CN211260591U

CN211260591U - Tactics laser gun lamp

Info

Publication number: CN211260591U
Application number: CN201921702320.6U
Authority: CN
Inventors: 陈毅
Original assignee: Shenzhen Olight eCommerce Technology Co Ltd
Current assignee: Aolei Technology Group Co ltd; Zhongshan Aolei Technology Co ltd
Priority date: 2019-10-12
Filing date: 2019-10-12
Publication date: 2020-08-14
Anticipated expiration: 2029-10-12

Abstract

The utility model belongs to the field of mobile lighting and discloses a tactical laser gun lamp capable of realizing accurate adjustment, which comprises a laser lamp assembly and a lamp body assembly; the laser lamp assembly is fixedly connected to one side of the lamp body assembly; the lamp body component comprises a lamp body, a clamping component arranged on one side of the lamp body, an LED lamp cap component arranged at one end of the lamp body and a tail cover component arranged at the other end of the lamp body; the laser lamp component comprises a laser seat, a calibration component, a laser tube and a second driving board PCBA; the laser seat is fixedly connected with a lamp body, the laser tube is arranged inside the laser seat, and the laser emitting end of the laser tube is positioned at the opening of the laser seat; the laser tube is electrically connected with the second driving plate PCBA; the periphery of the laser tube is provided with the calibration assembly, so that the laser beam emitted from the laser tube can be accurately adjusted.

Description

Tactics laser gun lamp

Technical Field

The utility model belongs to the field of mobile lighting, a can realize accurate, high-efficient calibration and adjustment, quick assembly disassembly's tactics laser rifle lamp is related to.

Background

Some tactical laser gun lamps in the market have the following problems: (1) the calibration and adjustment of tactical laser gun lamps has the problems of inconvenience and inaccuracy. (2) The tactical laser gun lamp is bulky in structural layout, the weight of the laser gun lamp is increased, the carrying burden of a user is increased, and later-period maintenance is not facilitated. (3) The tactical laser gun lamp needs corresponding tools when being disassembled and assembled from the gun rail, and the operation is very complicated and inconvenient. (4) The single tactical laser gun lamp only has the function of aiming, and when the single tactical laser gun lamp is used at night, the single tactical laser gun lamp is not assisted by other light, so that a user cannot clearly see the condition in the aiming field of vision, and other searchlights are required to be carried, and additional burden is increased.

Disclosure of Invention

An object of the utility model is to prior art not enough, provide a just can realize the tactics laser rifle lamp of accurate adjustment laser angle and fast loading and unloading when fitting for use.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a tactical laser gun lamp comprises a laser lamp assembly and a lamp body assembly; the laser lamp assembly is fixedly connected to one side of the lamp body assembly; the lamp body component comprises a lamp body, a clamping component arranged on one side of the lamp body, an LED lamp cap component arranged at one end of the lamp body and a tail cover component arranged at the other end of the lamp body.

Further, the laser lamp component comprises a laser seat, a calibration component, a laser tube and a second driving board PCBA; the laser seat is fixedly connected with a lamp body, the laser tube is arranged inside the laser seat, and the laser emitting end of the laser tube is positioned at the opening of the laser seat; the laser tube is electrically connected with the second driving plate PCBA; and a calibration assembly is arranged around the laser tube.

Furthermore, the calibration assembly comprises a laser sleeve, an adjusting screw and an adjusting spring, and the laser sleeve is fixedly connected to the opposite end of the laser emitting end on the laser tube; the adjusting screw comprises a first adjusting screw and a second adjusting screw; the adjusting spring comprises a first adjusting spring and a second adjusting spring; the adjusting screw and the adjusting spring are connected to the laser seat and are in contact with the outer edge of the laser sleeve.

Furthermore, the laser sleeve comprises a cuboid structure, the cross section of the cuboid is made in the direction vertical to the axis of the laser sleeve, and the cross section is intersected with four surfaces of the cuboid; one end of the first adjusting spring acts on the lamp body, and the other end of the first adjusting spring acts on the surface A of the four surfaces; in the four surfaces, the opposite surface of the surface A is propped against the first adjusting screw; two surfaces vertical to the surface A are respectively propped against the second adjusting spring and the second adjusting screw.

