CN210664131U - Infantry chariot shooting training simulator - Google Patents

Abstract

The utility model discloses an infantry combat tank shooting training simulator, include: the human-computer interaction device is used for selecting corresponding training subjects by a shooting trainer according to training needs; the visual device is connected with the human-computer interaction device and used for selecting different real scene fields according to the selected training subjects; the aiming shooting device is used for generating emission information according to different real-scene fields in the operating room of the infantry chariot according to corresponding training subjects; the signal acquisition device is connected with the aiming shooting device and used for acquiring the emission information and converting the emission information into a corresponding shooting signal source; and the signal processing device is connected with the signal acquisition device and used for receiving the shooting signal source, processing the signal source to obtain relevant data of the emission information and displaying the relevant data of the emission information. The simulator can simulate the shooting training scene truly, meet the training requirements and greatly reduce the training cost.

Description

Infantry chariot shooting training simulator

Technical Field

The utility model relates to a for military use training equipment field especially relates to an infantry combat tank shooting training simulator.

Background

The infantry war chariot armored vehicle integrates power, protective power and strong firepower, can cooperate with other arms or independently execute fighting tasks, and is an important assault force relied on by land forces of various countries. However, after the infantry chariot armored vehicle is arranged in a troop, the training guarantee of the shooting trainee becomes a prominent problem: when a shooting student is unfamiliar with new equipment, once the shooting student is not operated properly, the life safety of the shooting student is greatly damaged, and meanwhile, the shooting student also damages the equipment; the long-time real-time dress training also can increase the wearing and tearing of equipment, reduces the life-span of equipment. Therefore, the military training simulation system becomes the first choice for military training of troops under the conditions of meeting the characteristics and the development direction of military training, better adapting to equipment and training requirements and greatly improving the training level of troops and the training requirements of the troops of armored vehicles.

Disclosure of Invention

The utility model discloses aim at solving one of the problem that above-mentioned prior art exists, provide an infantry's chariot shooting training simulator, this simulator can truly simulate the shooting training scene, satisfies the training requirement, reduces the wearing and tearing of training equipment, prolongs its life, protects driver's personal safety, simultaneously also greatly reduced the training cost.

In order to achieve the above object, the utility model provides an infantry combat tank shooting training simulator, include: the human-computer interaction device is used for selecting corresponding training subjects by a shooting trainer according to training needs; the visual device is connected with the human-computer interaction device and used for selecting different real-scene fields according to the selected training subjects; the aiming shooting device is used for generating emission information according to different real-scene fields in the operating room of the infantry chariot according to corresponding training subjects; the signal acquisition device is connected with the aiming shooting device and used for acquiring the emission information and converting the emission information into a corresponding shooting signal source; and the signal processing device is connected with the signal acquisition device and used for receiving the shooting signal source, processing the signal source to obtain relevant data of the transmitting information and displaying the relevant data of the transmitting information through the vision device.

In the technical scheme, a shooting trainer enters an operating room of an infantry combat tank, a human-computer interaction device selects corresponding training subjects, and a vision device displays different training live-action fields according to different training subjects according to the input of the human-computer interaction device; the shooting trainer operates the aiming shooting device according to different training scenes, the aiming shooting device generates corresponding emission information, the emission information is collected by the signal collecting device and converted into a shooting signal source, finally the signal processing device receives the shooting signal source, the shooting signal source is processed to obtain relevant data of the corresponding emission information, and the relevant data of the emission information is displayed. The simulator can truly simulate a shooting training scene, meet training requirements, reduce the abrasion of training equipment, prolong the service life of the training equipment, protect the personal safety of a driver trainer and greatly reduce the training cost.

Additionally, according to the utility model discloses an infantry combat tank shooting training simulator can also have following technical characteristic:

furthermore, the aiming shooting device comprises a gunlength control unit, a sighting telescope unit, a laser ranging unit, an automatic loading unit and a fire control computer unit.

Further, the signal processing apparatus includes: the power supply circuit is used for providing voltage for the signal acquisition device and the signal processing device; the digital decoder is used for receiving the shooting signal source, amplifying the shooting signal source, converting the amplified shooting signal source into a digital signal and filtering the digital signal; the processing unit is used for acquiring relevant data of the transmitting information according to the filtered digital signal; and the display unit is used for displaying the related data of the transmitted information.

Preferably, the digital decoder comprises: the amplifying circuit is used for amplifying the shooting signal source; the analog-to-digital converter is used for converting the amplified shooting signal source into a digital signal; and the filter circuit is used for carrying out filter processing on the digital signal.

Preferably, the signal processing apparatus further includes: and the sharing unit is used for uploading the relevant data of the transmitting information to a server.

Preferably, the signal processing apparatus further includes: and the storage unit is used for storing the related data of the transmission information.

Further, the signal processing apparatus further includes: and the sound effect unit is used for generating sound effect of real vehicle shooting.

Preferably, the signal processing apparatus further includes: and the result evaluation unit is used for evaluating the degree of completion of the operation of the aiming shooting device by the shooting trainer according to the training subjects and carrying out grade evaluation.

