CN218295471U - Remote searchlight with floodlight - Google Patents

Abstract

A remote searchlight with floodlight belongs to the technical field of lighting devices. Including lamp shade, a lamp section of thick bamboo, perpendicular slewing mechanism, first main control board, cloud platform, horizontal slewing mechanism and second main control board, a lamp section of thick bamboo include the barrel, be provided with floodlight light source module and laser light source module in the barrel, floodlight light source module contain floodlight fixed plate, big lens, floodlight light source subassembly, lens fixed plate and small lens, floodlight fixed plate constitute big lens installation cavity in the centre, big lens install at the front side of floodlight fixed plate and this big lens installation cavity adaptation, floodlight source subassembly have a pair ofly, set up in the front side of floodlight fixed plate and distribute in the both sides of big lens symmetrically, laser light source module be located the rear side and the barrel back shroud fixed mounting of big lens, the coaxial setting of laser light source in big lens and the laser light source module. The advantages are that: either long-range spot lighting or short-range large-area flood lighting can be provided.

Description

Remote searchlight with floodlight

Technical Field

The utility model belongs to the technical field of lighting device, concretely relates to take remote searchlight of floodlight can be applied to on the ocean authority law enforcement boats and ships, marine reconnaissance platform, the sea island fishing ship, the search illumination of mainly used marine environment and infringement target to can seamless cooperation video system form all-round, all-weather sea area observe and control.

Background

The searchlight is a light device for long-distance illumination, search and rescue, has the advantages of firmness, durability, moisture resistance, rain resistance and the like, and has the basic working principle that light rays emitted by a light source are gathered in a certain range to achieve the effect of spotlight illumination, so that greater light intensity can be obtained in a certain range to realize the function of searchlight search.

The structure of a remote small searchlight, typically "a remote searchlight" as mentioned in chinese patent application publication No. CN110878921A, mainly includes a lamp tube, a holder, and a holder base, and the light source of the lamp tube adopts a semiconductor laser. The laser light source is characterized in that the laser energy is concentrated, so that a point light source with ultrahigh brightness can be formed. The beam divergence of a laser searchlight is usually within 1 ° and can be used for long-distance irradiation over several kilometers, however, such a small divergence angle is not suitable for short-distance irradiation, and therefore, the laser light source has a certain range of defects in short-distance irradiation.

In view of the above-mentioned prior art, there is a need for an improvement of the construction of existing searchlights, for which the applicant has made an advantageous design, the solution to be described below being made in this context.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a take remote searchlight of floodlight can provide remote spotlight illumination or the floodlight illumination of closely large tracts of land.

The utility model aims at reaching like this, a take floodlight remote searchlight, including lamp shade, a lamp section of thick bamboo, perpendicular slewing mechanism, first main control board, cloud platform, horizontal slewing mechanism and second main control board, a lamp section of thick bamboo, perpendicular slewing mechanism and first main control board setting in the lamp shade, perpendicular slewing mechanism is connected with lamp section of thick bamboo transmission, first main control board be connected with perpendicular slewing mechanism electricity, make a lamp section of thick bamboo carry out the ascending rotation of vertical direction through perpendicular mechanism, the cloud platform connect in the bottom of lamp shade, horizontal slewing mechanism and second main control board setting in the cloud platform, horizontal slewing mechanism is connected with the cloud platform transmission, the second main control board is connected with first main control board and horizontal slewing mechanism electricity, make the cloud platform drive the lamp shade through horizontal slewing mechanism and carry out the ascending rotation of horizontal direction, characteristics are: the utility model provides a large lens installation cavity, flood light source subassembly has a pair ofly, sets up in the front of flood light fixed plate and distributes symmetrically in the both sides of big lens, flood light source subassembly has a plurality of flood light sources, lens fixed plate be located the installation with this big lens installation cavity connection installation of flood light fixed plate in the front of flood light fixed plate, compress tightly fixedly to big lens, the centre of lens corresponds to big lens and constitutes there is big lens fixed hole, at the both sides of this big lens fixed hole and correspond to each flood light source constitution and have a mounting cavity, at each mounting cavity installation, the adaptation installation of lens in the front of flood light fixed plate, the apron of barrel under by barrel front shroud, barrel left side apron and barrel right side apron enclose the concatenation and form in the barrel of barrel and the big lens installation cavity, the coaxial lens installation cavity of lens fixed plate and the big lens installation cavity of barrel, the barrel of barrel is corresponding to the big lens installation cavity installation, the barrel is located the big lens installation cavity, the coaxial lens of lens fixed plate is corresponding to the big lens of lens installation, the barrel is installed the barrel and is equipped with the big lens fixed hole, the barrel of the coaxial lens installation of barrel, the barrel is corresponding to the barrel of the light source installation of barrel.