Further, the laser lamp subassembly still includes laser adjustment subassembly, laser adjustment subassembly includes magnet, the hall switch interact that sets up in magnet and the second drive plate PCBA.

Furthermore, the clamping assembly comprises a fixed clamping block, a handle, a connecting rod and a movable clamping block; the lamp body is fixedly connected with the fixed clamping block; one end of the connecting rod penetrates through the fixed clamping block and is hinged with the handle; the shape of the joint of the handle and the connecting rod is a cam shape; and one end of the connecting rod, which is far away from the fixed clamping block, is connected with the movable clamping block.

Furthermore, one end of the connecting rod, which is far away from the fixed clamping block, is arranged in a through hole of the movable clamping block, a sliding block is also arranged in the through hole, and the sliding block is fixedly connected with the connecting rod; a first spring is arranged between the sliding block and the inner wall of the movable clamping block and is in a compressed state.

Furthermore, a second spring is arranged between the handle and the fixed clamping block, and the second spring is in a compressed state.

Further, lamp body subassembly's inside still is equipped with battery and first drive plate PCBA, the battery electricity is connected first drive plate PCBA, first drive plate PCBA electricity is connected respectively LED lamp holder subassembly and laser lamp subassembly.

Further, the LED lamp cap assembly comprises a lamp cap, a copper substrate, a lens and reflective paper; the lamp holder is fixedly connected with the lamp body, the copper substrate is provided with an LED lamp, the LED lamp is embedded into the light gathering point of the reflective paper, and the open end of the reflective paper, which is far away from the LED lamp, is provided with the lens.

The beneficial effects of the utility model

(1) The laser lamp assembly is provided with a calibration assembly adjusted by using an adjusting screw, so that the angle of the laser lamp can be conveniently adjusted;

(2) when the laser gun lamp is disassembled and assembled from the weapon, the handle is pulled only, the handle drives the connecting rod to do telescopic motion when rotating, so that the distances between the movable clamping blocks and the fixed clamping blocks which are respectively positioned at the two ends of the connecting rod are adjusted, the movable clamping blocks and the fixed clamping blocks are clamped when being close to each other, and the movable clamping blocks and the fixed clamping blocks are separated from each other, so that the weapon is unlocked from the tactical laser gun lamp; when in use, the tool is not needed, and the assembly and disassembly can be conveniently and rapidly realized;

(3) the tactical laser gun lamp is simultaneously provided with the LED lamp, the LED lamp is used for illuminating the visual field at night, the laser lamp is used for aiming, the LED lamp and the laser lamp are mutually cooperated, and the effect is obvious;

(4) the laser lamp assembly and the LED lamp cap assembly share one power supply, and the tactical laser gun lamp is compact in layout and light and handy in structure.

Drawings

FIG. 1 is an exploded view of a tactical laser gun light;

FIG. 2 is a schematic diagram of an exploded view of a laser lamp assembly;

FIG. 3 is a schematic view of a tactical laser gun light;

FIG. 4 is a schematic cross-sectional view of a tactical laser gun light in a locked state;

FIG. 5 is a schematic sectional view taken along the line A-A in FIG. 4;

fig. 6 is a sectional view of the tactical laser gun lamp in an unlocked state.

The labels in the figure are: 1-laser lamp assembly, 101-toggle handle, 102-second driving plate PCBA, 103-first adjusting screw, 104-laser seat, 105-laser tube, 106-waterproof ring, 107-pressing ring, 108-laser lens, 109-silica gel pad, 110-laser sleeve, 111-magnet, 112-first O-ring, 113-positioning ball, 114-second adjusting spring, 115-first adjusting spring, 116-pressing shaft, 117-A surface, 118-second adjusting screw, 119-third connecting screw, 2-lamp body assembly, 201-sliding block, 202-movable clamping block, 203-first spring, 204-connecting rod, 205-second spring, 206-rivet, 207-handle, 208-lamp body, 209-wear-resistant sheet, 210-fixed clamping block, 3-LED lamp holder component, 301-lamp holder, 302-copper substrate, 303-lens, 304-lens, 305-lens sealing gasket, 306-reflective paper, 307-centering sheet, 308-second O-ring, 4-baffle, 5-first driving board PCBA, 6-first connecting screw, 7-second connecting screw, 8-battery, 9-tail cover component, 10-positioning block, 11-connecting shaft and 12-fourth connecting screw.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary and intended to be used for explaining the present invention, and should not be construed as limiting the present invention.

