CN220400085U - Individual tactical assessment system - Google Patents

Abstract

The utility model provides an individual tactical assessment system, comprising: the simulation areas are sequentially arranged, at least one track is arranged in the simulation areas, supporting devices are arranged on two sides of the simulation areas, the supporting devices of each simulation area are different in height, an assessment unit is arranged on each supporting device, and the assessment unit is arranged along the length direction of the track; the plurality of simulation areas that set gradually include first simulation district, second simulation district, third simulation district, and the length of first simulation district is less than the length of second simulation district, and the length of second simulation district is less than the length of third simulation district. By arranging a plurality of simulation areas in sequence, at least one track is arranged in each simulation area, and a plurality of examinees can check simultaneously. According to the assessment system, the supporting devices are arranged on two sides of each simulation area, the assessment unit is arranged on the supporting devices, the training results of assessment personnel are automatically recorded by the aid of the assessment unit, and the action specification requirements of the assessment unit are unified.

Description

Individual tactical assessment system

Technical Field

The utility model relates to the technical field of tactical assessment systems, in particular to an individual tactical assessment system.

Background

An individual tactical assessment is an examination subject of tactical actions that a soldier must master. The traditional individual tactical assessment mode is to visually check whether the training actions of the examinee are standard or not through an examiner, manually time the training time, and comprehensively calculate the score of the examinee. When the assessment system comprises a plurality of simulation areas and a plurality of raceways and assessment staff are many, a plurality of assessment staff are required to record training results of the assessment staff, manpower is wasted, and unified assessment standards are difficult to make for action specification requirements.

Disclosure of Invention

Therefore, the utility model aims to provide an individual tactical assessment system, which aims to solve the problems that when a plurality of assessment staff are needed, a plurality of assessment staff are needed to record training results, manpower is wasted, and unified assessment standards are difficult to make for more standard requirements of actions.

Based on the above object, the present utility model provides an individual tactical assessment system comprising: the simulation areas are sequentially arranged, at least one track is arranged in the simulation areas, supporting devices are arranged on two sides of the simulation areas, the supporting devices of each simulation area are different in height, an assessment unit is arranged on each supporting device, and the assessment units are arranged along the length direction of the track;

the plurality of simulation areas comprise a first simulation area, a second simulation area and a third simulation area, wherein the first simulation area, the second simulation area and the third simulation area are sequentially arranged, the length of the first simulation area is smaller than that of the second simulation area, and the length of the second simulation area is smaller than that of the third simulation area.

Further, the examination and evaluation unit comprises a test wire mesh and a touch induction alarm device, wherein the test wire mesh is arranged on the supporting device of the first simulation area and the second simulation area, and the touch induction alarm device is arranged on the test wire mesh.

Further, the assessment unit further comprises a smoke simulation device, and each simulation area is provided with at least one smoke simulation device.

Further, the assessment unit further comprises an acousto-optic simulation device, and each simulation area is provided with at least one acousto-optic simulation device.

Further, the assessment unit further comprises a rain simulation device, and each simulation area is provided with at least one rain simulation device.

Further, the assessment unit further comprises a timing device, and each track is provided with a timing device.

Further, the assessment unit further comprises an electronic eye, and each track is provided with at least one electronic eye.

Further, the assessment unit further comprises a wind blowing simulation device, and each simulation area is provided with at least one wind blowing simulation device.

Further, the assessment system further comprises a comprehensive control subsystem, and the comprehensive control subsystem is electrically connected with the touch induction alarm device, the smoke simulation device, the acousto-optic simulation device, the rain simulation device, the timing device, the electronic eye and the wind blowing simulation device.

Further, a voice broadcasting device is arranged on the supporting device at the end point of the third simulation area, and the voice broadcasting device is electrically connected with the comprehensive control subsystem.

