CN211264555U - Simulated training infrared transmitting device based on sound control - Google Patents

Abstract

The utility model discloses a simulated training infrared transmitting device based on acoustic control, which comprises a carrier, is used for being arranged on a gun barrel through a carrier, an infrared emitter is arranged in the carrier, a collection port is arranged on the side wall of the carrier, the carrier is provided with a noise sensor, the acquisition module of the noise sensor is arranged in the acquisition port, the outer wall of the collecting port is provided with a protective sheet, the carrier is internally provided with a power supply assembly, the infrared emitter is electrically connected with the power supply assembly, the noise sensor is in signal connection with an infrared emitter control unit, for transmitting a signal from the noise sensor to the infrared emitter control unit, for controlling the activation of the infrared emitter by the infrared emitter control unit, in order to anticipate a relatively complex installation of the existing laser device to be optimized, the shooting process is manually controlled by the trainees, and the process is easy to influence the shooting habits of the trainees.

Description

Simulated training infrared transmitting device based on sound control

Technical Field

The utility model relates to a exercise training apparatus, concretely relates to simulation training infrared emission device based on acoustic control.

Background

The exercise is a practice of battle command and action under the guidance of a given situation, is comprehensive training of simulating actual combat implemented by armies after theoretical learning and basic training are completed, equipment put into the exercise is active equipment, a shooting link usually embodied as the quality of trainees is indispensable in the exercise, more links needing shooting in the exercise are needed, and the exercise environment is not unique.

Because the purposes of exercise and actual combat are different, the bullets used in the exercise are usually blank-packed bullets so as to avoid life danger to personnel participating in the exercise, the blank-packed bullets are more in types and are divided into headless blank-packed bullets and headed blank-packed bullets, the blank-packed bullets with the bullets are used, the bullets are usually made of wood, compressed paper fibers or low-density polyethylene plastics, the blank-packed bullets can simulate light, sound and smoke emitted by a weapon, and the blank-packed bullets can not cause injury to the personnel as long as the exercise personnel stand at a muzzle within and outside a meter.

For example, in the process of simulated training for rescuing the hostage outside armed police, in addition to the human body, other solid targets can exist, the laser device and the target receiving device are installed on the equipment, the emitted laser is safe for human eyes, after the target is irradiated by the laser, corresponding smoke is emitted or electronic signals are transmitted according to the hit part, and an observer dispatched by a director group judges that the target is dead or captured.

The existing laser device is relatively complex to install, and therefore the switch of the laser device needs to be corresponding to the trigger position before use, so that the laser device is manually controlled by a trainee in the shooting process, the shooting habit of the trainee is easily influenced in the process, and therefore, the laser shooting application is optimized, and the influence on the habit of the trainee can be reduced in a specific environment, so that the laser device is worthy of being researched.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a simulation training infrared emission device based on acoustic control to it is relatively complicated to expect to optimize current laser device installation, by participating in training personnel manual control at the shooting in-process, and this process easily influences the problem of being trained personnel's shooting custom.

In order to solve the technical problem, the utility model adopts the following technical scheme:

the utility model provides a simulation training infrared emission device based on acoustic control, including the carrier, be used for installing on the barrel by the carrier, be equipped with infrared emitter in the above-mentioned carrier, above-mentioned carrier lateral wall is equipped with gathers the mouth, be equipped with noise sensor in the above-mentioned carrier, gather in mouthful in the collection module of above-mentioned noise sensor is arranged in, above-mentioned collection mouthful outer wall is equipped with the protection plate, be equipped with power supply module in the above-mentioned carrier, above-mentioned infrared emitter is connected with power supply module electricity, above-mentioned noise sensor and infrared emitter the control unit signal connection, be used for carrying the infrared emitter the control unit with the signal by noise sensor, be used for by the infrared.

Preferably, the side wall of the carrier is provided with a mounting groove, and a fitting is inserted into the mounting groove for fixing the carrier on the gun barrel by the fitting.

The further technical scheme is that the fitting comprises a support bottom and an insertion part, the insertion part is located at two ends of the support bottom, the insertion part penetrates through the installation groove, and the upper end of the insertion part is provided with an installation hole used for installing a bolt in the installation hole for locking.

The upper end of the bottom of the support is matched with the lower end of the gun barrel in shape, and the lower end of the carrier is matched with the upper end of the gun barrel in shape and used for clamping the gun barrel by the bottom of the support and the carrier.

The technical scheme is that the elastic element is arranged on the bottom of the support and used for contacting the gun barrel.

Preferably, the lower end of the carrier is provided with an anti-slip layer for abutting against the gun barrel through the anti-slip layer.

Compared with the prior art, the beneficial effects of the utility model are one of following at least:

the utility model discloses a noise that firearms shooting in-process produced triggers infrared emitter, through noise sensor discernment noise decibel, and then reduces the external environment and to the influence on shooting opportunity, and its sound transmits noise sensor's collection module through gathering the mouth, carries out the energy supply to infrared emitter and noise sensor through built-in power supply module.

