CN112648888A - Target reporting device and method suitable for multi-target type - Google Patents

Abstract

The invention belongs to the technical field of targets for shooting training and discloses a target reporting device suitable for multiple target types, which comprises a target plate, target reporting equipment connected with the target plate and an upper computer connected with the target reporting equipment, wherein the target plate comprises a first insulating layer, a first conductive film layer, a second insulating layer, a second conductive film layer and a third insulating layer which are sequentially stacked; the first conductive film layer is provided with R which is more than or equal to 2 parallel conductive film strips, the second conductive film layer is provided with C which is more than or equal to 2 parallel conductive film strips, the included angle between the first conductive film layer conductive film strip and the second conductive film layer conductive film strip is theta, theta is more than 0 and less than 180 degrees, and the target reporting equipment is respectively connected with each conductive film strip; the invention also discloses a target scoring method of the target scoring device. The target plate is suitable for various target types, one target plate can be applied to various target types through establishing the corresponding relation between the target plate lattices and the target type drawing parts, and the problem that the traditional target plate is only suitable for single target type shooting training is solved.

Description

Target reporting device and method suitable for multi-target type

Technical Field

The invention belongs to the technical field of targets for shooting training, and particularly relates to a target reporting device and method suitable for multiple target types.

Background

Currently, shooting training has become an important means for training the troops in China. In the shooting training, various target types need to be trained, such as a chest ring target, a human-type target, a head target and the like. Because the shape, the shape of the internal conducting film and the position of the conducting film of the traditional target plate used in the shooting training are fixed, the traditional target plate can only be used for fixed target type shooting training and cannot be used for other target type shooting training, for example, the chest ring target plate can only be used for training chest ring target shooting training and is not suitable for other target type shooting training. When the traditional target plate is used, the training shooting target type is changed, the target plate or even target reporting equipment must be replaced, and therefore the problem that the traditional target plate is only suitable for single target type shooting training is urgently needed to be solved.

Disclosure of Invention

In order to solve the problems existing in the prior art, the invention aims to provide a target scoring device suitable for multiple target types, so as to solve the problem that when a traditional target plate is used, the target plate or even target scoring equipment needs to be replaced when the training shooting target type is changed, and the traditional target plate is only suitable for single target type shooting training;

the invention also provides a target scoring method of the target scoring device, which is used for scoring according to the mapping relation between the target board lattices and the target type drawing parts.

In order to achieve the purpose, the invention adopts the following technical scheme:

a target reporting device suitable for a multi-target type comprises a target plate, target reporting equipment connected with the target plate and an upper computer connected with the target reporting equipment, wherein the target plate comprises a first insulating layer, a first conductive film layer, a second insulating layer, a second conductive film layer and a third insulating layer which are sequentially stacked; the target reporting device is characterized in that the first conductive film layer is provided with R which is more than or equal to 1 parallel conductive film strip, the second conductive film layer is provided with C which is more than or equal to 1 parallel conductive film strip, the included angle between the conductive film strip of the first conductive film layer and the conductive film strip of the second conductive film layer is theta, theta is more than 0 and less than 180 degrees, and the target reporting device is respectively connected with each conductive film strip of the first conductive film layer and each conductive film strip of the second conductive film layer.

As a limitation, the included angle between the conductive film strips of the first conductive film layer and the conductive film strips of the second conductive film layer is 90 degrees, the conductive film strips of the first conductive film layer are transversely arranged, and the conductive film strips of the second conductive film layer are longitudinally arranged.

As a second definition, the thickness of the second insulating layer is less than or equal to the minimum length of the training round.

As a third limitation, the distances between the conductive film strips of the first conductive film layer are equal, and the distances between the conductive film strips of the second conductive film layer are equal.

