CN212624778U - Intelligent silencer - Google Patents

Abstract

The utility model discloses an intelligent silencer, belonging to the technical field of shooting games, which comprises a shell, a gun barrel, an infrared unit and a photoelectric unit; set up photoelectric sensing in water bullet projectile bullet way both sides, when entity water bullet passes through the bore, photoelectric sensor detects behind the signal through MCU control infrared transmitter towards the synchronous transmission infrared ray of target, not only possess the true sense organ of live ammunition shooting, and whether the accurate judgement of the infrared ray of accessible ejection is hit, eliminate the recreation divergence, in addition, this application adds the ultraviolet lamp newly, make when obtaining live ammunition shooting and experiencing, photoelectric sensor receives behind the water bullet signal, light through MCU synchronous drive ultraviolet lamp, the water bullet is lighted to the ultraviolet lamp light of lighting sees through the light trap, can directly perceivedly see the trajectory behind the clear water bullet ejection bore, increase interestingly.

Description

Intelligent silencer

Technical Field

The utility model belongs to the technical field of the real person shooting recreation, especially, relate to an intelligent muffler.

Background

In the design of a fighting game, when a plurality of people take part in shooting and fighting, after water bullets hit the middle and the opposite parties, the shooting party and the hit party are difficult to judge whether the shooting party and the hit party hit the middle and the opposite parties, and opinions of the shooting party and the hit party are difficult to unify because the shooting party and the hit party are only identified by naked eyes;

when the electronic gun is completely adopted, although each player is provided with the infrared emission module and the infrared receiving module, the hit player can electronically display that the hit player is hit, the problem of divergence existing in water catapult hitting is solved, and the real fighting sense of a real water catapult is lacked.

The applicant designs an intelligent silencer which is arranged at the mouth of a gun, and emits infrared light when detecting an entity bullet, so that the experience of live ammunition shooting is guaranteed, and whether the bullet is in the middle or not can be accurately judged through the infrared light, so that the divergence in games is solved, and the real experience of players is improved.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an intelligence muffler, it sets up photoelectric sensing in water bullet projectile bullet way both sides, after entity water bullet passes through the bore, photoelectric sensor detects behind the signal through MCU control infrared transmitter towards the synchronous transmission infrared ray of target, not only possess the true sense organ of live ammunition shooting, and whether the accurate judgement of the infrared ray that the accessible jetted out hit, eliminate the recreation divergence, furthermore, this application adds the ultraviolet lamp newly, make when obtaining live ammunition shooting experience, photoelectric sensor receives behind the water bullet signal, light through MCU synchronous drive ultraviolet lamp, the water bullet is lighted through the light trap to the ultraviolet lamp light of lighting, can see the trajectory behind the bore of clear water bullet jet out directly perceived, increase interest.

In order to solve the technical problems of inconvenient hitting judgment and poor shooting reality sense in the shooting game in the prior art, the utility model provides an intelligent silencer which comprises a shell, a gun barrel, an infrared unit and a photoelectric unit;

a housing comprising a sleeve, a bottom cover, and a light homogenizing front cover; the bottom cover and the dodging front cover are respectively connected to two ends of the sleeve; the bottom cover is provided with a gun tube hole a along the axial direction of the sleeve, an internal thread is arranged on the inner wall of the gun tube hole a, the end part of the bottom cover, far away from the sleeve, is provided with two open grooves, and the two open grooves are symmetrically arranged on two sides of the gun tube hole a; the dodging front cover is provided with a gun tube hole b along the axial direction of the sleeve, and the end part of the dodging front cover is provided with an infrared emission opening;

the gun barrel comprises a tube body, a plurality of photoelectric plate connecting columns and a plurality of photoelectric plate positioning columns; the two ends of the tube body are respectively inserted into the gun tube hole a and the gun tube hole b, the inner cavity of the tube body, the gun tube hole a and the gun tube hole b form a communicated gun chamber, and a plurality of pairs of light-transmitting holes are formed in the side wall of the tube body; the photoelectric plate connecting column and the photoelectric plate positioning column are arranged on the side wall of the tube body along the radial direction of the tube body;

the infrared unit comprises an infrared emitter and an infrared emission tube; the infrared transmitting tube is embedded between the outer side wall of the tube body and the inner wall of the sleeve, and the front end of the infrared transmitting tube is inserted into the infrared transmitting port; the infrared emitter is embedded in the inner cavity of the infrared emitting tube;