In a specific embodiment of the present invention, the floodlight light source module further comprises a floodlight radiator, the floodlight radiator is disposed at the rear side of the floodlight fixing plate, and the number of the floodlight radiators is equal to that of the floodlight source assemblies and the positions of the floodlight radiators correspond to those of the floodlight source assemblies; the laser light source module comprises a laser light source radiator and a heat dissipation fan, the laser light source radiator is arranged on one surface of the outer side of the rear cover plate of the cylinder, and the heat dissipation fan is arranged on the radiator.

The utility model discloses a lens fixing plate, barrel front shroud, barrel upper cover plate, barrel lower cover plate, barrel left side apron and barrel right side apron are provided with radiator fixing screw, the upper and lower both ends of floodlight radiator in the direction of height are provided with radiator fixing screw respectively at the interval, the lens fixing plate on seted up radiator fixing screw through-hole corresponding to radiator fixing screw, the barrel front shroud extend towards radiator fixing screw in the inboard and form the screw post, the barrel front shroud is formed with the front shroud flange at border all around, the cladding of front shroud flange at the outside of the front end of barrel upper cover plate, barrel lower cover plate, barrel left side apron and barrel right side apron and fix in proper order through the screw, radiator fixing screw from floodlight radiator one side after passing the radiator fixing screw through-hole on floodlight fixing plate and the lens fixing plate in proper order, the barrel back shroud is formed with the back shroud flange border all around, the cladding of back shroud flange fix in proper order through the screw at the outside of the rear end of barrel upper cover plate, barrel lower cover plate, barrel left side apron and barrel right side apron.

In another specific embodiment of the present invention, the lamp barrel is provided with a lamp barrel left rotating shaft outside the barrel left cover plate, and a lamp barrel right rotating shaft outside the barrel right cover plate and corresponding to the lamp barrel left rotating shaft, the lamp cover includes a lamp cover front cover, a lamp cover upper cover and a lamp cover lower cover, the lamp cover lower cover is provided with a pair of bearing seats on the left and right side walls and corresponding to the lamp barrel left rotating shaft and the lamp barrel right rotating shaft respectively, the lamp barrel left rotating shaft and the lamp barrel right rotating shaft and the pair of bearing seats are installed in an adaptive manner, so that the lamp barrel is rotatably connected to the lamp cover lower cover.

The utility model discloses a still another concrete embodiment, the cloud platform include cloud platform shell, flange pivot, first bearing, second bearing, fastening nut and cloud platform bottom, first bearing set up the upper surface at the roof of cloud platform shell between two parties, second bearing and first bearing set up the lower surface at the roof of cloud platform shell correspondingly, the flange pivot connect in the bottom of lamp shade lower cover to top-down passes first bearing, cloud platform shell, second bearing and horizontal slewing mechanism in proper order, the flange pivot is connected with the transmission of horizontal slewing mechanism, fastening nut set up in the bottom of flange pivot, fix first bearing, cloud platform shell, second bearing and horizontal slewing mechanism to the flange pivot on, cloud platform bottom set up the bottom at the cloud platform shell, the cloud platform shell still be equipped with the circular connector at the lateral wall.

The utility model discloses a still have a concrete embodiment, perpendicular slewing mechanism include perpendicular motor fixed plate, perpendicular tooth piece, perpendicular gear and perpendicular motor, perpendicular motor install on perpendicular motor fixed plate and with first main control board electricity connect, the transmission shaft of perpendicular motor is the level and passes perpendicular motor fixed plate and be connected with perpendicular gear interference, the front end of perpendicular tooth piece with the side fixed connection on the back shroud flange limit of a lamp section of thick bamboo, the rear end and the perpendicular gear engagement of perpendicular tooth piece, the bottom of perpendicular motor fixed plate outwards buckles to extend and forms the mounting panel, the right side wall fixed mounting of mounting panel and lamp shade lower cover.