The invention also provides a target scoring method suitable for the multi-target type target scoring device, which comprises the following steps:

s1, numbering the conductive film strips of the first conductive film layer and the second conductive film layer respectively, forming N at the intersection of the conductive film strips of the first conductive film layer and the conductive film strips of the second conductive film layer, wherein N is more than or equal to 1 and less than or equal to R × C target plate grids, and numbering the conductive film strips of the first conductive film layer as the row number of the target plate grids and numbering the conductive film strips of the second conductive film layer as the column number of the target plate grids; establishing a two-dimensional array of R rows and C columns in the upper computer, and establishing a one-to-one corresponding relation between each target board lattice and elements corresponding to the row number and the column number of the target board lattices in the two-dimensional array elements;

s2, connecting the target board and the target scoring equipment, determining the numerical values of all parts of the target pattern drawing, covering the target pattern drawing on the shooting surface of the target board, penetrating along the contour edge of all parts of the target pattern drawing, identifying the number of lines and columns of the target board lattice penetrated by the target pattern drawing by the target scoring equipment, and uploading the number of lines and columns to the upper computer;

the penetrating means that the conductor is inserted into the target plate at the edge of the outline of each part of the target pattern drawing until the first conductive film layer and the second conductive film layer are conducted, and then the conductor is taken out;

s3, mapping the numerical values of all parts of the target pattern drawing to two-dimensional array elements corresponding to the target plate lattices covered by all parts of the target pattern drawing in the upper computer, and inputting the two-dimensional array after the mapping of all parts of the target pattern drawing is finished into target reporting equipment;

s4, conducting the conductive film strips of the first conductive film layer and the conductive film strips of the second conductive film layer after the target board is hit, identifying the number of lines and columns of the target board lattice hit by the target board by the target reporting equipment, inquiring the numerical values of all parts of the target type drawing corresponding to the two-dimensional array elements corresponding to the target board lattice hit, determining the hit part and reporting the target.

The invention also provides another target scoring method suitable for the multi-target type target scoring device, which comprises the following steps:

numbering the conductive film strips of the first conductive film layer and the second conductive film layer respectively, forming N at the intersection of the conductive film strips of the first conductive film layer and the conductive film strips of the second conductive film layer, wherein N is more than or equal to 1 and less than or equal to R × C target plate grids, and taking the number of the conductive film strips of the first conductive film layer as the number of rows of the target plate grids and the number of the conductive film strips of the second conductive film layer as the number of columns of the target plate grids; establishing a two-dimensional array of R rows and C columns in the upper computer, and establishing a one-to-one corresponding relation between each target board lattice and elements corresponding to the row number and the column number of the target board lattices in the two-dimensional array elements;

secondly, connecting the target board and target reporting equipment, determining numerical values of all parts of the target type drawing, uploading the target type drawing to an upper computer, covering the target type drawing on a target board shooting surface, performing 'penetration' along the contour edge of a certain part of the target type drawing, identifying the number of lines and columns of target board lattices covered by the part of the target type drawing through the target reporting equipment, uploading the lines and columns to the upper computer, and automatically generating the positions of the target board lattices covered by other parts by the upper computer according to the position relation between the part and other parts in the target type drawing;

the penetrating means that a conductor is inserted into the target plate at the edge of the outline of a certain part of the target type drawing until the first conductive film layer and the second conductive film layer are conducted, and then the conductor is taken out;

thirdly, mapping the numerical values of all parts of the target pattern drawing to two-dimensional array elements corresponding to the target plate lattices covered by all parts of the target pattern drawing in the upper computer, and inputting the two-dimensional array after the mapping of all parts of the target pattern drawing is finished into target reporting equipment;

and fourthly, after the target board is hit, conducting film strips of the first conducting film layer and conducting film strips of the second conducting film layer are conducted, target reporting equipment identifies the line number and the column number of the target board lattice hit by the target board, inquires the numerical value of each part of the target type drawing corresponding to the two-dimensional array element corresponding to the target board lattice hit, determines the hit part and reports the target.

By way of limitation, when the target board lattice does not correspond to the target pattern drawing part, the numerical value of the corresponding two-dimensional array element is null.