the photoelectric unit comprises a photoelectric plate, a photoelectric sensor, a plurality of pairs of ultraviolet lamps and an MCU (microprogrammed control Unit); the photoelectric plate comprises a light emitter plate and a light receiver plate which are oppositely arranged, a plurality of pairs of connecting holes and a plurality of pairs of positioning holes are formed in the light emitter plate and the light receiver plate, the connecting holes are matched with the photoelectric plate connecting columns and connected through screws, the positioning holes are matched with the photoelectric plate positioning columns, and the photoelectric plate positioning columns are inserted into the positioning holes to realize connection of the photoelectric plate connecting columns and the photoelectric plate connecting columns; a charging interface is arranged at the end part, close to the bottom cover, of the light emitter plate, the charging interface penetrates through one of the open grooves, and a power supply module is fixed on the surface of the light emitter plate; the end part of the light receiver plate close to the bottom cover is provided with a power switch key which penetrates through the other open slot, the end part of the light emitter plate far away from the bottom cover is connected with the end part of the light receiver plate far away from the bottom cover through an arc-shaped ring plate, and the inner ring surface of the arc-shaped ring plate is clamped on the outer side wall of the pipe body; the photoelectric sensor is matched with the light hole, the photoelectric sensor comprises a light emitter and a light receiver, the light emitter is arranged on the plate surface of the light emitter plate, and the light receiver is arranged on the plate surface of the light receiver plate; each pair of the ultraviolet lamps is matched with the light holes and is respectively arranged on the light emitter plate and the light receiver plate on two sides of the light holes; the MCU is integrated on the photoelectric board and used for acquiring a sensing signal of the photoelectric sensor so as to drive the infrared emitter and the ultraviolet lamp.

Further, the utility model provides an intelligent silencer, wherein, the end of the arc-shaped annular plate far away from the bottom cover is provided with an infrared receiver and led lamp beads; the infrared receiver penetrates through the dodging front cover and is connected to the MCU, and the infrared receiver is used for receiving infrared rays and analyzing the infrared rays through the MCU; the LED lamp beads penetrate through the dodging front cover, and the LED lamp beads are controlled to change color through the MCU after the infrared receiver receives infrared rays; as a match and fire prompt, the LED lamp beads have light prompts with different colors, and players can perform some tactical actions and know whether the players are effectively hit or hit through the prompts.

Further, the utility model provides an intelligent silencer, wherein, infrared transmitting tube passes through universal head and connects to the body, infrared transmitting tube is provided with vertical alignment structure and horizontal alignment structure; the longitudinal calibration structure comprises an adjusting bolt a, the adjusting bolt a is longitudinally connected to the infrared emission tube, a threaded end of the adjusting bolt a is in threaded connection with the infrared emission tube, a bolt head of the adjusting bolt a extends to the outside of the sleeve, and the infrared emission tube rotates clockwise or anticlockwise in a longitudinal plane by taking the universal head as a circular point along with the rotation action of the adjusting bolt a; the horizontal calibration structure comprises an adjusting bolt b, the adjusting bolt b is transversely connected to the infrared emission tube, a threaded end of the adjusting bolt b is in threaded connection with the infrared emission tube, a bolt head of the adjusting bolt b extends to the outside of the sleeve, and the infrared emission tube rotates clockwise or anticlockwise in a horizontal plane by taking the universal head as a circular point along with the rotation action of the adjusting bolt b.

Furthermore, the utility model provides an intelligent silencer, wherein, the infrared transmitting tube includes training transmitting tube and fight transmitting tube that set up side by side, block up convex lens a in the front end of training transmitting tube, block up convex lens b in the front end of fight transmitting tube; the infrared transmitters include low power transmitters and high power transmitters; the low-power transmitter set up in the training launching tube just keeps away from the one end of convex lens a, the high-power transmitter set up in the fight launching tube just keeps away from the one end of convex lens b.

Further, the utility model provides a pair of intelligent muffler, wherein, it is a plurality of right the light trap follow the axis direction interval of body is arranged.

Further, the utility model provides a pair of intelligent muffler, wherein, the photoelectricity board spliced pole is provided with two pairs, and is every pair the photoelectricity board spliced pole relatively and stagger arrange in the tube body lateral wall, the photoelectricity board spliced pole of stagger arrangement more is favorable to connecting fixed reliability.

Further, the utility model provides a pair of intelligent muffler, wherein, the photoelectricity board reference column is provided with a pair ofly, the relative and staggered arrangement of photoelectricity board reference column in the body lateral wall, the photoelectricity board reference column of staggered arrangement more are favorable to positioning accuracy's improvement.