In the description of the present invention, it is to be understood that the terms "length", "width", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like 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 device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

Furthermore, 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 specifically limited otherwise.

In the embodiments of the present invention, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly, e.g., as fixed or detachable connections or as an integral part; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

Referring to fig. 1 to 6, a tactical laser gun lamp is characterized by comprising a laser lamp assembly 1 and a lamp body assembly 2; the laser lamp assembly 1 is fixedly connected to one side of the lamp body assembly 2; the lamp body assembly 2 comprises a lamp body 208, a clamping assembly arranged on one side of the lamp body 208, an LED lamp cap assembly 3 arranged on one end of the lamp body 208, and a tail cap assembly 9 arranged on the other end of the lamp body 208.

Referring to fig. 2, 4, 5 and 6, in an embodiment, the laser lamp assembly 1 comprises a laser mount 104, a calibration assembly, a laser tube 105, a second drive plate PCBA 102 and a laser adjustment assembly; the laser seat 104 is fixedly connected to the lamp body 208, the laser tube 105 is arranged inside the laser seat 104, and the laser emitting end of the laser tube 105 is positioned at the opening of the laser seat 104; a calibration component is arranged around the laser tube 105; the laser tube 105 is electrically connected with the second driving board PCBA 102; a laser adjusting component for adjusting a laser mode is arranged around the second driving plate PCBA 102. In an embodiment, the laser holder 104 and the lamp body 208 are connected by a third connecting screw 119. When the laser tube is used, a laser beam is generated in the laser tube 105 and is emitted from the opening of the laser seat 104, and the calibration component is used for adjusting the angle of the laser tube 105 so as to control the emission angle of the laser beam; the second drive plate PCBA 102 modulates the pattern of the laser under the control of the laser modulation assembly. In an embodiment, a joint between the laser seat 104 and the lamp body 208 is provided with a waterproof silicone pad 109; the second driving plate PCBA 102 is fixed to the lamp body 208 by second connecting screws 7.

In other embodiments, the second drive board PCBA 102 is secured to the laser mount 104 by second attachment screws 7.

In other embodiments, the power supply 8 is electrically connected directly to the second drive board PCBA 102 for power.

In other embodiments, the laser seat 104 and the connection lamp body 208 may be connected by a hinge at one end and a snap at the other end, or may be fixedly connected by welding or the like.

Referring to fig. 5 and 6, in an embodiment, the calibration assembly includes a laser bushing 110, an adjusting screw and an adjusting spring, the laser bushing 110 is fixedly connected to an opposite end of the laser emitting end of the laser tube 105; the adjusting screws comprise a first adjusting screw 103 and a second adjusting screw 118; the adjusting springs include a first adjusting spring 115 and a second adjusting spring 114; the adjustment screw and the adjustment spring are both connected to the laser mount 104 and contact the outer edge of the laser sleeve 110. The laser sleeve 110 comprises a cuboid structure, the cross section of the cuboid is made in the direction vertical to the axis of the laser sleeve 110, and the cross section is intersected with four surfaces of the cuboid; one end of the first adjusting spring 115 acts on the lamp body 208, and the other end thereof acts on the a-surface 117 of the four surfaces; of the four surfaces, the opposite surface of the surface A117 is abutted against the first adjusting screw 103; two surfaces perpendicular to the a surface 117 are respectively abutted against the second adjusting spring 114 and the second adjusting screw 118. In an embodiment, the first adjusting screw 103 is disposed opposite to the first adjusting spring 115, and the second adjusting screw 118 is disposed opposite to the second adjusting spring 114, centering on the end of the laser sheath 110; the first adjusting spring 115 is disposed in a guide channel on the lamp body 208, one end of the first adjusting spring 115 abuts against the bottom of the guide channel, and the other end of the first adjusting spring 115 abuts against the a-side 117; the second adjusting spring 114 is arranged in a guide channel inside the laser seat 104; the first adjusting screw 103 and the second adjusting screw 118 are both arranged in screw holes on the laser seat 104.

