CN219829646U - Double-laser main gun simulation transmitter - Google Patents

Abstract

The utility model provides a double-laser main gun simulation transmitter which comprises a shell, a laser and an aiming adjusting component, wherein the shell is arranged on a gun barrel of a weapon, the laser is arranged in a first through hole at the front end of the shell, the laser comprises a first laser head and a second laser head, light paths of invisible laser emitted by the first laser head and visible laser emitted by the second laser head are parallel and light spots coincide, and the aiming adjusting component synchronously adjusts the aiming positions of the first laser head and the second laser head. According to the laser device, the second laser head which is close to and parallel to the invisible laser light path of the first laser head is added, the second laser head emits visible laser, light spots of the two lasers are close to each other within the range of the laser emission distance, the light spot positions of the visible laser can be observed, the standard of the invisible laser can be correspondingly adjusted, an external device is not needed, a single fighter can conveniently operate, and the preparation work before exercise is greatly saved.

Description

Double-laser main gun simulation transmitter

Technical Field

The utility model relates to the field of laser transmitters, in particular to a laser transmitting device.

Background

To accommodate new anti-terrorism situations, it is necessary to strengthen the training of individual combat and tactical combat capabilities and to improve combat skills. The real soldier laser simulation countermeasure training system adopts the principle of photoelastic to perform countermeasure training, can well realize the purpose of battlefield field countermeasure exercise, can enable training soldiers to truly feel the tension atmosphere of field battlefields, correctly treat the presence situation and fully play respective tactical technical capabilities.

Firearms used in practice are generally not charged with ammunition, and when shooting with a laser simulated bullet, if laser sighting is problematic, sighting adjustment of the laser beam by an adjusting member is required. However, since the laser simulating the bullet is invisible to naked eyes, for example, the laser with the wave bands of 940nm and 980nm, the laser can be captured by means of an infrared camera and a display screen, and when the adjustment is aimed, the adjustment is assisted by 2 or more warriors, so that the operation is inconvenient.

Disclosure of Invention

The utility model aims to: the utility model aims to overcome the defects of the prior art and provides a double-laser main gun simulation transmitter which is convenient for a single operator to directly adjust laser aiming.

The technical scheme is as follows: the utility model relates to a double-laser main gun simulation transmitter, which comprises:

a housing mounted on a barrel of a weapon;

the laser is arranged in the first through hole at the front end of the shell, the laser comprises a first laser head and a second laser head, and the invisible laser emitted by the first laser head and the visible laser emitted by the second laser head are parallel in light path and coincide in light spot;

and an alignment regulating member which synchronously regulates alignment positions of the first laser head and the second laser head.

Further, the distance between the first laser head and the second laser head is 5 mm-15 mm.

Further, still include setting up controller, lens and the flash light in the casing, the front end of casing is equipped with the second through-hole of installation lens, the flash light sets up the rear side at the lens, just laser instrument and flash light are connected to the controller.

Still further, the front end of casing is equipped with the protecgulum, the protecgulum seals laser instrument and lens through protecgulum sealing pad, be equipped with the transmission hole that corresponds with first through-hole and second through-hole respectively on protecgulum sealing pad.

Further, the collimation adjustment members include a first adjustment member that adjusts the horizontal collimation of the laser and a second adjustment member that adjusts the vertical collimation of the laser.

Further, a base for bearing the laser is arranged in the shell, and the laser is sleeved with a rubber sleeve and is arranged on the base.

Further, a resilient member in contact with the laser is disposed within the first through hole, the resilient member providing a resilient force opposite the alignment regulating member.

Further, the probe comprises a probe receiver, and a third through hole and a fourth through hole which correspond to the probe receiver are arranged at the front end and the side face of the shell.

The beneficial effects are that: according to the laser device, the second laser head which is close to and parallel to the invisible laser light path of the first laser head is added, the second laser head emits visible laser, the light spots of the two lasers are close to each other within the range of the distance of laser emission, the standard of the invisible laser can be correspondingly adjusted by observing the light spot position of the visible laser, an external device is not needed, a single fighter can conveniently operate, and the preparation work before exercise is greatly saved; the visible laser is only used for auxiliary adjustment, and can be independently turned off after adjustment is completed and is not used in combat exercises.