According to the utility model discloses an infantry combat tank shooting training simulator, its additional technical characteristic still has following technological effect: and uploading relevant data of the transmitted information to a server through a network by arranging a sharing unit. The sharing unit can be used for realizing the sharing of the field data; the historical data of the occurrence information can be acquired at any time by arranging the storage unit.

Drawings

FIG. 1 is an infantry chariot shooting training simulator;

FIG. 2 is a schematic diagram of the structure of an infantry combat tank shooting training simulator;

fig. 3 is a block diagram of a digital decoder.

In the figure, a simulator 100; a human-computer interaction device 10; a vision device 20; an aiming shooting device 30; a signal acquisition device 40; a signal processing device 50; a power supply circuit 501; a digital decoder 502; an amplifier circuit 5021; an analog-to-digital converter 5022; a filter circuit 5023; a processing unit 503; a display unit 504; a sharing unit 505; a storage unit 506; a sound effect unit 507; a result evaluation unit 508.

Detailed Description

The present invention will be further explained with reference to the accompanying drawings.

The following description is provided with reference to the accompanying drawings to assist in a comprehensive understanding of various embodiments of the invention as defined by the claims. It includes various specific details to assist in this understanding, but these details should be construed as merely exemplary. Accordingly, those of ordinary skill in the art will recognize that changes and modifications may be made to the various embodiments described herein without departing from the scope of the present invention, which is defined by the following claims. Moreover, descriptions of well-known functions and constructions may be omitted for clarity and conciseness.

It will be apparent to those skilled in the art that the following descriptions of the various embodiments of the present invention are provided for illustration only and not for the purpose of limiting the invention as defined by the appended claims.

Throughout the description and claims of this specification, the words "comprise" and variations of the words, for example "comprising" and "comprises", mean "including but not limited to", and are not intended to (and do not) exclude other components, integers or steps.

According to the utility model discloses a soldier's chariot shooting training simulator 100, as shown in fig. 1, fig. 2, include: the device comprises a man-machine interaction device 10, a viewing device 20, an aiming shooting device 30, a signal acquisition device 40 and a signal processing device 50.

The human-computer interaction device 10 is used for selecting corresponding training subjects according to training requirements by a shooting trainer; that is, a plurality of shooting training subjects are provided in the human machine interaction device 10, and the shooting trainer inputs a training subject to be selected to the training simulator 100 through the human machine interaction device 10. And a gunner seat is also arranged in the operating room and is positioned in the operating room, so that a shooting trainer can conveniently take the operating room.

The visual device 20 is connected with the human-computer interaction device 10 and used for selecting different real-scene fields according to the selected training subjects; specifically, the human-computer interaction device 10 is used as an input end for inputting a selected subject signal, and the vision device 20 receives the selected subject signal and selects different real-scene sites; the live-action field is set in a simulation mode according to shooting training requirements, and the live-action field further comprises a target object, an obstacle and the like.

The aiming shooting device 30 is used for generating emission information according to different real-scene fields in the operating room of the infantry chariot according to corresponding training subjects; that is, the sighting and firing device 30 is used to simulate a live firearm and generate firing information under a selected training program.

The signal acquisition device 40 is connected with the aiming shooting device 30 and is used for acquiring the emission information and converting the emission information into a corresponding shooting signal source; the emission information is collected by the signal collection device 40 and converted into a firing signal source. The signal acquisition device 40 may be a sensor.

And the signal processing device 50 is connected with the signal acquisition device 40, and is used for receiving the shooting signal source, processing the signal source to obtain relevant data of the emission information, and displaying the relevant data of the emission information through the vision device 20.

It can be understood that, the shooting trainer enters the operating room of the infantry combat tank, the man-machine interaction device 10 selects the corresponding training subjects, and the vision device 20 displays different training live-action fields according to different training subjects according to the input of the man-machine interaction device 10; the shooting trainer operates the aiming shooting device 30 according to different training scenes, the aiming shooting device 30 generates corresponding emission information, the emission information is collected by the signal collecting device 40 and converted into a shooting signal source, finally the signal processing device 50 receives the shooting signal source, the shooting signal source is processed to obtain relevant data of the corresponding emission information, and the relevant data of the emission information is displayed. The simulator 100 can simulate a shooting training scene truly, meet training requirements, reduce the abrasion of training equipment, prolong the service life of the training equipment, protect the personal safety of a driver trainer and greatly reduce the training cost.

Further, the aiming shooting device 30 includes a gunlength manipulating unit, a sighting telescope unit, a laser ranging unit, an automatic loading unit and a fire control computer unit; specifically, the aiming and shooting device 30 is arranged according to an actual infantry combat tank, a gunlength control unit is used for controlling a gun, a sighting telescope unit is used for aiming the gun, a laser ranging unit is used for gun shooting ranging, an automatic loading unit is used for simulating gun loading, and a fire control computer unit is used for selecting the type of a bullet, selecting the working condition and the like.

