CN217031098U - Tactics laser lamp - Google Patents

Abstract

The utility model relates to a tactical laser lamp, which comprises a main body, a front end cover arranged in front of the main body, and a switch rear cover arranged behind the main body; the switch rear cover comprises a flashlight connecting sleeve, a rotating base arranged behind the flashlight connecting sleeve and a knob arranged behind the rotating base; this tactics laser lamp is provided with two kinds of lasers, can select suitable laser instrument to carry out work according to the needs of environment, through lid setting regulation rotating basis behind the switch, carries out the selection of laser instrument mode by rotating basis, convenient operation not only, compact structure reliability is high moreover for its effect of performance that tactics laser lamp can be better, and be favorable to saving the electric energy, the operating time of extension laser lamp.

Description

Tactical laser lamp

Technical Field

The utility model belongs to the technical field of laser lamps, and particularly relates to a tactical laser lamp.

Background

Tactical lights (english) are a type of flashlight used with firearms to assist users in identifying targets in low light environments, allowing shooters, law enforcement personnel, or soldiers to illuminate the target while aiming the weapon. The tactical lamp can be held by hand or mounted above a weapon, and the light source and the chamber are parallel to each other. Tactical lights also serve the function of non-lethal force to allow temporary blindness and disorientation of the target; or in case of large metallic Maglite with dry battery number one (D) used by police, the flashlight can be used as a spontoon. Functions particularly relevant to tactical lights include impact resistance, reliability, lightweight construction and a strong and durable battery and light intensity (sealed waterproof). Tactical lights may be fitted with optional filters to produce colored light (e.g., red light to protect the user's night vision goggles), or heads that emit only infrared radiation and are used in conjunction with night vision goggles. Aiming laser functionality may also be added above the tactical lights mounted on the weapon. (low power night aiming, high power day aiming; or low power tuning, high power practice)

The existing tactical lamp light source has a single light source and also has multiple light sources, the tactical lamp with the single light source works under any environment, and the problems of poor environmental adaptability, easy energy waste and the like exist; the tactical lamp with multiple light sources has the defect of complicated structure of a product control switch.

SUMMERY OF THE UTILITY MODEL

The tactical light source aims to solve the problems that the existing tactical light source is a single light source, works under the same light source in any environment, has poor environmental adaptability, is easy to waste energy and the like; the tactical lamp with multiple light sources has the defect of complicated structure of a product control switch.

The tactical laser lamp comprises a main body, a front end cover arranged in front of the main body, and a switch rear cover arranged behind the main body; the switch rear cover comprises a flashlight connecting sleeve, a rotating base arranged behind the flashlight connecting sleeve and a knob arranged behind the rotating base.

Furthermore, a mounting seat of a negative plate is arranged in the connecting sleeve of the flashlight; a gear switch plate is arranged in the rotating base, an insulating sleeve is arranged behind the gear switch plate, a probe mounting hole is formed in the insulating sleeve, a probe is arranged in the probe mounting hole, a probe reset spring is arranged on the probe, a positioning pin mounting hole is further formed in the insulating sleeve, a positioning pin is arranged in the positioning pin mounting hole, a plurality of circumferentially arranged steel ball sockets are further arranged in the rotating base, and the steel ball sockets are located on the periphery of the insulating sleeve; a ball spring mounting groove is formed in the knob, a ball spring is arranged in the ball spring mounting groove, and a steel ball is arranged in front of the ball spring; the knob is further provided with a limiting slider mounting groove, a sliding shaft mounting groove is formed in the limiting slider mounting groove, the sliding shaft mounting groove is communicated with the sliding shaft mounting groove, a sliding shaft is arranged in the sliding shaft mounting groove, a slider resetting spring is arranged on the sliding shaft, a limiting slider is arranged in the sliding block mounting groove, a mounting block is arranged above the limiting slider, a sliding shaft mounting hole is formed in the mounting block, the front end of the slider resetting spring is abutted against the mounting block, and the rear end of the slider resetting spring is abutted against the rear side wall of the sliding shaft mounting groove; a clamping block is also arranged in front of the mounting block; the rotating base is also provided with a sliding groove, and the clamping block is arranged in the sliding groove to slide; a lug is also arranged in the sliding groove; the button is characterized in that a button plate is further arranged in the knob, and a rubber button sleeve is arranged on the button plate.