From the above, it can be seen that the individual tactical assessment system provided by the utility model can realize simultaneous assessment of multiple examinees by sequentially arranging multiple simulation areas, wherein each simulation area is internally provided with at least one track. Through setting up strutting arrangement in every simulation district both sides, set up the examination and evaluation unit on the strutting arrangement, utilize the examination and evaluation unit to realize the training score of automatic recording examination personnel, and the examination and evaluation unit is unified to the action standardization requirement, has solved when the examination personnel crowd, needs a plurality of examination officers to record the training score, extravagant manpower, and is difficult to make unified examination standard to the more standardizing requirement of action problem.

Further, by arranging three simulation areas, the high-risk enemy area, the medium-risk enemy area and the low-risk enemy area are distinguished, and the risk factors in a battlefield environment are better simulated.

Drawings

In order to more clearly illustrate the technical solutions of the present utility model or related art, the drawings that are required to be used in the description of the embodiments or related art will be briefly described below, and it is apparent that the drawings in the following description are only embodiments of the present utility model, and other drawings may be obtained according to the drawings without inventive effort to those of ordinary skill in the art.

Fig. 1 is a schematic diagram of an individual tactical assessment system according to an embodiment of the present utility model.

In the accompanying drawings:

1. a first analog region; 2. a second analog region; 3. a third simulation zone; 4. a support device; 5. testing the wire netting; 6. a touch sensing alarm device; 7. a smoke simulation device; 8. an acousto-optic analog device; 9. a rain simulation device; 10. an electronic eye; 11. a timing device; 12. a comprehensive control subsystem; 13. a voice broadcast device; 14. wind blowing simulation device.

Detailed Description

The present utility model will be further described in detail below with reference to specific embodiments and with reference to the accompanying drawings, in order to make the objects, technical solutions and advantages of the present utility model more apparent.

It should be noted that unless otherwise defined, technical or scientific terms used in the embodiments of the present utility model should be given the ordinary meaning as understood by one of ordinary skill in the art to which the present utility model belongs. The terms "first," "second," and the like, as used in embodiments of the present utility model, do not denote any order, quantity, or importance, but rather are used to distinguish one element from another. The word "comprising" or "comprises", and the like, means that elements or items preceding the word are included in the element or item listed after the word and equivalents thereof, but does not exclude other elements or items. The terms "connected" or "connected," and the like, are not limited to physical or mechanical connections, but may include electrical connections, whether direct or indirect. "upper", "lower", "left", "right", etc. are used merely to indicate relative positional relationships, which may also be changed when the absolute position of the object to be described is changed.

In the related art, the individual tactical assessment mode is to visually examine whether an examinee touches the net, whether the examinee goes out of bounds, whether the action is standard or not through an examinee, and comprehensively give an assessment result by combining time of manual timing. Because of factors such as different orientations, light influence and the like, the visual observation angle of the examinee sometimes cannot truly reflect whether the examinee touches the net or is out of bounds; if many examination workers are on the examination site, the examination official standards are different, and the situation that the examination standards are not uniform in timing and action specification requirements is unavoidable. And the individual tactics examination only examines the motion normalization of the examinee, does not consider the interference of factors such as sound, light, electricity, wind, rain and the like of the battlefield environment on soldiers, and cannot truly examine the individual tactics and physical and psychological adaptability of the examinee to complex environments.

In order to solve the technical problems, the utility model realizes the aim of simultaneously checking a plurality of examinees by sequentially arranging a plurality of simulation areas, wherein each simulation area is internally provided with at least one track (optimally 4-5 tracks). The two sides of each simulation area are provided with supporting devices 4, each supporting device 4 is provided with an assessment unit, each assessment unit comprises a test wire netting 5, a touch induction alarm device 6, a smoke simulation device 7, an acousto-optic simulation device 8, a rain simulation device 9, a timing device 11, an electronic eye 10, a wind blowing simulation device 14 and the like, and different battlefield burst factors and environments are arranged, such as simulation of attacks of grenades, explosive packages, throwing drums, grenades and the like, the attacks of bullets and the guns, enemy warning search, smoke attack and the like, sudden natural environment changes, sudden rainfall, strong wind, thunder and the like, an almost real battlefield scene is created, and the physical and psychological adaptability of an individual soldier under the soldier battlefield environment is checked, and the random strain capacity of a soldier is checked.