Drawings

FIG. 1 is a schematic view of the installation of the present utility model;

FIG. 2 is an exploded view of the present utility model;

FIG. 3 is an external view of the present utility model;

FIG. 4 is a schematic structural view of the laser alignment regulating member and the resilient member;

fig. 5 is a schematic view of the installation of the laser alignment regulating member and the resilient member on the housing.

Detailed Description

The technical scheme of the utility model is described in detail below through the drawings, but the protection scope of the utility model is not limited to the embodiments.

A double-laser main gun simulation transmitter 101 is shown in fig. 1, and the bottom can be mounted on a gun barrel 104 of an artillery weapon such as a tank, a step chariot and an assault vehicle through a fixing clamp 102 and a fastening bolt 103. As shown in fig. 2 and 3, the transmitter 101 includes a housing 7, a laser 4, an alignment regulating member 5, a flash 20, a lens 21, a first probe receiver 8, a second probe receiver 11, and a controller. The laser 4, the flash lamp 20, the lens 21, the first probe receiver 8 and the second probe receiver 11 are all arranged in the shell 7, a first through hole, a second through hole and a third through hole for installing the laser 4, the lens 21 and the first probe receiver 8 are respectively arranged at the front end of the shell 7, and the flash lamp 20 is installed at the rear side of the lens 21 through the fixing frame 19. The front end of the housing 7 is provided with a front cover 1, the front cover 1 seals the laser 4, the lens 21 and the first probe receiver 8 by means of a front cover gasket 3, and the bottom surface of the housing 7 is sealed by means of a bottom plate gasket 14 and a bottom plate 15. The front cover 1 and the front cover sealing gasket 3 are provided with respective emission holes corresponding to the first through hole, the second through hole and the third through hole respectively, the emission holes corresponding to the first through hole are provided with first glass 2, and the first glass is arranged at the front side of the laser 4; the emission hole corresponding to the second through hole is provided with a second glass 22, which is mounted on the front side of the lens 21, and both the first glass 2 and the second glass 22 are sealed by waterproof back glue. In addition, the housing 7 is provided on both sides with fourth through holes for mounting the second probe receivers 11, and the first probe receivers 8 and the second probe receivers 11 are mounted in the third through holes and the fourth through holes, respectively, by the connection plates 10 and the receiver gaskets 6.

The laser 4 comprises a first laser head 41 and a second laser head 42, the first laser head 41 emits invisible laser light and the second laser head 42 emits visible laser light, and the distance between the two laser heads is 12.9mm. Because the distance between the two laser heads is very near, the light paths are parallel, the laser spots are gradually enlarged at a distance, and in the distance range used by the laser 4, the two laser spots are close to coincide, so that the sight positions of the visible laser can be observed and adjusted, and the invisible laser light paths are correspondingly adjusted in place when the sight positions are adjusted in place.

A base 16 for carrying the laser 4 is arranged in the shell 7, and a rubber sleeve 12 is sleeved at the rear end of the laser 4 and is arranged on the base 16. The front end of the laser 4 is provided with an alignment regulating member 5, and the alignment regulating member 5 synchronously regulates the alignment positions of the first laser head 41 and the second laser head 42. Specifically, as shown in fig. 4 and 5, the leveling adjusting member 5 includes a first adjusting member and a second adjusting member, the first adjusting member is a first adjusting knob 51 penetrating through the housing 7 and horizontally abutting against the laser 4 and a first adjusting screw thereof, the second adjusting member is a second adjusting knob 5 penetrating through the housing 7 and vertically abutting against the laser 4 and a second adjusting screw thereof, a threaded inner wall of a hole penetrating through the housing 7 for the adjusting screw is provided with threads matched with the adjusting screw, and the adjusting screw can generate thrust in horizontal and vertical directions on the laser 4 while rotating the adjusting knob 5. Further, a resilient member 18 in contact with the laser 4 is provided in the first through hole, the resilient member 18 of the present embodiment being a spring piece, the resilient member 18 being provided at an inclined 45 ° position from between the horizontal direction and the vertical direction, providing a resilient force against the urging force of the first regulation member and the second regulation member. Thus, the laser 4 is supported at its rear end on the base 16 and its front end is collimated by the collimated adjusting member 5 and the resilient member 18.