Furthermore, an insulating tube is arranged in the rear part of the main body, a conductive copper tube is arranged in the insulating tube, a battery is arranged in the conductive copper tube, and a main board is arranged in front of the battery; a high-power laser and a low-power laser are arranged in the front part of the main body; the high-power laser device and the low-power laser device are respectively provided with a laser device pressing ring in front, a pressing cover is arranged in front of the laser device pressing ring, protective glass is arranged in front of the pressing cover, and a lens rubber sleeve is arranged in front of the protective glass.

Further, the lateral wall of the front end of the main body is provided with a gland mounting groove, and a screw hole is formed in the gland mounting groove.

Furthermore, the periphery of the main body is also provided with fine adjustment screw mounting holes, fine adjustment screws are arranged in the fine adjustment screw mounting holes and are in contact with the high-power laser or the low-power laser, guide columns are further arranged on the opposite sides of the high-power laser or the low-power laser and the fine adjustment screws, and reset springs are arranged on the guide columns.

Furthermore, the periphery of the main body is provided with an adjusting button, and a damping column mounting hole is formed in the side wall in front of the adjusting button, and a damping column is arranged in the damping column mounting hole.

Furthermore, the periphery of the rotating base is also provided with scale marks.

Furthermore, a connecting column is arranged in the middle of the front of the knob.

Furthermore, an electrode plate is arranged on the gear switch plate.

The utility model has the beneficial effects that: the tactical laser lamp provided by the utility model is provided with two lasers, the suitable laser can be selected to work according to the requirement of the environment, the adjusting rotary base is arranged on the switch rear cover, and the rotary base is used for selecting the working mode of the laser, so that the tactical laser lamp is convenient to operate, has a compact structure and high reliability, can better play the function, is beneficial to saving electric energy and prolonging the working time of the laser lamp.

The present invention will be described in further detail with reference to examples.

Drawings

Fig. 1 is a schematic view of the overall structure of a tactical laser lamp.

Fig. 2 is a schematic cross-sectional view of the switch rear cover.

Fig. 3 is a schematic structural view of the spin base.

Fig. 4 is a schematic front view of the spin base.

Fig. 5 is a schematic assembly structure diagram of the switch rear cover.

Fig. 6 is a schematic view of the front assembly of the tactical laser light.

Fig. 7 is a schematic view of the rear assembly of the tactical laser light.

Fig. 8 is an overall cross-sectional schematic view of a tactical laser light.

In the figure: 1. a main body; 2. a front end cap; 3. opening and closing the rear cover; 4. a flashlight connecting sleeve; 5. a rotating base; 6. a knob; 7. a negative plate; 8. a mounting seat; 9. a shift switch plate; 10. an insulating sleeve; 11. A probe mounting hole; 12. a probe; 13. a probe return spring; 14. a positioning pin mounting hole; 15. positioning pins; 16. steel ball pits; 17. a spring mounting groove; 18. a ball spring; 19. steel balls; 20. a limiting slide block mounting groove; 21. a slide shaft mounting groove; 22. a slide shaft; 23. a slider return spring; 24. a limiting slide block; 25. mounting a block; 26. a slide shaft mounting hole; 27. a clamping block; 28. a sliding groove; 29. a bump; 30. a key sheet; 31. a rubber key sleeve; 32. an insulating tube; 33. a conductive copper tube; 34. a battery; 35. a main board; 36. a high power laser; 37. a low power laser; 38. pressing a ring by a laser; 39. A gland; 40. protecting glass; 41. a lens gum cover; 42. a sliding shaft plug; 43. a gland mounting groove; 44. screw holes; 45. fine adjustment of screw mounting holes; 46. fine adjustment of screws; 47. a guide post; 48. a reset spring; 49. a damping column mounting hole; 50. a damping column; 51. scale marks are marked; 52. connecting columns; 53. An electrode sheet; 54. connecting a nut; 55. a screw; 56. a second mounting screw; 57. torch threads; 58. a first seal ring; 59. a second seal ring; 60. a snap ring; 61. rotating the base threads; 62. A third seal ring; 63. the flashlight connecting sleeve is internally threaded; 64. the first connecting column is perforated; 65. the second connecting column is perforated.