Embodiments of the present utility model are described in detail below with reference to the accompanying drawings.

Referring to fig. 1, an individual tactical assessment system comprising: the simulation areas are sequentially arranged, at least one track is arranged in the simulation areas, supporting devices 4 are arranged on two sides of the simulation areas, the supporting devices 4 of each simulation area are different in height, and an assessment unit is arranged on each supporting device 4 and is arranged along the length direction of the track;

the simulation areas comprise a first simulation area 1, a second simulation area 2 and a third simulation area 3, wherein the first simulation area 1, the second simulation area 2 and the third simulation area 3 are sequentially arranged, the length of the first simulation area 1 is smaller than that of the second simulation area 2, and the length of the second simulation area 2 is smaller than that of the third simulation area 3.

Specifically, a plurality of simulation areas are sequentially arranged, and at least one track is arranged in each simulation area, so that a plurality of examinees can check simultaneously. Through setting up strutting arrangement 4 in every simulation district both sides, set up the examination and evaluation unit on the strutting arrangement 4, utilize the examination and evaluation unit to realize the training score of automatic recording examination personnel, and the examination and evaluation unit is unified to the action standardization requirement, has solved when the examination personnel are numerous, needs a plurality of examination officers to record training score, extravagant manpower, and is difficult to make unified examination standard's problem to the more standardization requirement of action.

Further, by arranging three simulation areas, the high-risk enemy area, the medium-risk enemy area and the low-risk enemy area are distinguished, and the risk factors in a battlefield environment are better simulated. The length of the high-risk enemy area is shortest, the length of the medium-risk enemy area is larger than that of the high-risk enemy area, and the length of the low-risk enemy area is larger than that of the medium-risk enemy area, and simulation areas with different lengths are arranged in order to enable the capability and physical strength of assessment staff to be in a bearing range. Taking comprehensive factors such as the capability and physical strength of an examiner into consideration, taking 40m as an example of the full length setting of an examination simulation area, wherein the first simulation area 1 is a high-risk enemy area, the length of the first simulation area is 10m, the height of a supporting device 4 in the first simulation area 1 is 40cm, and the first simulation area 1 needs the examiner to pass by in a creeping manner in a low gesture. The second simulation area 2 is a medium-danger enemy area, the length of the second simulation area is 15m, the height of the supporting device 4 in the second simulation area 2 is 60cm, the height of the second simulation area 2 is higher than that of the first simulation area 1, and the second simulation area 2 needs to be checked to pass by creeping in high postures of personnel. The third simulation area 3 is a low-risk enemy area, the length of the third simulation area is 15m, and the third simulation area 3 needs to check personnel to bend and run through, and does not limit the height of the third simulation area.

In some embodiments, the assessment unit includes a test wire mesh 5 and a touch sensing alarm device 6, the test wire mesh 5 is disposed on the support device 4 of the first simulation area 1 and the second simulation area 2, and the touch sensing alarm device 6 is disposed on the test wire mesh 5.

Specifically, the supporting device 4 is a supporting rod, the bottom of the supporting rod is limited in the soil, the supporting rod can be fixed by adopting the existing anchor bolts, and the supporting rod can also be fixed in a burying mode directly. The test wire 5 is fixed on the adjacent top of the support rod in a bolt fixing manner or welded on the support rod.

Further, the touch sensing alarm device 6 adopts an infrared alarm, and a warning line sent by the infrared alarm is flush with the test wire netting 5, so that whether the test wire netting 5 is touched by an examination personnel or not is tested, and when the test wire netting 5 is touched, the warning line of the infrared alarm is touched, the infrared alarm gives an alarm, and the examination personnel is reminded. The touch sensing alarm device 6 is provided with a plurality of touch sensing alarm devices, and each simulation area can be correspondingly provided with one of the tracks, so that assessment of assessment personnel of different tracks can be realized.