Due to the adoption of the technical scheme, compared with the prior art, the invention has the technical progress that:

(1) according to the invention, the target plate is divided into a plurality of lattices by the conductive film strip, and the corresponding relation between each lattice of the target plate and the target type drawing part is established, so that one target plate can be applied to various target type exercises, and the problem that the traditional target plate is only suitable for single target type shooting exercises is solved;

(2) according to the method, target scoring is carried out according to the mapping relation between the target board lattices and the target type drawing part, so that the training target type can be changed by changing the mapping relation, and the size of the training target type can be flexibly changed according to requirements;

(3) the invention can change the training target type only by inputting the mapping relation between the target board lattices and the target type drawing part again, and has the characteristics of more flexible and convenient training target type replacement.

The invention belongs to the technical field of targets for shooting training, and is suitable for various target types.

Drawings

Fig. 1 is a schematic block diagram of a circuit of embodiment 1 of the present invention;

FIG. 2 is a schematic structural diagram of a human target with an included angle of 90 degrees according to example 2 of the present invention;

FIG. 3 is a schematic structural diagram of a human target with an included angle of 30 degrees according to example 2 of the present invention;

FIG. 4 is a schematic structural diagram of a human target with an included angle of 45 degrees in example 2 of the present invention;

FIG. 5 is a schematic structural diagram of a human target with an included angle of 60 degrees in example 2 of the present invention.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation and not limitation.

Example 1A target-scoring device suitable for multiple target types

As shown in fig. 1, the present embodiment includes a target board, a target reporting device connected to the target board, and an upper computer connected to the target reporting device, wherein the target board includes a first insulating layer, a first conductive film layer, a second insulating layer, a second conductive film layer, and a third insulating layer, which are sequentially stacked. In this embodiment, the target plate is square target plate, the length and the width of target plate all are 40cm, first electrically conductive rete and the electrically conductive rete of second all are provided with 20 parallel electrically conductive membrane strips, the electrically conductive membrane strip of first electrically conductive rete and the electrically conductive membrane strip of the electrically conductive rete of second between contained angle be 90, wherein, the electrically conductive membrane strip transverse arrangement of first electrically conductive rete sets up, the electrically conductive membrane strip longitudinal arrangement of the electrically conductive rete of second sets up, report target equipment and each electrically conductive membrane strip of first electrically conductive rete, each electrically conductive membrane strip of the electrically conductive rete of second is connected respectively.

The length of each conductive film strip of the first conductive film layer and the second conductive film layer is 40cm, the width of each conductive film strip of the second conductive film layer is 19mm, the distance between every two adjacent conductive film strips is 1mm, and the conductive film strips are paved on the whole first conductive film layer and the whole second conductive film layer. Therefore, the target board grids of 20 rows and 20 columns are formed on the target board at the overlapped positions of the intersections of the transversely arranged conductive film strips and the longitudinally arranged conductive film strips by taking the transversely arranged conductive film strips as rows and the longitudinally arranged conductive film strips as columns.

In this embodiment, the thickness of the second insulating layer is not greater than the minimum length of the training bullet, and an included angle between the conductive film strip of the first conductive film layer and the conductive film strip of the second conductive film layer is 90 °. In practice, the smaller the width of the conductive film strips, the higher the precision, but not less than the minimum diameter of the training bullet, and the smaller the spacing between adjacent conductive film strips, the better. The included angle between the conductive film strip of the first conductive film layer and the conductive film strip of the second conductive film layer is 0-180 degrees, the first conductive film layer is fully paved by the conductive film strip, and the second conductive film layer is also fully paved by the conductive film strip.

Example 2 target scoring method suitable for multiple target types

The embodiment provides a target scoring method suitable for a multi-target type, and the target scoring device using the embodiment comprises the following steps:

s1, forming N =20 × 20 target board grids at the intersection of each conductive film strip of the first conductive film layer and each conductive film strip of the second conductive film layer, establishing 20 × 20 two-dimensional arrays in an upper computer, and establishing one-to-one corresponding relationship between two-dimensional array elements and the N target board grids;