Detailed Description

To further explain the technical means and effects of the present invention adopted to achieve the intended purpose, the following detailed description of the embodiments, structural features and effects of the present invention will be made with reference to the accompanying drawings and examples.

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "center", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "aligned", "overlapping", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on those shown in the drawings, and are merely for convenience of description and simplicity of description, and do not indicate or imply that the devices or elements referred to must have particular orientations, be constructed and operated in particular orientations, and therefore, are not to be construed as limiting the present invention.

The terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature; in the description of the present invention, "a plurality" means two or more unless otherwise specified.

Example 1

The embodiment provides a light source as shown in fig. 1 to 8 for solving the problems that the conventional tactical light source is a single light source, works under the same light source in any environment, has poor environmental adaptability, is easy to waste energy and the like.

The tactical laser lamp comprises a main body 1, a front end cover 2 arranged in front of the main body 1 and a switch rear cover 3 arranged behind the main body 1, specifically, flashlight threads 57 are arranged on the periphery of the front end of the main body 1, the flashlight threads 57 are matched with a first sealing ring 58 arranged in the rear end of the front end cover 2 to realize the connection of the front end cover 2 and the main body 1, a second sealing ring 59 is arranged on the periphery of the front end of the main body 1, a clamping ring 60 is arranged in the front end of the switch rear cover 3, and the clamping ring 60 is matched with the second sealing ring 59 to realize the connection of the main body 1 and the switch rear cover 3; the switch rear cover 3 comprises a flashlight connecting sleeve 4, a rotating base 5 arranged behind the flashlight connecting sleeve 4 and a knob 6 arranged behind the rotating base 5; the connecting mode of the flashlight connecting sleeve 4 and the rotating base 5 is similar to the above-mentioned connecting mode, specifically, the periphery of the front end of the rotating base 5 is provided with a rotating base thread 61, a third sealing ring 62 arranged in the rear end of the flashlight connecting sleeve 4 is matched with the third sealing ring 62 through the rotating base thread 61, so that the connection of the flashlight connecting sleeve 4 and the rotating base 5 is realized; the knob 6 is movably connected to the spin base 5 through a connecting post 52 and a connecting nut 54 described below, and the knob 6 is movably connected to the spin base 5.

Further, as shown in fig. 2, 5, and 8, a mounting seat 8 of the negative electrode plate 7 is disposed in the middle of the torch connecting sleeve 4, the negative electrode plate 7 is disposed inside the torch connecting sleeve 4 through the mounting seat 8, the spring component of the negative electrode plate 7 faces the front side, a third sealing ring 62 is disposed around the inner wall of the rear end of the torch connecting sleeve 4, and a torch connecting sleeve internal thread 63 that is engaged with the rotary base thread 61 is disposed in front of the third sealing ring 62.

Further, as shown in fig. 2, 3, and 4, a gear switch plate 9 is arranged in the rotating base 5, an insulating sleeve 10 is arranged behind the gear switch plate 9, specifically, a through hole for clamping the insulating sleeve 10 is arranged in the middle inside the rotating base 5, the insulating sleeve 10 is arranged in the through hole, the gear switch plate 9 is arranged in front of the through hole, and is in threaded connection with the rotating base 5 through 3 screws 55; a first connecting column through hole 64 is formed in the center of the gear switch plate 9, and a second connecting column through hole 65 is formed in the center of the insulating sleeve 10; a connecting column 52 facing the front is arranged in the center of the interior of the knob 6, connecting threads are arranged on the periphery of the end part of the connecting column 52, and the connecting column 52 is movably connected with the connecting nut 54 after sequentially passing through a second connecting column through hole 65 in the center of the insulating sleeve 10 and a first connecting column through hole 64 in the center of the gear switch plate 9.