Further, the utility model provides a pair of intelligent muffler, wherein, still include the printing opacity front shroud, the printing opacity front shroud cover is located even light protecgulum a plurality of even unthreaded holes are seted up to the lateral wall of printing opacity front shroud.

The utility model relates to an intelligence muffler compares with prior art and has following advantage: on one hand, the firing practice experience is obtained, infrared rays carrying independent codes are emitted, the hitting information is uploaded to the server after the infrared rays are received, and the server judges whether the hitting is carried out or not, so that the hitting and killing divergence is eliminated; on the other hand, this application adds the ultraviolet lamp newly for when obtaining live ammunition shooting experience, after photoelectric sensor received the water bullet signal, lighted through MCU synchronous drive ultraviolet lamp, the water bullet is lighted to the ultraviolet lamp light of lighting sees through the light trap, can directly perceivedly see the trajectory behind the clear water bullet ejection bore, increase interest.

Drawings

Fig. 1 is a schematic structural view of an intelligent silencer according to the present invention;

FIG. 2 is a schematic view of the alternate position configuration of FIG. 1;

FIG. 3 is an exploded view of an intelligent silencer structure according to the present invention;

FIG. 4 is a schematic view of an assembly relationship of a barrel, a bottom cover and a front cover for light homogenizing of the intelligent silencer of the present invention;

FIG. 5 is a schematic view of an assembly structure of a barrel and an infrared unit of the intelligent silencer of the present invention;

FIG. 6 is a schematic view of the alternate position of FIG. 5;

fig. 7 is the utility model discloses an intelligence muffler barrel, photoelectric unit assembly structure sketch map.

Wherein: 1. a housing; 2. a barrel; 3. an infrared unit; 4. a photoelectric unit; 5. a light-transmitting front cover; 6. a sleeve; 7. a bottom cover; 8. a dodging front cover; 9. a gun tube hole a; 10. an open slot; 11. a gun tube hole b; 12. an infrared emission port; 13. a pipe body; 14. a photoelectric plate connecting column; 15. a photoelectric plate positioning column; 16. a light-transmitting hole; 17. an infrared emitter: 18. an infrared emission tube; 19. training a launching tube; 20. a fight transmitting tube; 21. a universal head; 22. adjusting the bolt a; 23. adjusting the bolt b; 24. a photovoltaic panel; 25. a photosensor; 26. MCU; 27. a light emitter board; 28. a light receptor plate; 29. connecting holes; 30. positioning holes; 31. a charging interface; 32. a power supply module; 33. a power switch key; 34. an arc-shaped ring plate; 35. an infrared receiver; 36. an led lamp bead; 37. a light emitter; 38. a light receptor; 39. a smoothing hole; 40. an ultraviolet lamp; 41. a convex lens a; 42. a convex lens b; 43. a low power transmitter; 44. a high power transmitter.

Detailed Description

The technical solution of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by those skilled in the art without creative efforts belong to the protection scope of the present invention;

it should be noted that, in the description of the present invention, it should be noted that the terms "front", "back", "inner", "outer", "upper", "lower", "both sides", "one end", "the other end", "left", "right", and the like indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, and are only for convenience of description and simplification of the description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

As shown in the figure, the present embodiment provides an intelligent silencer, which comprises a shell 1, a barrel 2, an infrared unit 3, a photoelectric unit 4 and a light-transmitting front cover 5;

the shell 1 comprises a sleeve 6, a bottom cover 7 and a dodging front cover 8; the bottom cover 7 and the dodging front cover 8 are respectively connected to two ends of the sleeve 6; the bottom cover 7 is provided with a gun tube hole a9 along the axial direction of the sleeve 6, an internal thread is formed on the inner wall of the gun tube hole a9, the end part of the bottom cover 7, which is far away from the sleeve 6, is provided with two open grooves 10, and the two open grooves 10 are symmetrically arranged on two sides of the gun tube hole a 9; the dodging front cover 8 is provided with a gun tube hole b11 along the axial direction of the sleeve 6, and the end part of the dodging front cover 8 is provided with an infrared emission opening 12;