in the step, the conductive film strips of the first conductive film layer are used as the number of lines of the target plate lattices, the conductive film strips of the second conductive film layer are used as the number of columns of the target plate lattices, and the target plate lattices with 20 lines and 20 columns are formed on the target plate at the superposed positions of the crossed parts of the conductive film strips transversely arranged on the first conductive film layer and the conductive film strips longitudinally arranged on the second conductive film layer; establishing 20 rows and 20 columns of two-dimensional array in upper computeraTwo dimensional array elementsa[i][ j]Establishing one-to-one correspondence with elements corresponding to the number of rows and the number of columns of the target board grids;

as shown in fig. 2, an included angle between the conductive film strips of the first conductive film layer and the conductive film strips of the second conductive film layer is 90 °. The conducting film strips are numbered from left to right in sequence from 1-20 from top to bottom by taking the top left corner as a starting point, the distance between every two adjacent conducting film strips is 1mm, and because the distance value is small, only the conducting film strips arranged transversely and the conducting film strips arranged longitudinally are displayed in the drawing, and the distance between every two adjacent conducting film strips is not displayed. Wherein the content of the first and second substances,a[i][ j]the value of (A) indicates the number of points counted down from the starting pointiThe strip of transverse conductive film and the second strip counted from the starting point to the rightjA target type site value represented by a lattice in which the longitudinal conductive film strips are overlapped, whereini、jAre all positive integers less than or equal to 20;

s2, connecting the target board and the target reporting equipment, determining the numerical values of all parts of the target type drawing, covering the target type drawing for training on the shooting surface of the target board, carrying out 'penetration' along the contour edge of each part of the target type drawing, identifying the number of lines and columns of the 'penetrated' target board grids by the target type drawing through the target reporting equipment, and uploading the number of lines and columns to the upper computer; in the step, "penetrating" means that the conductor is inserted into the target plate by the conductor at the edge of the outline of each part of the target drawing until the first conductive film layer and the second conductive film layer are conducted and then the conductor is taken out;

as shown in fig. 2, the training target type drawing of this embodiment is a hostage target type, which includes a ruffian head and a hostage head, in this step, the values of the parts of the target type drawing are determined, in which 1 represents the ruffian head and 2 represents the hostage head. Then, the anthropogenic target type drawings are covered on the shooting surface of the target board, a metal needle is used for penetrating along the contour edges of the anthropogenic heads and the scoundrel heads of the target type drawings, the range of the target board lattices covered by the anthropogenic heads and the scoundrel heads on the target board is determined, and the number of rows and the number of columns of the target board lattices covered by the anthropogenic heads and the scoundrel heads of the target type drawings are uploaded to an upper computer through a target reporting device;

the step can also be realized by uploading the target type drawing to an upper computer, covering the human target type drawing on a target board shooting surface, penetrating the target type drawing along the contour edge of a certain part of the target type drawing by using a metal needle, identifying the position of the target board lattice covered by the part through target reporting equipment, uploading the position of the target board lattice covered by the part to the upper computer, and automatically generating the position of the target board lattice covered by other parts by the upper computer according to the position relation between the part and other parts. Taking the scoundrel head as an example, a metal needle is used for penetrating along the outline edge of the scoundrel head to determine the lattice range covered by the scoundrel head on the target plate, the position of the lattice covered by the scoundrel head is identified by an upper computer, and the upper computers at other parts can automatically generate the lattice range according to the position relationship between the human target type parts;

s3, mapping the numerical values of all parts of the target pattern drawing to two-dimensional array elements corresponding to the target plate lattices covered by all parts of the target pattern drawing in the upper computer, and inputting the two-dimensional array after the mapping of all parts of the target pattern drawing is finished into target reporting equipment;

in the step, 1 represents a ruffian head and 2 represents a hostage head in the determined hostage target type drawingsAfter the step of the method, the numerical values of all parts of the figure target pattern drawing are mapped to the two-dimensional array elements corresponding to the covered target plate latticesa[i][ j]For example, if the value of the head of a gangster is 1, after the edge of the head of the gangster is penetrated, one of the data reported by the target reporting equipment in sequence is (3, 11), then the two-dimensional array is used for reporting array elements in the third row and the eleventh column in the upper computera[3][ 11]The value is assigned to 1. As can be taken from figure 2 of the drawings,a[3][11]=1，a[3][12]=1，a[13][15]=2, etc.; when the target board lattice does not correspond to the part of the human quality target type drawing, the corresponding two-dimensional array element value is null;