Further, two probe mounting holes 11 are formed in the insulating sleeve 10, the two probe mounting holes 11 are symmetrically arranged with the second connecting column through hole 65 as a center, one probe 12 is arranged in each probe mounting hole 11, a probe return spring 13 is arranged on each probe 12, specifically, a mounting seat of the probe return spring 13 is arranged in the middle of each probe 12, one end of each probe return spring 13 is abutted to the mounting seat, the other end of each probe return spring 13 is abutted to a knob 6 arranged behind the probe return spring 13, the probe return spring 13 is limited for replacement, a probe return spring clamping groove is formed in the abutting position of the knob 6 and the probe return spring 13, and the two probe return spring clamping grooves are symmetrically arranged with the connecting column 52 as a center; the insulating sleeve 10 is further provided with two positioning pin mounting holes 14, the two positioning pin mounting holes 14 are perpendicular to the two probe mounting holes 11 and are also symmetrically arranged by taking the second connecting column through hole 65 as a center; two second positioning pin mounting holes are also formed in the knob 6, the two second positioning pin mounting holes are also symmetrically arranged by taking the connecting column 52 as a center, positioning pins 15 are arranged in the positioning pin mounting holes 14, substantially only one half of the positioning pins 15 are arranged in the positioning pin mounting holes 14, and the other half of the positioning pins 15 are arranged in the second positioning pin mounting holes of the knob 6; a plurality of steel ball sockets 16 which are arranged in the circumferential direction are further arranged in the rotating base 5, the steel ball sockets 16 are positioned on the periphery of the insulating sleeve 10, and specifically, 12 steel ball sockets 16 are uniformly arranged on the periphery of the through holes for clamping the insulating sleeve 10; a ball-bumping spring mounting groove 17 is formed in the knob 6, a ball-bumping spring 18 is arranged in the ball-bumping spring mounting groove 17, a steel ball 19 is arranged in front of the ball-bumping spring 18, the steel ball 19 can be arranged in a steel ball socket 16, specifically, 3 ball-bumping spring mounting grooves 17 are arranged and are positioned at the periphery of a reset spring clamping groove and a second positioning pin mounting hole, the 3 ball-bumping spring mounting grooves 17 are arranged at intervals of 120 degrees by taking the connecting column 52 as the center of a circle, and the steel ball 19 can be exactly arranged in the steel ball socket 16 arranged on the rotating base 5; the knob 6 is also provided with a limiting slide block mounting groove 20, and specifically, the limiting slide block mounting groove 20 is positioned on the peripheral side wall of the knob 6; a sliding shaft mounting groove 21 is formed in the limiting sliding block mounting groove 20, specifically, the sliding shaft mounting groove 21 is located between the two collision bead spring mounting grooves 17, the sliding block mounting groove 20 is communicated with the sliding shaft mounting groove 21, a sliding shaft 22 is arranged in the sliding shaft mounting groove 21, and the sliding shaft 22 is fixed in the sliding shaft mounting groove 21 through a sliding shaft plug 42; a slide block return spring 23 is arranged on the slide shaft 22, a limiting slide block 24 is arranged in the slide block mounting groove 20, an installation block 25 is arranged above the limiting slide block 24, a slide shaft mounting hole 26 is formed in the installation block 25, the front end of the slide block return spring 23 is abutted against the rear side wall of the installation block 25, and the rear end of the slide block return spring 23 is abutted against the rear side wall of the slide shaft mounting groove 21; a clamping block 27 is also arranged in front of the mounting block 25; the rotating base 5 is also provided with a sliding groove 28, and the fixture block 27 is arranged in the sliding groove 28 to slide; a lug 29 is also arranged in the sliding groove 28; still be provided with keypad 30 in the knob 6, specific saying so, keypad 30 is located the rear of spliced pole 52 to the button wheaten food of keypad 30 is towards the rear, still be provided with rubber button cover 31 outside keypad 30, can trigger keypad 30 through the rear of extrusion knob 6.