When the laser tube 105 adjusting device is used, under the combined action of the first adjusting spring 115 and the first adjusting screw 103, the tail end of the laser tube 105 can move on a straight line, so that the angle of the laser tube 105 can be adjusted; for example: the first adjusting screw 103 is further screwed into the laser seat 104, and the end of the first adjusting screw 103 drives the end of the laser tube 105 to further compress the first adjusting spring 115; on the contrary, when the first adjusting screw 103 is further screwed out toward the inside of the laser holder 104, the amount of compression of the end of the laser tube 105 against the first adjusting spring 115 is reduced, and the end of the laser tube 105 is pushed away from the first adjusting spring 115, thereby achieving a movement in the opposite direction. Similarly, the second adjusting spring 114 and the second adjusting screw 118 realize the movement of the end of the laser tube 105 on another straight line, and the direction of the linear movement of the end of the laser tube 105 realized by the combined action of the first adjusting spring 115 and the first adjusting screw 103 is perpendicular to the straight line, and according to the cartesian coordinate system rule, the origin and two perpendicular axes in the plane can mark the position of any point in the plane, so that in the adjustable range of the adjusting screw and the adjusting spring, the end of the laser tube 105 can move to any position of the coordinate system under the action of the adjusting screw and the adjusting spring, and further realize the adjustment of any angle of the laser tube 105 in the range.

In an embodiment, a laser adjusting component is arranged on the laser seat 104 and close to the second drive board PCBA 102, and the laser adjusting component includes a dial grip 101, a positioning ball 113, a pressing shaft 116, and a hall switch arranged in the second drive board PCBA 102. In an embodiment, a groove is formed in the position, close to the second driving board PCBA 102, of the laser seat 104, and a dial grip 101 for adjusting a laser mode is placed in the groove; two first O-shaped rings 112 for water prevention are arranged on the side wall of the groove, and the first O-shaped rings 112 are also positioned in the ring groove of the shifting handle 101; the bottom of the groove is provided with a positioning bead 113, one end of the positioning bead is embedded into the laser seat 104, and the other end of the positioning bead is embedded into the shifting handle 101; the dial handle 101 is connected to the laser seat 104 by a pressing shaft 116 in a penetrating manner, the pressing shaft 116 is in clearance fit with the dial handle 101, and the dial handle 101 can rotate around the pressing shaft 116; a Hall switch is arranged on the second driving plate PCBA 102, a magnet 111 which interacts with the Hall switch is arranged on the inner wall of one side, close to the Hall switch, of the groove, and the magnet 111 is embedded into the dial grip 101 and can rotate along with the dial grip 101; when the dial handle 101 is rotated, the position of the magnet 111 relative to the hall switch changes, the magnetic field of the hall switch can be influenced to change, the hall switch makes corresponding reaction according to the change of the magnetic field, and finally the electric signal for controlling the laser mode conversion is converted in the second driving plate PCBA 102, so that the adjustment of the laser mode is realized.

Referring to fig. 1, 3, 5 and 6, in an embodiment, the clamping assembly includes a fixed clamp block 210, a handle 207, a connecting rod 204 and a movable clamp block 202; the lamp body 208 is fixedly connected with a fixed clamping block 210; one end of the connecting rod 204 penetrates through the fixed clamping block 210 and is hinged with the handle 207; the handle 207 is in a cam shape at the hinged part with the connecting rod 204; the end of the connecting rod 204 away from the fixed clamping block 210 is connected with the movable clamping block 202. In an embodiment, the connecting rod 204 is hinged to the handle by a rivet 206; the handle 207 is provided with friction lines which are convenient for increasing the friction force of the gripping end.