s4, conducting the conductive film strips of the first conductive film layer and the conductive film strips of the second conductive film layer after the target board is hit, identifying the number of lines and columns of the target board hit grid by the target reporting equipment, inquiring the numerical values of all parts of the target type drawing corresponding to the two-dimensional array elements corresponding to the hit target board grid, determining the hit part and reporting the target.

For example, when hitting the grid at the 4 th row and the 12 th column, the conductive film strip at the 4 th row and the 12 th column is conducted, the hit-reporting device recognizes that the grid at the 4 th row and the 12 th column on the target board is hit, and then the inquiry is madea[4][12]A value of 1 indicates a hit on a gangster's head; when the grid of the 1 st row and the 1 st column is hit, the conductive film strip of the 1 st row and the 1 st column is conducted, the target scoring device recognizes that the grid of the 1 st row and the 1 st column on the target board is hit, and then the target scoring device inquiresa[1][1]A value of (d) being null indicates off-target.

In this embodiment, fig. 2 illustrates an example that an included angle between the conductive film strip of the first conductive film layer and the conductive film strip of the second conductive film layer is 90 °, in practice, the included angle between the conductive film strip of the first conductive film layer and the conductive film strip of the second conductive film layer may be selected from 0 to 180 °, as shown in fig. 3 to 5, which are schematic diagrams of the human target structure when the included angles between the conductive film strip of the first conductive film layer and the conductive film strip of the second conductive film layer are 30 °, 45 °, and 60 °, respectively.

In the step, a two-dimensional array is established in the upper computer according to the quantity of the first conductive film layer and the second conductive film layer conductive film strips so as to ensure that the two-dimensional array elements are larger than the number of the target plate lattices under the condition that the conductive film strips of the first conductive film layer and the conductive film strips of the second conductive film layer are not transversely and longitudinally arranged, so that each target plate lattice has corresponding two-dimensional array elements, and then the target plate lattices and the two-dimensional array elements are mapped according to the numbers of the conductive film strips.

The target type drawing is a human target type for training in the embodiment, in actual operation, the target type drawing can be changed as required, and only the mapping relation between the target plate lattices and the target type drawing parts needs to be input again during training, so that one target plate can be applied to various target type training, and the problem that the traditional target plate is only suitable for single target type shooting training is solved.

Claims (7)

1. A target reporting device suitable for multiple target types comprises a target plate, target reporting equipment connected with the target plate and an upper computer connected with the target reporting equipment, and is characterized in that the target plate comprises a first insulating layer, a first conductive film layer, a second insulating layer, a second conductive film layer and a third insulating layer which are sequentially stacked; the target reporting device is characterized in that the first conductive film layer is provided with R which is more than or equal to 1 parallel conductive film strip, the second conductive film layer is provided with C which is more than or equal to 1 parallel conductive film strip, the included angle between the conductive film strip of the first conductive film layer and the conductive film strip of the second conductive film layer is theta, theta is more than 0 and less than 180 degrees, and the target reporting device is respectively connected with each conductive film strip of the first conductive film layer and each conductive film strip of the second conductive film layer.

2. The hit-scoring device suitable for multiple target types according to claim 1, wherein the included angle between the conductive film strips of the first conductive film layer and the conductive film strips of the second conductive film layer is 90 °, the conductive film strips of the first conductive film layer are arranged transversely, and the conductive film strips of the second conductive film layer are arranged longitudinally.

3. The apparatus of claim 1, wherein the thickness of the second insulating layer is equal to or less than the minimum length of the training round.

4. The apparatus of claim 1, wherein the conductive film strips of the first conductive film layer are equally spaced from each other, and the conductive film strips of the second conductive film layer are equally spaced from each other.