Further, as shown in fig. 5, 6, 7, and 8, an insulating tube 32 is disposed in the rear portion of the main body 1, a conductive copper tube 33 is disposed in the insulating tube 32, two batteries 34 are disposed in the conductive copper tube 33, a main board 35 is disposed in front of the batteries 34, and a spring contacting the batteries 34 is disposed behind the main board 35; a high-power laser 36 and a low-power laser 37 are arranged in the front part of the main body 1, specifically, installation cavities of the high-power laser 36 and the low-power laser 37 are respectively arranged in the front part of the main body 1, and the high-power laser 36 and the low-power laser 37 are arranged in the corresponding installation cavities; a laser pressing ring 38 is arranged in front of each of the high-power laser 36 and the low-power laser 37, a pressing cover 39 is arranged in front of the laser pressing ring 38, only one pressing cover 39 is arranged, the pressing cover 39 is provided with two backward mounting lugs, the mounting lugs are provided with mounting holes, the side wall of the front end of the main body 1 is provided with a pressing cover mounting groove 43, the pressing cover mounting groove 43 is internally provided with a screw hole 44, and the pressing cover 39 and the main body 1 are fixed by a second mounting screw penetrating through the mounting holes and the screw hole 44; a protective glass 40 is arranged in front of the gland 39, and a lens rubber sleeve 41 is arranged in front of the protective glass 40.

Further, a fine adjustment screw mounting hole 45 is further formed in the periphery of the main body 1, a fine adjustment screw 46 is arranged in the fine adjustment screw mounting hole 45, the fine adjustment screw 46 is in contact with the high-power laser 36 or the low-power laser 37, a guide column 47 is further arranged on one side of the high-power laser 36 or the low-power laser 37 opposite to the fine adjustment screw 46, and a reset spring 48 is arranged on the guide column 47; taking the high-power laser 36 as an example, the two fine adjustment screws 46 are vertically arranged, one guide post 47 is arranged on each of the corresponding sides of the two fine adjustment screws 46, and a return spring 48 is arranged on each guide post 47, so that the high-power laser 36 can be extruded when the fine adjustment screws 46 are rotated, the guide posts 47 can be extruded by the high-power laser 36 at the same time, the guide posts 47 can apply pressure to the return springs 48, or the fine adjustment screws 46 are rotated reversely to reduce the force for extruding the high-power laser 36, so that the extrusion force of the guide posts 47 to the return springs 48 can be reduced, and the position adjustment of the high-power laser 36 can be realized; two fine adjustment screws 46, one for fine adjustment of the high power laser 36 in the up-down direction and one for fine adjustment of the high power laser 36 in the left-right direction; the low power laser 37 is tuned in exactly the same way.

Further, a damping column mounting hole 49 is formed in the front side wall of the main body 1, and a damping column 50 is arranged in the damping column mounting hole 49.

Furthermore, the periphery of the rotating base 5 is also provided with scale marks 51, and the scale marks 51 comprise five gears, namely a 2-gear, a 2.. gear, an OFF gear, a 3B-gear and a 3B.. gear, wherein the 2-gear is normally on at low power, the 2.. gear is stroboscopic at low power, the OFF gear is OFF, the 3B-gear is normally on at high power, and the 3B.. gear is stroboscopic at high power; the knob 6 is rotated to a corresponding gear, and the tail key is clicked, so that the working state of the corresponding gear can be opened; when the laser is required to light a high-power gear, the limit slider 24 is pulled first, the safety buckle formed by the fixture block 27 and the projection 29 is unlocked, the knob 6 can be rotated to the 3B-gear or the 3B.

Further, electrode plates 53 are arranged on the gear switch plate 9, and 5 groups of the electrode plates 53 are arranged, and correspond to the 5 gears respectively.

The foregoing is a more detailed description of the utility model in connection with specific preferred embodiments and it is not intended that the utility model be limited to these specific details. For those skilled in the art to which the utility model pertains, numerous simple deductions or substitutions may be made without departing from the spirit of the utility model, which shall be deemed to belong to the scope of the utility model.