During the test, the examination personnel can not touch the test wire netting 5, if touch the test wire netting 5, touch response alarm device 6 can report to the police, and integrated control subsystem 12 can increase the timing 1 second according to the automatic record of warning number of times.

In some embodiments, the assessment unit further comprises a smoke simulation device 7, and each simulation area is provided with at least one smoke simulation device 7.

In particular, the smoke simulation device 7 illustratively employs a smoke generator that may be placed on the ground to direct smoke through a pipeline into a simulation zone. Each simulation zone is provided with a smoke generator. The three simulation areas can also adopt a smoke generator, and the smoke is conveyed into the three simulation areas through a pipeline.

In some embodiments, the assessment unit further includes an acousto-optic simulation device 8, and each simulation area is provided with at least one acousto-optic simulation device 8.

Specifically, the acousto-optic simulation device 8 adopts an acousto-optic simulator sgmn-2 to generate the effects of the attack sound and dazzling and flashing of grenades, explosive charges, throwing barrels, grenades, guns such as grenades, and the like; simulating the battlefield situation to make the examiner feel the scene of the person, and checking the random strain capacity of the examiner. Each simulation area can know a plurality of acousto-optic simulation devices 8, and the simulation areas are set according to specific requirements.

In some embodiments, the assessment unit further includes a deluge simulator 9, and each simulation area is provided with at least one deluge simulator 9.

Specifically, the shower simulation device 9 adopts an automatic spraying system, and may also be connected to a spray head through a pipeline, where the spray head is disposed on the supporting device 4, for example, two spray heads are disposed on the opposite supporting device 4 in a crossing manner, and the range of the spray heads sprays onto the track in the corresponding simulation area.

In some embodiments, the assessment unit further includes a timing device 11, and each track is provided with a timing device 11.

Specifically, the timer 11 is an exemplary timer, and each track is provided with a timer for recording the checking time of the checking personnel on the track.

In some embodiments, the assessment unit further includes an electronic eye 10, and at least one electronic eye 10 is disposed on each track.

Specifically, the electronic eye 10 is configured to capture an examination process of an examination person, and determine whether the examination person is out of bounds or not according to a captured video, and whether the action is standard or not. The determination means adopts the existing image processing means, and will not be described in detail here.

In some embodiments, the assessment unit further includes a wind-blowing simulation device 14, and at least one wind-blowing simulation device 14 is disposed in each simulation area.

Specifically, the wind-blowing simulation device 14 adopts a blower, and the blower is provided with gears, so that the shares and the gears can be set according to the specific situation of the scene, and the wind-blowing strength is simulated. Each simulation zone is provided with at least one blower which can be installed on the ground and which directs the wind power into the simulation zone through a pipe.

In some embodiments, the assessment system further includes a comprehensive control subsystem 12, where the comprehensive control subsystem 12 is electrically connected to the touch sensing alarm device 6, the smoke simulation device 7, the acousto-optic simulation device 8, the rain simulation device 9, the timing device 11, the electronic eye 10, and the wind blowing simulation device 14.

Specifically, the integrated control subsystem 12 is illustratively a CPU, a computer, or the like, and the integrated control subsystem 12 is electrically connected with the touch sensing alarm device 6, the smoke simulation device 7, the acousto-optic simulation device 8, the deluge simulation device 9, the timing device 11, and the electronic eye 10 by using existing electrical connections. The integrated control subsystem 12 is used for controlling the touch induction alarm device 6, the smoke simulation device 7, the acousto-optic simulation device 8, the deluge simulation device 9, the timing device 11, the electronic eye 10 and the wind blowing simulation device 14.

In some embodiments, a voice broadcaster 13 is disposed on the supporting device 4 at the end point of the third simulation area 3, and the voice broadcaster 13 is electrically connected to the integrated control subsystem 12.