the gun barrel 2 comprises a tube body 13, two pairs of photoelectric plate connecting columns 14 and a pair of photoelectric plate positioning columns 15; the two ends of the tube body 13 are respectively inserted into the gun tube hole a9 and the gun tube hole b11, the inner cavity of the tube body 13, the gun tube hole a9 and the gun tube hole b11 form a communicated gun chamber, and a plurality of pairs of light holes 16 are formed in the side wall of the tube body 13 at intervals along the axial direction of the tube body 13; each pair of the photovoltaic panel connection posts 14 is oppositely and staggeredly arranged on the side wall of the tube body 13, and the photovoltaic panel positioning posts 15 are oppositely and staggeredly arranged on the side wall of the tube body 13;

the infrared unit 3 comprises an infrared emitter 17 and an infrared emitting tube 18; the infrared emission tube 18 is embedded between the outer side wall of the tube body 13 and the inner wall of the sleeve 6, and the front end of the infrared emission tube 18 is inserted into the infrared emission port 12; the infrared emitter 17 is embedded in the inner cavity of the infrared emission tube 18, wherein, as shown in fig. 5, the infrared emission tube 18 comprises a training emission tube 19 and a fighting emission tube 20 which are arranged in parallel, a convex lens a41 is blocked at the front end of the training emission tube 19, and a convex lens b42 is blocked at the front end of the fighting emission tube 20; the infrared emitters 17 include a low power emitter 43 and a high power emitter 44; the low power transmitter 43 is disposed at one end of the training transmitting tube 19 away from the convex lens a41, the high power transmitter 44 is disposed at one end of the battle transmitting tube 20 away from the convex lens b 42;

as shown in fig. 3, in the present embodiment, the infrared emission tube 18 is connected to the tube body 13 through a universal head 21, and the infrared emission tube 18 is provided with a longitudinal calibration structure and a transverse calibration structure; the longitudinal alignment structure comprises an adjusting bolt a22, the adjusting bolt a22 is longitudinally connected to the infrared emission tube 18, the threaded end of the adjusting bolt a22 is threadedly connected to the infrared emission tube 18, the bolt head of the adjusting bolt a22 extends to the outside of the sleeve 6, and the infrared emission tube 18 rotates clockwise or anticlockwise in a longitudinal plane with the universal head 21 as a round point along with the rotation action of the adjusting bolt a 22; the lateral alignment structure comprises an adjusting bolt b23, the adjusting bolt b23 is transversely connected to the infrared emission tube 18, the threaded end of the adjusting bolt b23 is connected to the infrared emission tube 18 in a threaded manner, the bolt head of the adjusting bolt b23 extends to the outside of the sleeve 6, and the infrared emission tube 18 rotates clockwise or anticlockwise in a horizontal plane with the universal head 21 as a round point along with the rotation action of the adjusting bolt b 23;

the photoelectric unit 4 comprises a photoelectric plate 24, a photoelectric sensor 25, a plurality of pairs of ultraviolet lamps 40 and an MCU 26; the photoelectric plate 24 comprises a light emitter plate 27 and a light receiver plate 28 which are oppositely arranged, a plurality of pairs of connecting holes 29 and a plurality of pairs of positioning holes 30 are correspondingly formed between the light emitter plate 27 and the light receiver plate 28, the connecting holes 29 are matched with the photoelectric plate connecting columns 14 and are connected through screws, the positioning holes 30 are matched with the photoelectric plate positioning columns 15, and the photoelectric plate positioning columns 15 are inserted into the positioning holes 30 to realize connection of the photoelectric plate positioning columns and the photoelectric plate connecting columns; a charging interface 31 is arranged at the end part of the light emitter plate 27 close to the bottom cover 7, the charging interface 31 penetrates through one of the open grooves 10, and a power supply module 32 is fixed on the plate surface of the light emitter plate 27; a power switch key 33 is arranged at the end part of the light receiver plate 28 close to the bottom cover 7, the power switch key 33 penetrates through the other open slot 10, the end part of the light emitter plate 27 far from the bottom cover 7 is connected with the end part of the light receiver plate 28 far from the bottom cover 7 through an arc-shaped ring plate 34, the inner ring surface of the arc-shaped ring plate 34 is clamped on the outer side wall of the pipe body 13, and an infrared receiver 35 and led lamp beads 36 are arranged at the end part of the arc-shaped ring plate 34 far from the bottom cover 7; the infrared receiver 35 penetrates through the dodging front cover 8 and is connected to the MCU26, and is used for receiving infrared rays and analyzing the infrared rays through the MCU 26; the led lamp beads 36 penetrate through the dodging front cover 8, and the led lamp beads 36 are controlled to change color through the MCU26 after the infrared receiver 35 receives infrared rays; the photoelectric sensor 25 is matched with the light hole 16, the photoelectric sensor 25 comprises a light emitter 37 and a light receiver 38, the light emitter 37 is arranged on the plate surface of the light emitter plate 27, and the light receiver 38 is arranged on the plate surface of the light receiver plate 28; each pair of the ultraviolet lamps 40 is matched with the light transmission hole 16 and is respectively arranged on the light emitter plate 27 and the light receiver plate 28 at two sides of the light transmission hole 16; the MCU26 is integrated in the photoelectric panel 24 and used for acquiring a sensing signal of the photoelectric sensor 25 so as to drive the infrared emitter 17 and the ultraviolet lamp 40;