In some embodiments, the fixing clip 210 is integral with the lamp body 208.

In other embodiments, the fixing clip block 210 is fixedly connected to the lamp body 208 by welding, screwing, or the like.

When the laser gun rail unlocking device is used, the handle 207 is rotated, and the hinged part of the handle 207 and the connecting rod 204 is in a cam shape, so that the handle 207 can drive the connecting rod 204 to perform telescopic motion in the rotating process, the distance between the movable clamping block 202 and the fixed clamping block 210 which are respectively positioned at the two ends of the connecting rod is adjusted, the movable clamping block 202 and the fixed clamping block 210 are clamped when approaching each other, and the gun rail and the laser gun lamp are unlocked when the movable clamping block 202 and the fixed clamping block 210 are far away from each other.

Referring to fig. 1, 5 and 6, in an embodiment, one end of the connecting rod 204, which is far away from the fixed clamping block 210, is disposed in a through hole of the movable clamping block 202, a sliding block 201 is further disposed in the through hole, and the sliding block 201 is fixedly connected with the connecting rod 204; a first spring 203 is arranged between the sliding block 201 and the inner wall of the movable clamping block 202, and the first spring 203 is in a compressed state. In an embodiment, a second spring 205 is disposed between the handle 207 and the fixed clamp block 210, and the second spring 205 is in a compressed state. In an embodiment, a wear pad 209 is further disposed between the second spring 205 and the handle 207, and the connecting rod 204 penetrates through the wear pad 209.

In other embodiments, the wear-resistant piece 209 is sprayed on the lamp body 208 to prevent the cam-shaped portion of the handle 207 from wearing the wear-resistant layer of the lamp body 208.

In some embodiments, the sliding block 201 is a nut with a smooth outer surface, and the end of the connecting rod 204 is provided with an external thread, so that the two are connected by the thread.

In other embodiments, the sliding block 201 and the connecting rod 204 are connected by welding or pin connection.

Referring to fig. 5, in use, since the first spring 203 is disposed between the sliding block 201 and the inner wall of the movable clamping block 202, one end of the first spring 203 in a compressed state acts on the inner wall of the movable clamping block 202, the other end of the first spring 203 acts on the movable sliding block 201, and the sliding block 201 is fixedly connected with the connecting rod 204, the first spring 203 in a compressed state can generate a continuous pulling force on the handle 207 through the connecting rod 204, and when the handle 207 is in a position where the handle 207 is attached to the lamp body 208, one side surface of the handle 207 interacts with the lamp body 208 to balance the pulling force on the handle 204; in addition, a second spring 205 is arranged between the handle 207 and the fixed clamping block 210, the second spring 205 is in a compressed state, and the second spring 205 can continuously generate a pushing force on the handle 207 to balance the pulling force on the handle 207; even under the interference of adverse environment such as vibration, under the combined action of the second spring 205 and the first spring 203, the clamping force between the movable clamping block 201 and the fixed clamping block 210 is more stable, so that when the handle 207 is in the position where the handle 207 is attached to the lamp body 208, the handle 207 can be in a stable state, and at the same time, the laser gun lamp is in a locked state.

Referring to fig. 6, when the handle 207 is moved away from the lamp body 208, the cam-shaped portion of the handle 207 and the wear-resistant piece 209 are pressed to balance the pulling force, because the cam-shaped portion and the wear-resistant piece 209 are in line contact along the outer edge of the cam-shaped portion, the cam-shaped portion will generate a stroke under the pulling force when the handle 207 rotates to a limit angle, the connecting rod 204 will also move a same stroke, and therefore, the movable clamping block 202 moves along with the connecting rod 204 in a direction away from the fixed clamping block 210, and the laser gun lamp is in an unlocked state.