The utility model locks the carrier through the mounting groove and the fitting part, so that the carrier is tightly attached to the gun barrel; the installation stability is improved by installing the bolts on the insertion parts, and the carrier is pressed on the gun barrel through the interaction of the elastic elements and the bolts, so that the stability of the carrier is improved.

The utility model discloses a carrier lower extreme is equipped with the skid resistant course, slides on the barrel after avoiding the carrier installation.

Drawings

Fig. 1 is a schematic view of the present invention.

Fig. 2 is a schematic structural diagram of the present invention.

Fig. 3 is the utility model discloses protection piece azimuth map.

Fig. 4 is a schematic view of the installation of the elastic element of the present invention.

Description of reference numerals:

1-carrier, 2-infrared emitter, 3-collection port, 4-noise sensor, 5-protection sheet, 6-power supply component, 7-fitting component, 8-elastic component, 101-installation groove, 701-support bottom, 702-insertion part, 703-installation hole and A-gun barrel.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1, 2 and 3, an embodiment of the present invention is an acoustic control based simulated training infrared emitter, which includes a carrier 1 for being mounted on a gun barrel by the carrier 1, wherein the gun barrel may be an existing service gun barrel, and it should be noted that the front end of the gun barrel may be an auxiliary device, such as a compensator or a flame arrester, so that when the carrier 1 is mounted, the upper end of the carrier 1 is higher than the upper end of the auxiliary device, but exceeds the lower end of the sighting device.

Be equipped with infrared emitter 2 in above-mentioned carrier 1, wherein infrared emitter 2 is current infrared emitter, through infrared emitter 2 output infrared laser to the infrared receiver discernment on the target object of being convenient for, thereby acquire design data, so that director group or exercise portion calculate exercise personnel score according to relevant data.

The side wall of the carrier 1 is provided with a collection port 3, the collection port 3 is arranged on the side wall of the carrier 1, a noise sensor 4 is arranged in the carrier 1, a collection module of the noise sensor 4 is arranged in the collection port 3, the noise sensor 4 can be an existing digital noise meter, such as a BYZ08 noise sensor, the collection principle is based on an electret capacitor type gun, the shooting sound of the gun is usually 80 to 110 decibels due to the use of an empty cartridge, the collection decibel range of the noise sensor 4 is 30-120 decibels, and the precision is about 1.5 decibels, so the gun has good applicability.

The noise source of the gun shooting is mainly generated in the impacting process of the internal mechanism of the gun, and the airflow noise appears at the breech opening of the shot shooting, generally speaking, the airflow noise is larger than the noise of the internal mechanism, so the main sound source collected by the noise sensor 4 is the airflow noise in the shot shooting process; the air flow noise belongs to pulse sound, the action duration is hundreds of microseconds, and the action time is within the collection precision range of the noise sensor 4, so that the shooting time can be confirmed through the collected noise decibels through the noise sensor 4.

The outer wall of the collecting port 3 is provided with a protective sheet 5, wherein the protective sheet 5 can be a dust-proof plate; if the firearm is a special type of firearm, the protective sheet 5 may also be an acoustic panel, since the noise generated by the firearm may be greater than 120 db, it being noted that the threshold value set by the noise sensor 4 requires adaptation if an acoustic panel is used.

The carrier 1 is provided with a power supply assembly 6, wherein the power supply assembly 6 can be stored by arranging a power supply box in the carrier, so that the power supply assembly is easy to replace and supplement electric energy; the infrared emitter 2 is electrically connected with a power supply assembly 6, the noise sensor 4 is in signal connection with a control unit of the infrared emitter 2, and the noise sensor 4 is used for transmitting a signal to the control unit of the infrared emitter 2 and controlling the infrared emitter 2 to start by the control unit of the infrared emitter 2.

Based on the above embodiment, another embodiment of the present invention is that the above-mentioned carrier 1 side wall is provided with mounting grooves 101, wherein the mounting grooves 101 are distributed on both sides of the carrier 1 and are arranged in pairs, the fitting 7 is inserted into the above-mentioned mounting grooves 101, the fitting 7 is inserted into the mounting grooves 101 and pressure is applied to the carrier 1 through the mounting grooves 101 for fixing the carrier 1 on the gun barrel by the fitting 7.

Further, the fitting 7 includes a bottom bracket 701 and an insertion portion 702, the bottom bracket 701 may be made of stainless steel, the insertion portion 702 is made of sheet metal, the insertion portion 702 is located at two ends of the bottom bracket 701, the insertion portion 702 passes through the mounting groove 101, wherein the size of the mounting groove 101 is matched with the size of the insertion portion 702, and the upper end of the insertion portion 702 is provided with a mounting hole 703 for receiving a bolt through the mounting hole 703 for locking; wherein, locking mode can be manifold:

for example, if the thickness of the insertion portion 702 can be deformed, the carrier 1 is provided with a stopper hole corresponding to the mounting hole 703, and the insertion portion 702 is fixed by aligning the mounting hole 703 with the stopper hole and inserting a bolt.