5. A method according to any one of claims 1 to 4, comprising the following steps:

s1, numbering the conductive film strips of the first conductive film layer and the second conductive film layer respectively, forming N at the intersection of the conductive film strips of the first conductive film layer and the conductive film strips of the second conductive film layer, wherein N is more than or equal to 1 and less than or equal to R × C target plate grids, and numbering the conductive film strips of the first conductive film layer as the row number of the target plate grids and numbering the conductive film strips of the second conductive film layer as the column number of the target plate grids; establishing a two-dimensional array of R rows and C columns in the upper computer, and establishing a one-to-one corresponding relation between each target board lattice and elements corresponding to the row number and the column number of the target board lattices in the two-dimensional array elements;

s2, connecting the target board and the target scoring equipment, determining the numerical values of all parts of the target pattern drawing, covering the target pattern drawing on the shooting surface of the target board, penetrating along the contour edge of all parts of the target pattern drawing, identifying the number of lines and columns of the target board lattice penetrated by the target pattern drawing by the target scoring equipment, and uploading the number of lines and columns to the upper computer;

the penetrating means that the conductor is inserted into the target plate at the edge of the outline of each part of the target pattern drawing until the first conductive film layer and the second conductive film layer are conducted, and then the conductor is taken out;

s3, mapping the numerical values of all parts of the target pattern drawing to two-dimensional array elements corresponding to the target plate lattices covered by all parts of the target pattern drawing in the upper computer, and inputting the two-dimensional array after the mapping of all parts of the target pattern drawing is finished into target reporting equipment;

s4, conducting the conductive film strips of the first conductive film layer and the conductive film strips of the second conductive film layer after the target board is hit, identifying the number of lines and columns of the target board lattice hit by the target board by the target reporting equipment, inquiring the numerical values of all parts of the target type drawing corresponding to the two-dimensional array elements corresponding to the target board lattice hit, determining the hit part and reporting the target.

6. A method according to any one of claims 1 to 4, comprising the following steps:

numbering the conductive film strips of the first conductive film layer and the second conductive film layer respectively, forming N at the intersection of the conductive film strips of the first conductive film layer and the conductive film strips of the second conductive film layer, wherein N is more than or equal to 1 and less than or equal to R × C target plate grids, and taking the number of the conductive film strips of the first conductive film layer as the number of rows of the target plate grids and the number of the conductive film strips of the second conductive film layer as the number of columns of the target plate grids; establishing a two-dimensional array of R rows and C columns in the upper computer, and establishing a one-to-one corresponding relation between each target board lattice and elements corresponding to the row number and the column number of the target board lattices in the two-dimensional array elements;

secondly, connecting the target board and target reporting equipment, determining numerical values of all parts of the target type drawing, uploading the target type drawing to an upper computer, covering the target type drawing on a target board shooting surface, performing 'penetration' along the contour edge of a certain part of the target type drawing, identifying the number of lines and columns of target board lattices covered by the part of the target type drawing through the target reporting equipment, uploading the lines and columns to the upper computer, and automatically generating the positions of the target board lattices covered by other parts by the upper computer according to the position relation between the part and other parts in the target type drawing;

the penetrating means that a conductor is inserted into the target plate at the edge of the outline of a certain part of the target type drawing until the first conductive film layer and the second conductive film layer are conducted, and then the conductor is taken out;

thirdly, mapping the numerical values of all parts of the target pattern drawing to two-dimensional array elements corresponding to the target plate lattices covered by all parts of the target pattern drawing in the upper computer, and inputting the two-dimensional array after the mapping of all parts of the target pattern drawing is finished into target reporting equipment;

and fourthly, after the target board is hit, conducting film strips of the first conducting film layer and conducting film strips of the second conducting film layer are conducted, target reporting equipment identifies the line number and the column number of the target board lattice hit by the target board, inquires the numerical value of each part of the target type drawing corresponding to the two-dimensional array element corresponding to the target board lattice hit, determines the hit part and reports the target.

7. A method as claimed in claim 5 or 6, wherein when the target grid does not correspond to the target pattern drawing part, the value of the corresponding two-dimensional array element is null.

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