Referring to fig. 4, in the embodiment, the lamp body assembly 2 is further provided with a battery 8 and a first driving board PCBA5 inside, and the battery 8 is electrically connected with the first driving board PCBA 5. In an embodiment, the first drive board PCBA5 is electrically connected with the second drive board PCBA 102, so as to supply power to the second drive board PCBA 102; the first driving board PCBA5 is electrically connected with the LED lamp holder component 3 and the laser lamp component 1 respectively. During the use, battery 8 is to first drive plate PCBA5 power supply, first drive plate PCBA5 electricity respectively connects LED lamp holder subassembly 3 and laser lamp subassembly 1, consequently can realize that first drive plate PCBA5 is to the power supply control of LED lamp holder subassembly 3 and laser lamp subassembly 1. In an embodiment, the first driving plate PCBA5 is fixed on the lamp body 208; a positioning block 10 is arranged between the movable clamping block 202 and the fixed clamping block 210 on the surface of the lamp body 208, the positioning block 10 is located at a position that does not obstruct the movement of the movable clamping block 202, and the positioning block 10 is fixedly connected with the lamp body 208 through a screw 12.

Referring to fig. 1, 3 and 4, in the embodiment, an LED lamp holder assembly 3 and a tail cap assembly 9 are further disposed at two ends of the lamp body assembly 2; the connecting shaft 11 realizes the hinge joint of the tail cover assembly 9 and the lamp body 208, and the opposite side of the hinge joint part on the tail cover assembly 9 adopts a buckle to realize the connection with the lamp body 208. In an embodiment, the LED lamp head assembly 3 includes a lamp head 301, a copper substrate 302, a lens 304, a reflective paper 306, and a lens 303; the lamp holder 301 is fixedly connected with the lamp body 208, an LED lamp is arranged on the copper substrate 302, the LED lamp is embedded into the light-gathering point of the lens 303, and the lens 304 is arranged at the opening end, far away from the LED lamp, of the lens 303. In an embodiment, the lamp cap 301 is screwed with the lamp body 208; a transparent lens 304 is arranged at an opening of the lamp cap 301, the lens 304 is arranged in a lens sealing gasket 305 fixed on the lamp cap 301, and the lens sealing gasket 305 is in interference fit with the lens 304 and is sealed by UV glue; the LED lamps on the copper substrate 302 are sequentially embedded into the centering sheet 307, the reflective paper 306 and the lens 303, the lens 303 is sleeved in the reflective paper 306, and the opening of the lens 303 is sealed by the lens 304; meanwhile, the lamp body 208 is fixedly connected with the centering piece 307, and the centering piece 307 is fixedly connected with the copper substrate 302. In an embodiment, a second O-ring 308 for sealing and waterproofing is further disposed between the reflective paper 306 and the lamp cap 301. In an embodiment, the tail cover assembly 9 is provided with a contact point which is contacted with a conductive electrode of the battery 8, the tail cover assembly 9 is electrically connected with the first driving plate PCBA5 through a conductive probe on the baffle plate 4, and the baffle plate 4 is connected to the lamp body 208 through a first connecting screw 6; and a switch control key is also arranged on the tail cover assembly 9. When in use, the first driving board PCBA5 supplies power to the LED lamps on the copper substrate 302; the LED lamp is positioned at the light-gathering point of the reflective paper 306 and the lens 303, and light is emitted from the light-gathering point, reflected by the reflective paper 306 and finally emitted from the lamp head 301 through the lens 304.

In other embodiments, the LED lamp head assembly 3 may be connected to the lamp body 208 by a hinge or welding connection.

In other embodiments, the tail cap assembly 9 may be connected to the lamp body 208 by a screw connection or a welding connection.

The above-mentioned embodiments are only one of the preferred embodiments of the present invention, and the ordinary changes and substitutions performed by those skilled in the art within the technical scope of the present invention should be included in the protection scope of the present invention.