Specifically, the comprehensive control subsystem 12 is connected with the voice broadcasting device 13, and the assessment result is broadcasted.

The specific implementation process is as follows:

embodiment one:

the full length of an assessment simulation area is set to be 40 meters and divided into a first simulation area 1, a second simulation area 2 and a third simulation area 3, wherein the first simulation area 1 is set to be a high-risk enemy area and needs to pass through in a low-attitude creeping manner; the second simulation area 2 is set as a medium-danger enemy area and needs to pass by in a creeping way in a high gesture; the third simulation area is a low risk area, and needs to bend and run through. In order to better simulate dangerous factors in a battlefield environment, the acousto-optic simulation device 8 is arranged at different points in the whole course to generate sound such as smoke, acoustic equipment simulate electric detonator, shatter explosion simulate grenade explosion, bullet attack and the like, the rain simulation device 9 and the wind scraping simulation device 14 are arranged to simulate sudden rainfall and strong wind, and visual impact caused by explosion of the acousto-optic simulation device is arranged to simulate alert search of an enemy searchlight. The analog zone width was set to 8m and 4 tracks were set. Each track allows a test taker to refer to. The examinee starts from the starting point, firstly, creeping to pass through a first simulation area 1 with the length of 10m and the height of 40 cm; then, passing through a second simulation area 2 with the length of 15m and the height of 60cm, and finally, bending and fast running, passing through a third simulation area 3 with the length of 15m, wherein an iron wire net cannot be touched when creeping passes through, and the whole course cannot exceed the boundary of the track, so that a touch induction alarm device 6 is arranged on the iron wire net along the boundary direction of the track and on a supporting device 4, when the examinee touches once, an alarm sounds once, and the automatic timing of the track is distinguished on a comprehensive control subsystem 12 for 1 second; the timing device 11 is automatically triggered when the examinee starts at the starting point, the timing device 11 finishes timing when the examinee finally passes through the ending point, the total time is transmitted to the comprehensive control subsystem 12, the comprehensive control subsystem 12 automatically calculates the time used by the examinee to check, namely, the time of the timing device 11 accumulates the superposition timing seconds of the alarm sounds of the touch sensing alarm device 6 of the corresponding racetrack, the check score of the examinee is obtained, and the racetrack is distinguished to carry out voice broadcasting through the voice broadcasting device 13. Wherein the electronic eye 10 can replay and inquire the image of the whole examination process.

Embodiment two:

the total length of the simulation area is 50 meters, the width of the simulation area is set to 10m, and 5 tracks are set. The first simulation area 1 is set as a high-risk enemy area and needs to pass by in a low-attitude creeping manner; the second simulation area 2 is set as a medium-danger enemy area and needs to pass by in a creeping way in a high gesture; the third simulation area is a low risk area, and needs to bend and run through. In order to better simulate dangerous factors in a battlefield environment, the acousto-optic simulation device 8 is arranged at different points in the whole course to generate sound such as smoke, acoustic equipment simulate electric detonator, shatter explosion simulate grenade explosion, bullet attack and the like, the rain simulation device 9 and the wind scraping simulation device 14 are arranged to simulate sudden rainfall and strong wind, and visual impact caused by explosion of the acousto-optic simulation device is arranged to simulate alert search of an enemy searchlight. The examinee starts from the starting point and first needs to creeping through a first wire netting simulation area with the length of 15m and the height of 50 cm; then a second wire netting with the length of 15m and the height of 80cm is passed, and finally the roll-over and the fast running pass through a third simulation area with the length of 20m, wherein the wire netting cannot be touched when the roll passes, and the whole course cannot cross the boundary and cross the edge of the simulation area, so that a touch induction alarm device 6 is arranged on the wire netting and a supporting device 4, when the test taker touches once, an alarm is sounded once, the automatic timing is carried out on the comprehensive control subsystem 12 for 1 second, and when the alarm is sounded 6 times, a voice system of a terminal broadcasting system is triggered, and the report is that the test result is unqualified; the timing device 11 is automatically triggered when the examinee starts at the starting point, the timing device 11 finishes timing when the examinee finally passes through the ending point, the total time is transmitted to the comprehensive control subsystem 12, the comprehensive control subsystem 12 automatically calculates the time used by the examinee to check, namely, the time of the timing device 11 adds the superposition timing seconds of the alarm sound of the touch sensing alarm device 6, and the examinee checking result is obtained and is subjected to voice broadcasting through the voice broadcasting device 13. Wherein the electronic eye 10 can replay and inquire the image of the whole examination process.