the light-transmitting front cover 5 is sleeved on the dodging front cover 8, and a plurality of dodging holes 39 are formed in the side wall of the light-transmitting front cover 5; the high-power LED lamp beads 36 are mounted on the inner side of the light-transmitting front cover 5 and used as a fight and fire prompt, light-equalizing holes 39 are punched in the surface of the light-transmitting front cover 5, when a player opens a gun and hits or is hit, the light prompts of different colors are lightened by the internal LED lamp beads 36 (the light of the red light for opening the gun simulates muzzle flame, the light of the blue light for hitting and the light of the white light for hitting) are uniformly transmitted out through the light-equalizing holes 39 to prompt the player, and the player needs the prompt to perform certain tactical actions and know whether the player effectively hits or is hit.

The working process and principle are as follows: when the water bullet passes through the gun bore, light emitted by the light emitter 37 arranged on the light emitter plate 27 to the light receiver 38 arranged on the light receiver plate 28 is shielded by the water bullet, the photoelectric sensor 25 senses the signal and then sends the signal to the MCU, the MCU lights the ultraviolet lamp 40 through the driving circuit and simultaneously controls the infrared emitter 17 to emit infrared rays, in order to improve the sense of reality, the MCU synchronously controls the LED lamp beads to display red light to indicate firing, in a dark environment, the lighting effect of the ultraviolet lamp 40 on the water bullet is obvious, the water ejection impact trajectory can be obviously seen, and the interestingness is enhanced; the infrared transmitting tube can be used for training mode and fight mode respectively including training transmitting tube 19 and the fight transmitting tube 20 that sets up side by side in this application, under training mode, only need open the low power transmitter 43 in the training transmitting tube 19 and can be used for the training of shooting, under fight mode, only need open the high power transmitter 44 in the fight transmitting tube 20 and can be used for fighting the recreation.

The details of the present invention are well known to those skilled in the art.

Finally, it is to be noted that: the above embodiments are only used for illustrating the technical solutions of the present invention and not for limiting, and although the present invention has been described in detail with reference to the examples, it should be understood by those skilled in the art that the technical solutions of the present invention can be modified and replaced with equivalents without departing from the spirit and scope of the technical solutions of the present invention, which should be covered by the scope of the claims of the present invention.

Claims (8)

1. An intelligent silencer is characterized by comprising a shell, a gun barrel, an infrared unit and a photoelectric unit;

a housing comprising a sleeve, a bottom cover, and a light homogenizing front cover; the bottom cover and the dodging front cover are respectively connected to two ends of the sleeve; the bottom cover is provided with a gun tube hole a along the axial direction of the sleeve, an internal thread is arranged on the inner wall of the gun tube hole a, the end part of the bottom cover, far away from the sleeve, is provided with two open grooves, and the two open grooves are symmetrically arranged on two sides of the gun tube hole a; the dodging front cover is provided with a gun tube hole b along the axial direction of the sleeve, and the end part of the dodging front cover is provided with an infrared emission opening;

the gun barrel comprises a tube body, a plurality of photoelectric plate connecting columns and a plurality of photoelectric plate positioning columns; the two ends of the tube body are respectively inserted into the gun tube hole a and the gun tube hole b, the inner cavity of the tube body, the gun tube hole a and the gun tube hole b form a communicated gun chamber, and a plurality of pairs of light-transmitting holes are formed in the side wall of the tube body; the photoelectric plate connecting column and the photoelectric plate positioning column are arranged on the side wall of the tube body along the radial direction of the tube body;

the infrared unit comprises an infrared emitter and an infrared emission tube; the infrared transmitting tube is embedded between the outer side wall of the tube body and the inner wall of the sleeve, and the front end of the infrared transmitting tube is inserted into the infrared transmitting port; the infrared emitter is embedded in the inner cavity of the infrared emitting tube;

