crystal ball as an example, after the crystal ball is shot, a small probability that a large residue left by the crystal ball is attached to the upper surface of the conductor 2 during the shooting process, the resistance value between every two adjacent conductors 2 is affected to a certain extent, a user does not know when to start the effect, the next shooting is affected, in order not to affect the user experience, the detection of the water ball residue is performed, whether the resistance value between every two adjacent conductors 2 of the target body 1 continuously changes or not is detected within a certain duration, if so, the crystal ball residue is considered, information is transmitted to a microcontroller of the receiving end voice playing terminal 8 to prompt the user in a voice mode of displaying and the existence of the crystal ball residue, and the electric target needs to be cleaned and shot is performed.

If there is a water bullet residue, the residue will adhere to the electric target for a period of time, and the microprocessor 6 counts the time, if this has not disappeared after a certain time, it is considered that there is a water bullet residue, and if it has disappeared, it is considered that there is no water bullet residue. Since the firing of the crystal ball into the target body 1 is a process from none to none and then from none to none, it is a normal situation, and if the crystal ball is from none to none and then from all to none, this is a phenomenon in which the crystal ball residue adheres. At this time, the user needs to be reminded to clean the residues.

In practice, after each firing, there must be a crystal residue attached to the conductor 2, which is only the case with more or less, resulting in a more or less variation of the resistance of the conductor 2 per adjacent circle, and therefore, a threshold for the detection of the crystal residue needs to be designed to filter out small water residue that has no effect on the result. If the threshold value is too low, the phenomenon of 'water bullet residues' frequently occurs, and many of the crystal bullet residues are small crystal bullet residues, and the effect on shooting is practically not achieved, but the detection is also frequently carried out, so that the user experience is affected because the user can possibly shoot for several times and need to clean the crystal bullet residues, which is very troublesome. If the threshold value is too high, the 'large water bullet residues with impact effect' cannot be detected, so that the detection of the crystal bullet residues is meaningless. Therefore, a proper threshold value needs to be set, so that the influence of the water bullet residues on shooting can be normally detected, and the phenomenon of 'existence of the water bullet residues' cannot be frequently caused. That is, the "small crystal bullet residue which does not affect the system" is filtered out, and the "large crystal bullet residue which affects the system" is detected.

In one embodiment of the shooting result processing method, the shooting result processing method further includes counting shooting times and shooting ring number results of the user, and playing the shooting result according to a preset broadcasting mode, wherein the broadcasting mode includes sum and average of the shooting ring number of the preset times. Through counting the number of loops and counting the number of times, the total sum and the average number of the loops of the previous 5 times can be automatically broadcasted under a specific mode, for example, after the target is hit for 5 times, so that the shooting interestingness is improved.

In one embodiment of the shooting result processing method, the electric conductors 2 are made of copper-iron or iron-lithium materials, and the electric conductors 2 made of copper-iron or iron-lithium materials are arranged at intervals; the width of each conductor 2 is 1mm, the distance between every two adjacent conductors 2 is 2mm, each simulation bullet 3 is a crystal bullet, the crystal bullet adopts super absorbent resin, conductive substances are adsorbed on the crystal bullet, the conductive substances can adopt electrolyte, such as copper sulfate solution, and can also adopt liquid containing conductive impurities, such as tap water or well water, so as to enable the surface of the crystal bullet to conduct electricity. The electric conductor 2 on the target body 1 is divided into 10 areas, and the colors of the electric conductors 2 in the 10 areas are alternately black and white.

The invention innovatively uses the conductors 2 with equidistant stripes as a sensor and has weak current, electrodes between two adjacent conductors 2 are different, because the surface of the simulated bullet 3 is in a wet state and can conduct electricity, when the simulated bullet 3, such as a crystal bullet, hits any position of the target body 1, the conductive surface of the simulated bullet 3 can lead the two adjacent conductors 2 to conduct, and current pulses are generated, so that the current pulses are used as feedback signals for detecting the hit of the simulated bullet 3. In addition, the invention innovatively establishes the independent wireless voice target, thereby being convenient for operators to clearly and immediately hear the shooting result, having light weight, small volume and convenient carrying, and solving the problems of long distance, untimely target reporting and the like of the traditional target reporting. The invention also solves the problem that the physical target cannot be recycled, is green and environment-friendly, and improves the reality and reliability of simulated bullet shooting. In addition, the invention can rely on the crystal bullet to give a real shooting experience, and the shot crystal bullet is in an radian in the air, and is matched with a certain recoil force, thus being very vivid to the simulation of shooting.