Those of ordinary skill in the art will appreciate that: the discussion of any of the embodiments above is merely exemplary and is not intended to suggest that the scope of the utility model (including the claims) is limited to these examples; the technical features of the above embodiments or in the different embodiments may also be combined within the idea of the utility model, the steps may be implemented in any order, and there are many other variations of the different aspects of the embodiments of the utility model as described above, which are not provided in detail for the sake of brevity.

The present embodiments are intended to embrace all such alternatives, modifications and variances which fall within the broad scope of the appended claims. Therefore, any omissions, modifications, equivalent substitutions, improvements, and the like, which are within the spirit and principles of the embodiments of the utility model, are intended to be included within the scope of the utility model.

Claims (10)

1. An individual tactical assessment system, comprising: the simulation device comprises a plurality of simulation areas which are sequentially arranged, wherein at least one track is arranged in the simulation areas in a communicating manner, supporting devices (4) are arranged on two sides of the simulation areas, the supporting devices (4) of each simulation area are different in height, an assessment unit is arranged on each supporting device (4), and the assessment unit is arranged along the length direction of the track;

the simulation areas comprise a first simulation area (1), a second simulation area (2) and a third simulation area (3), wherein the first simulation area (1), the second simulation area (2) and the third simulation area (3) are sequentially arranged, the length of the first simulation area (1) is smaller than that of the second simulation area (2), and the length of the second simulation area (2) is smaller than that of the third simulation area (3).

2. The individual tactical assessment system of claim 1, wherein the assessment unit comprises a test wire mesh (5), a touch sensing alarm device (6), the test wire mesh (5) is disposed on the support device (4) of the first simulation zone (1) and the second simulation zone (2), and the touch sensing alarm device (6) is disposed on the test wire mesh (5).

3. An individual tactical assessment system of claim 2, wherein the assessment unit further comprises smoke simulation devices (7), each of the simulation areas being provided with at least one of the smoke simulation devices (7).

4. A single soldier tactical assessment system according to claim 3, wherein said assessment unit further comprises acousto-optic simulation means (8), each of said simulation areas being provided with at least one of said acousto-optic simulation means (8).

5. An individual tactical assessment system according to claim 4, wherein said assessment unit further comprises deluge simulation means (9), each of said simulation areas being provided with at least one of said deluge simulation means (9).

6. An individual tactical assessment system of claim 5, wherein the assessment unit further comprises timing means (11), a timing means (11) being provided on each of the tracks.

7. The individual tactical assessment system of claim 6, wherein the assessment unit further comprises an electronic eye (10), at least one electronic eye (10) being provided on each track.

8. An individual tactical assessment system of claim 7, wherein the assessment unit further comprises wind simulation means (14), each of the simulation zones being provided with at least one wind simulation means (14).

9. The individual tactical assessment system of claim 8, further comprising a comprehensive control subsystem (12), wherein the comprehensive control subsystem (12) is electrically connected with the touch sensing alarm device (6), the smoke simulation device (7), the acousto-optic simulation device (8), the rain simulation device (9), the timing device (11), the electronic eye (10) and the wind blowing simulation device (14).

10. The individual tactical assessment system of claim 9, wherein a voice broadcast device (13) is disposed on the support device (4) at the end point of the third simulation zone (3), and the voice broadcast device (13) is electrically connected with the integrated control subsystem (12).