The first adjusting knob 51 and the first adjusting screw are rotated to push the laser 4, so that the laser 4 can be driven to align with horizontal displacement; the first adjustment knob 51 and its first adjustment screw are rotated in the reverse direction, pushing the laser 4 against the horizontal displacement by the rebound force provided to the laser 4 by the rebound member 18. By rotating the second adjusting knob 52 and the second adjusting screw thereof to push the laser 4, the laser 4 can be driven to vertically displace in an aligned manner; the reverse rotation of the second adjustment knob 52 and its second adjustment screw urges the laser 4 against vertical displacement by the return force provided to the laser 4 by the resilient member 18. The optical path of the laser light is adjusted by the collimation adjustment member 5 so that the laser light can hit the target accurately.

In this embodiment, the controller adopts a motherboard 13 with a model of hrtk_x0206, but other existing controllers can be adopted instead, and the laser 4, the flash lamp 20, the first probe receiver 8 and the second probe receiver 11 are all connected to the motherboard 13. When the laser 4 emits laser, the main board 13 controls the flash lamp 20 to be lightened, and the brightness of the light source generated by the flash lamp 20 is diffused through the lens 21, so that the exposure symptom effect is achieved, and the real shooting scene is simulated. When the other laser hits each probe receiver, the probe receiver transmits a signal to the main board 13, and the main board 13 turns off the laser 4 and can not emit laser. The laser power of the transmitter is relatively large and hurts eyes, so the laser warning film 17 is attached to the transmitter body.

In addition, the transmitter of the embodiment supplies power to the main board 13 through the other main machine and the aviation socket 9, and transmits signals and sends instructions.

As described above, although the present utility model has been shown and described with reference to certain preferred embodiments, it is not to be construed as limiting the utility model itself. Various changes in form and details may be made therein without departing from the spirit and scope of the utility model as defined by the appended claims.

Claims (8)

1. A double-laser main gun simulation transmitter is characterized in that: comprising the following steps:

a housing mounted on a barrel of a weapon;

the laser is arranged in the first through hole at the front end of the shell, the laser comprises a first laser head and a second laser head, and the invisible laser emitted by the first laser head and the visible laser emitted by the second laser head are parallel in light path and coincide in light spot;

and an alignment regulating member which synchronously regulates alignment positions of the first laser head and the second laser head.

2. The dual laser main gun analog transmitter of claim 1, wherein: the interval of first laser head and second laser head is 5mm ~15mm.

3. The dual laser main gun analog transmitter of claim 1, wherein: the laser device comprises a shell, and is characterized by further comprising a controller, a lens and a flash lamp which are arranged in the shell, wherein a second through hole for installing the lens is formed in the front end of the shell, the flash lamp is arranged on the rear side of the lens, and the laser and the flash lamp are connected to the controller.

4. A dual laser main gun analog transmitter according to claim 3, wherein: the front end of the shell is provided with a front cover, the front cover seals the laser and the lens through a front cover sealing gasket, and the front cover sealing gasket are provided with transmitting holes corresponding to the first through hole and the second through hole respectively.

5. The dual laser main gun analog transmitter of claim 1, wherein: the collimation adjustment members include a first adjustment member that adjusts the horizontal collimation of the laser and a second adjustment member that adjusts the vertical collimation of the laser.

6. The dual laser main gun analog transmitter of claim 1, wherein: the laser is characterized in that a base for bearing the laser is arranged in the shell, and the laser is sleeved with a rubber sleeve and is arranged on the base.

7. The dual laser main gun analog transmitter of claim 1, wherein: a resilient member is disposed within the first through hole in contact with the laser, the resilient member providing a resilient force opposite the alignment regulating member.

8. The dual laser main gun analog transmitter of claim 1, wherein: the probe comprises a shell, and is characterized by further comprising a probe receiver, wherein the front end and the side face of the shell are provided with a third through hole and a fourth through hole which correspond to the probe receiver.