While the invention has been described in detail in the foregoing general description and specific examples, it will be apparent to those skilled in the art that modifications and improvements can be made thereto. Accordingly, such modifications or improvements may be made without departing from the spirit of the invention and are intended to be within the scope of the invention as claimed.

Claims (7)

1. A method of processing a firing result, comprising the steps of:

The conductors on the target body are arranged and divided into areas, the electrodes of two adjacent conductors are unequal, the distance between the two adjacent conductors is larger than the width of the conductor, the distance between three continuous conductors is smaller than the diameter of the contact surface between the simulated bullet and the target body, and the simulated bullet hits the target body to conduct at least two conductors;

performing voice configuration on each conductor region, wherein the voice configuration comprises a region ring number result of the conductor;

Acquiring pulse current after the simulated bullet shoots on the surface of the conductor on the target body, detecting the pulse current and judging whether the pulse current is larger than a preset current threshold value, a) judging that the simulated bullet hits the target body when the pulse current is larger than the preset current threshold value; b) When the pulse current is smaller than or equal to a preset current threshold value, judging that the simulated bullet does not hit the target body;

Judging the area of the conductor which is hit by the simulated bullet according to the pulse current, and playing the voice ring number result configured in the hit area;

Detecting whether the resistance value between two adjacent conductors continuously changes or not in a preset time period, and judging that simulated bullet residues exist on the surface of the conductors when the resistance value between the two adjacent conductors continuously changes; presetting a residue early warning threshold, and reminding a user to clean simulated bullet residues when the resistance value between two conductors exceeds the residue early warning threshold;

The simulated bullet is a crystal bullet, the crystal bullet adopts super absorbent resin, and the crystal bullet is adsorbed with conductive substances.

2. The method for processing shooting results according to claim 1, wherein the shooting times and the shooting ring number results of the user are counted, and the shooting result is played according to a preset broadcasting mode, wherein the broadcasting mode comprises a sum and an average of the shooting ring number of the preset times.

3. The method of claim 1, wherein the conductors are made of copper-iron or iron-lithium material, and the conductors are arranged at intervals; the width of each conductor is m, the distance between every two adjacent conductors is 2m, and m is a positive integer; the conductors on the target body are divided into 10 areas, and the colors of the conductors between adjacent areas in the 10 areas are different.

4. A target reporting system adopting the shooting result processing method of any one of claims 1 to 3, the target reporting system comprises an electronic circular target, the electronic circular target is provided with a shooting gun, the shooting gun is used for simulating shooting of bullets, the electronic circular target comprises a target body, the target body is outwards expanded at a central position and is sequentially provided with equidistant conductors, electrodes of two adjacent conductors are unequal, and the distance between the two adjacent conductors is larger than the width of the conductor; the distance between the three continuous conductors is smaller than the diameter of the contact surface between the simulated bullet and the target body, and the simulated bullet hits the target body to conduct at least two conductors; the device is characterized by further comprising a current detection circuit, a microprocessor, a wireless transmission module and a voice playing terminal, wherein the current detection circuit is used for detecting pulse current between conductors after the simulated bullets are shot on the surface of the conductors, the microprocessor is electrically connected with the current detection circuit and is used for processing shooting results of the simulated bullets according to the pulse current, the wireless transmission module is electrically connected with the microprocessor and is used for transmitting the shooting results of the simulated bullets; the voice playing terminal adopts a wireless voice player, a connection relationship is established between the voice playing terminal and the wireless transmission module, and the voice playing terminal is used for broadcasting the shooting result of the received simulation bullet.

5. The target reporting system of claim 4 wherein the conductors are copper-iron or iron-lithium, and wherein the copper-iron or iron-lithium conductors are spaced apart from each other.

6. The target reporting system of claim 4 wherein the conductors have a width m, the spacing between adjacent conductors being 2m, and m being a positive integer.

7. The target scoring system of claim 4, wherein the conductors on the target body are separated into 10 regions, and wherein the conductors in adjacent ones of the 10 regions are different in color.