the photoelectric unit comprises a photoelectric plate, a photoelectric sensor, a plurality of pairs of ultraviolet lamps and an MCU (microprogrammed control Unit); the photoelectric plate comprises a light emitter plate and a light receiver plate which are oppositely arranged, a plurality of pairs of connecting holes and a plurality of pairs of positioning holes are formed in the light emitter plate and the light receiver plate, the connecting holes are matched with the photoelectric plate connecting columns and connected through screws, the positioning holes are matched with the photoelectric plate positioning columns, and the photoelectric plate positioning columns are inserted into the positioning holes to realize connection of the photoelectric plate connecting columns and the photoelectric plate connecting columns; a charging interface is arranged at the end part, close to the bottom cover, of the light emitter plate, the charging interface penetrates through one of the open grooves, and a power supply module is fixed on the surface of the light emitter plate; the end part of the light receiver plate close to the bottom cover is provided with a power switch key which penetrates through the other open slot, the end part of the light emitter plate far away from the bottom cover is connected with the end part of the light receiver plate far away from the bottom cover through an arc-shaped ring plate, and the inner ring surface of the arc-shaped ring plate is clamped on the outer side wall of the pipe body; the photoelectric sensor is matched with the light hole, the photoelectric sensor comprises a light emitter and a light receiver, the light emitter is arranged on the plate surface of the light emitter plate, and the light receiver is arranged on the plate surface of the light receiver plate; each pair of the ultraviolet lamps is matched with the light holes and is respectively arranged on the light emitter plate and the light receiver plate on two sides of the light holes; the MCU is integrated on the photoelectric board and used for acquiring a sensing signal of the photoelectric sensor so as to drive the infrared emitter and the ultraviolet lamp.

2. The intelligent silencer according to claim 1, wherein an infrared receiver and led lamp beads are arranged at the end of the arc-shaped annular plate far away from the bottom cover; the infrared receiver penetrates through the dodging front cover and is connected to the MCU, and the infrared receiver is used for receiving infrared rays and analyzing the infrared rays through the MCU; the LED lamp beads penetrate through the dodging front cover, and the LED lamp beads are controlled to change color through the MCU after the infrared receiver receives infrared rays.

3. The smart muffler of claim 1, wherein the infrared emission tube is connected to the pipe body by a universal head, the infrared emission tube being provided with a longitudinal alignment structure and a lateral alignment structure: the longitudinal calibration structure comprises an adjusting bolt a, the adjusting bolt a is longitudinally connected to the infrared emission tube, a threaded end of the adjusting bolt a is in threaded connection with the infrared emission tube, a bolt head of the adjusting bolt a extends to the outside of the sleeve, and the infrared emission tube rotates clockwise or anticlockwise in a longitudinal plane by taking the universal head as a circular point along with the rotation action of the adjusting bolt a; the horizontal calibration structure comprises an adjusting bolt b, the adjusting bolt b is transversely connected to the infrared emission tube, a threaded end of the adjusting bolt b is in threaded connection with the infrared emission tube, a bolt head of the adjusting bolt b extends to the outside of the sleeve, and the infrared emission tube rotates clockwise or anticlockwise in a horizontal plane by taking the universal head as a circular point along with the rotation action of the adjusting bolt b.

4. The intelligent silencer according to claim 1, wherein the infrared emission tube comprises a training emission tube and a fighting emission tube which are arranged in parallel, a convex lens a is plugged at the front end of the training emission tube, and a convex lens b is plugged at the front end of the fighting emission tube; the infrared transmitters include low power transmitters and high power transmitters; the low-power transmitter set up in the training launching tube just keeps away from the one end of convex lens a, the high-power transmitter set up in the fight launching tube just keeps away from the one end of convex lens b.

5. The intelligent silencer of claim 1, wherein a plurality of pairs of the light holes are spaced along an axis of the pipe body.

6. The intelligent silencer of claim 1, wherein the photovoltaic panel connection posts are provided in two pairs, each pair being disposed opposite and offset from the side wall of the duct body.

7. The intelligent silencer of claim 1, wherein a pair of the positioning posts of the photovoltaic panel are arranged, and the positioning posts of the photovoltaic panel are oppositely and staggeredly arranged on the side wall of the pipe body.

8. The intelligent silencer of claim 1, further comprising a light-transmitting front cover, wherein the light-transmitting front cover is sleeved on the light-homogenizing front cover, and a plurality of light-homogenizing holes are formed in the side wall of the light-transmitting front cover.

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