For example, if the insertion portion 702 is thick and cannot be deformed, the carrier 1 is provided with mounting holes 703, and bolts are inserted between the two mounting holes 703 and abut against the upper end of the carrier 1 with screws, thereby preventing the attachment 7 from falling off the carrier 1.

Furthermore, the upper end of the support bottom 701 is matched with the shape of the lower end of the gun barrel, the lower end of the carrier 1 is matched with the shape of the upper end of the gun barrel, and the support bottom 701 and the carrier 1 are used for clamping the gun barrel; thereby avoiding the carrier 1 to shake on the barrel, effectively improving the stability of the infrared emitter 3 emission process.

Furthermore, referring to fig. 4, according to another embodiment of the present invention, the elastic element 8 is disposed on the bottom support 701 for contacting the gun barrel by the elastic element 8, since the gun barrel has a shake phenomenon during the process, the elastic element 8 may be elastic rubber, or may be a spring set distributed on the bottom support 701, and after the elastic element 8 abuts against the gun barrel, a certain downward pressure is applied to the bottom support 701, thereby further stabilizing the contact between the lower end of the carrier 1 and the gun barrel.

Based on the above-mentioned embodiment, the utility model discloses a another embodiment is, it is more because the barrel of gun is the columniform condition, and the columniform probably has carrier 1 axial motion's on the barrel risk, consequently, 1 lower extreme of above-mentioned carrier is equipped with the skid resistant course for contradict the barrel by the skid resistant course, through skid resistant course laminating barrel, increase the frictional force between barrel and the carrier 1, thereby when carrier 1 sticiss the barrel, effectively prevent that carrier 1 from sliding on the barrel, guarantee infrared emitter 2's stability in use.

Reference throughout this specification to "one embodiment," "another embodiment," "an embodiment," "a preferred embodiment," or the like, means that a particular feature, structure, or characteristic described in connection with the embodiment is included in at least one embodiment described generally in this application. The appearances of the same phrase in various places in the specification are not necessarily all referring to the same embodiment. Further, when a particular feature, structure, or characteristic is described in connection with any embodiment, it is submitted that it is within the scope of the invention to effect such feature, structure, or characteristic in connection with other embodiments.

Although the invention has been described herein with reference to a number of illustrative embodiments thereof, it should be understood that numerous other modifications and embodiments can be devised by those skilled in the art that will fall within the spirit and scope of the principles of this invention. More specifically, various variations and modifications are possible in the component parts and/or arrangements of the subject combination arrangement within the scope of the disclosure, the drawings and the appended claims. In addition to variations and modifications in the component parts and/or arrangements, other uses will also be apparent to those skilled in the art.

Claims (6)

1. A simulated training infrared transmitting device based on voice control comprises a carrier (1) and is used for being installed on a gun barrel through the carrier (1), and is characterized in that: be equipped with infrared emitter (2) in carrier (1), carrier (1) lateral wall is equipped with gathers mouthful (3), be equipped with noise sensor (4) in carrier (1), the collection module of noise sensor (4) is arranged in gathering mouthful (3), it is equipped with protection plate (5) to gather mouthful (3) outer wall, be equipped with power supply module (6) in carrier (1), infrared emitter (2) are connected with power supply module (6) electricity, noise sensor (4) and infrared emitter (2) the control unit signal connection for carry infrared emitter (2) the control unit with the signal by noise sensor (4), be used for by infrared emitter (2) the control unit control infrared emitter (2) start-up.

2. The infrared transmitter for simulated training based on voice control as claimed in claim 1, wherein: the side wall of the carrier (1) is provided with a mounting groove (101), and a fitting part (7) is inserted into the mounting groove (101) and used for fixing the carrier (1) on the gun barrel through the fitting part (7).

3. The infrared transmitter for simulated training based on voice control as claimed in claim 2, wherein: the fitting part (7) comprises a support bottom part (701) and inserting parts (702), wherein the inserting parts (702) are located at two ends of the support bottom part (701), the inserting parts (702) penetrate through the installation groove (101), and the upper ends of the inserting parts (702) are provided with installation holes (703) for installing bolts in the installation holes (703) for locking.

4. The infrared transmitter for simulated training based on voice control as claimed in claim 3, wherein: the shape of the upper end of the support bottom part (701) is matched with that of the lower end of the gun barrel, and the shape of the lower end of the carrier (1) is matched with that of the upper end of the gun barrel and used for clamping the gun barrel by the support bottom part (701) and the carrier (1).

5. The infrared transmitter for simulated training based on voice control as claimed in claim 4, wherein: the support bottom (701) is provided with an elastic element (8) which is used for contacting the gun barrel through the elastic element (8).

6. The infrared transmitter for simulated training based on voice control as claimed in claim 1, wherein: the lower end of the carrier (1) is provided with an anti-skid layer which is used for abutting against the gun barrel.

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