Claims (9)

1. A tactical laser light, comprising: comprises a main body (1), a front end cover (2) arranged in front of the main body (1), and a switch rear cover (3) arranged behind the main body (1); the switch rear cover (3) comprises a flashlight connecting sleeve (4), a rotary base (5) arranged behind the flashlight connecting sleeve (4) and a knob (6) arranged behind the rotary base (5).

2. A tactical laser light of claim 1, wherein: a mounting seat (8) of a negative plate (7) is arranged in the flashlight connecting sleeve (4); a gear switch plate (9) is arranged in the rotary base (5), an insulating sleeve (10) is arranged behind the gear switch plate (9), a probe mounting hole (11) is formed in the insulating sleeve (10), a probe (12) is arranged in the probe mounting hole (11), a probe reset spring (13) is arranged on the probe (12), a positioning pin mounting hole (14) is further formed in the insulating sleeve (10), a positioning pin (15) is arranged in the positioning pin mounting hole (14), a plurality of circumferentially arranged steel ball sockets (16) are further arranged in the rotary base (5), and the steel ball sockets (16) are located on the periphery of the insulating sleeve (10); a ball spring mounting groove (17) is formed in the knob (6), a ball spring (18) is arranged in the ball spring mounting groove (17), and a steel ball (19) is arranged in front of the ball spring (18); the knob (6) is further provided with a limiting slider mounting groove (20), a sliding shaft mounting groove (21) is formed in the limiting slider mounting groove (20), the slider mounting groove (20) is communicated with the sliding shaft mounting groove (21), a sliding shaft (22) is arranged in the sliding shaft mounting groove (21), a slider return spring (23) is arranged on the sliding shaft (22), a limiting slider (24) is arranged in the slider mounting groove (20), a mounting block (25) is arranged above the limiting slider (24), a sliding shaft mounting hole (26) is formed in the mounting block (25), the front end of the slider return spring (23) is abutted against the mounting block (25), and the rear end of the slider return spring (23) is abutted against the rear side wall of the sliding shaft mounting groove (21); a clamping block (27) is also arranged in front of the mounting block (25); the rotating base (5) is also provided with a sliding groove (28), and the clamping block (27) is arranged in the sliding groove (28) to slide; a lug (29) is also arranged in the sliding groove (28); a key board (30) is further arranged in the knob (6), and a rubber key sleeve (31) is arranged on the key board (30).

3. A tactical laser light of claim 1, wherein: an insulating tube (32) is arranged in the rear part of the main body (1), a conductive copper tube (33) is arranged in the insulating tube (32), a battery (34) is arranged in the conductive copper tube (33), and a main board (35) is arranged in front of the battery (34); a high-power laser (36) and a low-power laser (37) are arranged in the front part of the main body (1); laser pressing rings (38) are arranged in front of the high-power laser (36) and the low-power laser (37), a pressing cover (39) is arranged in front of the laser pressing ring (38), protective glass (40) is arranged in front of the pressing cover (39), and a lens rubber sleeve (41) is arranged in front of the protective glass (40).

4. A tactical laser light of claim 3 wherein: the side wall of the front end of the main body (1) is provided with a gland mounting groove (43), and a screw hole (44) is formed in the gland mounting groove (43).

5. A tactical laser light of claim 3 wherein: the periphery of main part (1) still is provided with fine setting screw mounting hole (45), be provided with fine setting screw (46) in fine setting screw mounting hole (45), fine setting screw (46) and high power laser instrument (36) or low power laser instrument (37) contact, high power laser instrument (36) or low power laser instrument (37) still are provided with guide post (47) with fine setting screw (46) relative one side, be provided with reset spring (48) on guide post (47).

6. A tactical laser light of claim 3 wherein: the damping column mounting hole (49) is formed in the front side wall of the main body (1), and the damping column (50) is arranged in the damping column mounting hole (49).

7. A tactical laser light of claim 1, wherein: and scale marks (51) are also arranged on the periphery of the rotating base (5).

8. A tactical laser light of claim 1, wherein: the middle part in front of the knob (6) is provided with a connecting column (52).

9. A tactical laser light of claim 2 wherein: and an electrode plate (53) is arranged on the gear switch plate (9).

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