Further, the signal processing apparatus 50 includes: a power circuit 501, configured to provide voltage for the signal acquisition device 40 and the signal processing device 50; a digital decoder 502, configured to receive the shooting signal source, amplify the shooting signal source, convert the amplified shooting signal source into a digital signal, and filter the digital signal; a processing unit 503, configured to obtain data related to the transmission information according to the filtered digital signal; and a display unit 504 for displaying data related to the transmission information. The signal source is amplified, analog-to-digital converted and displayed in sequence by the signal processing device 50, so that the signal can be more stable.

Preferably, as shown in fig. 3, the digital decoder 502 includes: the amplifying circuit 5021 is used for amplifying the shooting signal source; the analog-to-digital converter 5022 is used for converting the amplified shooting signal source into a digital signal; and a filter circuit 5023 for filtering the digital signal.

Preferably, the signal processing apparatus 50 further includes: and a sharing unit 505, configured to upload related data of the transmission information to a server. The sharing unit 505 is configured to upload data related to the occurrence information to a server via a network. Sharing of field data may be achieved using the sharing unit 505.

Preferably, the signal processing apparatus 50 further includes: a storage unit 506, configured to store data related to the transmission information. Therefore, the historical data of the transmission information can be acquired at any time.

Further, the signal processing apparatus 50 further includes: the sound effect unit 507 is used for generating sound effects of real-vehicle shooting, so that scenes of actual shooting training can be simulated more truly.

Preferably, the signal processing apparatus 50 further includes: a result evaluation unit 508 for evaluating the degree of completion of the operation of the sighting and shooting device 30 by the shooting trainer according to the training subjects and performing grade evaluation. That is, the signal processing device 50 is further provided with a result evaluation unit 508, and the operation of the shooting trainer is evaluated in a rank manner by the result evaluation unit 508, so as to promote the improvement of the result of the driving trainer.

Preferably, the operating room further comprises an environment simulation device and an in-vehicle communication device, wherein the environment simulation device comprises a turret distribution box, a simulation gun tail and the like and is used for simulating environmental conditions. The operating parts are generally a steering machine, a height machine, a control console and the like, and the in-vehicle communication device is used for simulating information communication of people in the vehicle.

The above description is only an exemplary embodiment of the present invention, and is not intended to limit the scope of the present invention, which is defined by the appended claims.

Those skilled in the art will appreciate that various features of the various embodiments of the invention described hereinabove may be omitted, added to, or combined in any manner accordingly. Moreover, the simple transformation and the solution of adapting and functional structure transformation to the prior art, which can be thought of by those skilled in the art, all belong to the protection scope of the present invention.

While the invention has been shown and described with reference to various embodiments, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the scope of the invention as defined by the appended claims.

Claims (8)

1. The utility model provides an infantry combat tank shooting training simulator which characterized in that includes:

the human-computer interaction device (10) is used for selecting corresponding training subjects by a shooting trainer according to training needs;

the visual device (20) is connected with the human-computer interaction device (10) and is used for selecting different real-scene fields according to the selected training subjects;

the aiming shooting device (30) is used for generating emission information according to different real-scene fields in the operating room of the infantry chariot according to corresponding training subjects;

the signal acquisition device (40) is connected with the aiming shooting device (30) and is used for acquiring the emission information and converting the emission information into a corresponding shooting signal source;

and the signal processing device (50) is connected with the signal acquisition device (40) and is used for receiving the shooting signal source, processing the signal source to obtain relevant data of the emission information, and displaying the relevant data of the emission information through the vision device (20).

2. The infantry chariot shooting training simulator of claim 1, wherein the aiming shooting device (30) comprises a gunner manipulating unit, a sighting telescope unit, a laser ranging unit, an automatic loading unit, and a fire control computer unit.

3. An infantry combat tank shooting training simulator according to claim 1, characterized in that said signal processing means (50) comprise:

a power supply circuit (501) for providing voltage for the signal acquisition device (40) and the signal processing device (50);

the digital decoder (502) is used for receiving the shooting signal source, amplifying the shooting signal source, converting the amplified shooting signal source into a digital signal and filtering the digital signal;

a processing unit (503) for obtaining data related to the transmission information from the filtered digital signal; and

a display unit (504) for displaying data related to the transmission information.

4. The infantry combat vehicle shooting training simulator according to claim 3, wherein said digital decoder (502) comprises:

the amplifying circuit (5021) is used for amplifying the shooting signal source;

the analog-to-digital converter (5022) is used for converting the amplified shooting signal source into a digital signal; and

and the filter circuit (5023) is used for carrying out filter processing on the digital signal.

5. An infantry combat tank shooting training simulator according to claim 3, wherein said signal processing means (50) further comprises:

a sharing unit (505) for uploading the relevant data of the transmission information to a server.

6. An infantry combat tank shooting training simulator according to claim 3, wherein said signal processing means (50) further comprises:

a storage unit (506) for storing data related to the transmission information.

7. An infantry combat tank shooting training simulator according to claim 3, wherein said signal processing means (50) further comprises:

and the sound effect unit (507) is used for generating sound effects of real vehicle shooting.

8. An infantry combat tank shooting training simulator according to claim 3, wherein said signal processing means (50) further comprises:

and a result evaluation unit (508) for evaluating the degree of completion of the operation of the aiming shooting device (30) by the shooting trainer according to the training subjects and carrying out grade evaluation.

Images