Claims

1. A tactical laser gun lamp is characterized by comprising a laser lamp assembly (1) and a lamp body assembly (2); the laser lamp assembly (1) is fixedly connected to one side of the lamp body assembly (2); the LED lamp is characterized in that the lamp body component (2) comprises a lamp body (208), a clamping component arranged on one side of the lamp body (208), an LED lamp cap component (3) arranged on one end of the lamp body (208) and a tail cover component (9) arranged on the other end of the lamp body (208).

2. The tactical laser gun lamp of claim 1, wherein said laser lamp assembly (1) comprises a laser mount (104), a calibration assembly, a laser tube (105) and a second drive board PCBA (102); the laser seat (104) is fixedly connected to the lamp body (208), the laser tube (105) is arranged inside the laser seat (104), and the laser emitting end of the laser tube (105) is positioned at the opening of the laser seat (104); the laser tube (105) is electrically connected to the second drive board PCBA (102); and a calibration assembly is arranged around the laser tube (105).

3. The tactical laser gun light of claim 2, wherein said alignment assembly comprises a laser sheath (110), an adjustment screw and an adjustment spring, said laser sheath (110) being fixedly attached to the laser tube (105) at an end opposite to the laser emitting end; the adjusting screw comprises a first adjusting screw (103) and a second adjusting screw (118); the adjusting spring comprises a first adjusting spring (115) and a second adjusting spring (114); the adjusting screw and the adjusting spring are both connected to the laser seat (104) and are in contact with the outer edge of the laser sleeve (110).

4. The tactical laser gunlight of claim 3, wherein said laser sheath (110) comprises a rectangular parallelepiped structure having a cross section taken in a direction perpendicular to the axis of said laser sheath (110), said cross section intersecting four faces of the rectangular parallelepiped; one end of the first adjusting spring (115) acts on the lamp body (208), and the other end of the first adjusting spring acts on an A surface (117) of the four surfaces; in the four surfaces, the opposite surface of the surface A is propped against a first adjusting screw (103); two surfaces vertical to the surface A are respectively propped against the second adjusting spring (114) and the second adjusting screw (118).

5. The tactical laser gun lamp of claim 2, wherein said laser lamp assembly (1) further comprises a laser adjustment assembly, said laser adjustment assembly comprising a magnet (111), said magnet (111) interacting with a hall switch provided in a second drive plate PCBA (102).

6. The tactical laser gun light of claim 1, wherein said clamping assembly comprises a fixed clamp block (210), a handle (207), a connecting rod (204), and a movable clamp block (202); the lamp body (208) is fixedly connected with a fixed clamping block (210); one end of the connecting rod (204) penetrates through the fixed clamping block (210) and is hinged with the handle (207); the shape of the joint of the handle (207) and the connecting rod (204) is a cam shape; one end of the connecting rod (204) far away from the fixed clamping block (210) is connected with the movable clamping block (202).

7. The tactical laser gunlight of claim 6, wherein one end of the connecting rod (204) far away from the fixed clamping block (210) is arranged in a through hole of the movable clamping block (202), a sliding block (201) is further arranged in the through hole, and the sliding block (201) is fixedly connected with the connecting rod (204); a first spring (203) is arranged between the sliding block (201) and the inner wall of the movable clamping block (202), and the first spring (203) is in a compressed state.

8. The tactical laser gun light of claim 6, wherein a second spring (205) is provided between said handle (207) and said fixed clamp block (210), said second spring (205) being in compression.

9. The tactical laser gun lamp according to claim 1, wherein a battery (8) and a first driving board PCBA (5) are further arranged inside the lamp body component (2), the battery (8) is electrically connected with the first driving board PCBA (5), and the first driving board PCBA (5) is electrically connected with the LED lamp holder component (3) and the laser lamp component (1) respectively.

10. The tactical laser gun light of claim 1, wherein said LED lamp head assembly (3) comprises a lamp head (301), a copper substrate (302), a lens (304) and a reflective paper (306); the LED lamp is characterized in that the lamp holder (301) is fixedly connected with the lamp body (208), the copper substrate (302) is provided with an LED lamp, the LED lamp is embedded into a light gathering point of the reflective paper (306), and the open end of the reflective paper (306) far away from the LED lamp is provided with the lens (304).