The utility model discloses a further specific embodiment, the lamp shade in still be equipped with perpendicular stop gear, the lamp shade lower cover be equipped with the erection column in the bottom of left side wall intermediate position, perpendicular stop gear include spacing fixed plate, go up spacing sensor and lower spacing sensor, the bottom of spacing fixed plate fix on the erection column, last spacing sensor set up the upper end at spacing fixed plate, lower spacing sensor set up the lower extreme at spacing fixed plate, a lamp section of thick bamboo be equipped with in the position that corresponds perpendicular stop gear be used for with last spacing sensor and lower spacing sensor contact complex limit stop, go up spacing sensor and lower spacing sensor respectively with first main control board electric connection.

The utility model discloses a more and a concrete embodiment, horizontal slewing mechanism include first horizontal gear, second horizontal gear, horizontal motor fixed plate and horizontal motor, horizontal motor fix the lower surface at horizontal motor fixed plate and with second main control board electricity connect, horizontal motor's transmission shaft upwards pass horizontal motor fixed plate and with first horizontal gear interference connection, horizontal motor fixed plate with cloud platform shell fixed connection, second horizontal gear and first horizontal gear meshing, second horizontal gear is formed with the dysmorphism through-hole of long circle in the centre, the flange pivot pass this dysmorphism through-hole and second horizontal gear constitutes the transmission and is connected.

The utility model discloses a still and then a concrete embodiment, the lamp shade in still be equipped with the sliding ring, the sliding ring fix the bottom at the lamp shade lower cover, the flange pivot form the pin hole that link up from top to bottom in the centre, the lead wire of sliding ring upper end is connected with first main control board electricity, the lead wire of sliding ring lower extreme passes the pin hole and is connected with second main control board electricity, the second main control board is connected with outside operating panel electricity.

The utility model discloses a still more and a concrete embodiment, floodlight light source subassembly include long banding aluminium base board, set up along the direction of height interval on this aluminium base board a plurality of floodlight sources.

The utility model discloses owing to be provided with floodlight light source module and laser light source module simultaneously in a lamp section of thick bamboo, compare with prior art, the beneficial effect who has is: can realize spotlight and floodlight switching illumination, when needs are long-range to shine, open laser, when needs are closely shone, open floodlight source, through the combination of laser source and LED light source, can greatly expand the illumination zone of searchlight to improve illuminating effect.

Drawings

Fig. 1 is an exploded view of the overall structure of the present invention.

Fig. 2 is an exploded view of the lamp cartridge of the present invention.

In the figure: 1. the lamp shade comprises a lamp shade body, 11 parts of a lamp shade front cover, 12 parts of a lamp shade upper cover, 13 parts of a lamp shade lower cover, 131 parts of a bearing seat, 132 parts of a mounting column and 133 parts of a breather valve; 2. the barrel comprises a lamp barrel, a barrel body 211, a barrel body front cover plate 2111, a large lens abdicating hole 2112, a small lens abdicating hole 2113, a screw post 2114, a front cover plate flange edge 212, a barrel body rear cover plate 2121, a rear cover plate flange edge 213, a barrel body upper cover plate 214, a barrel body lower cover plate 215, a barrel body left cover plate 2151, a lamp barrel left rotating shaft 216, a barrel body right cover plate 2161 and a lamp barrel right rotating shaft; 22. the lamp comprises a floodlight light source module, 221, a floodlight fixing plate, 2211, a large lens mounting cavity, 222, a large lens, 223, a floodlight light source component, 2231, a floodlight source, 2232, an aluminum substrate, 224, a lens fixing plate, 2241, a large lens fixing hole, 2242, a small lens mounting cavity, 2243, a radiator fixing screw through hole, 225, a small lens, 226, a floodlight radiator, 2261, a radiator fixing screw, 23, a laser light source module, 231, a laser light source, 232, a laser light source radiator and 233, a radiating fan; 3. a vertical rotating mechanism 31, a vertical motor fixing plate 311, an installation plate 32, a vertical tooth piece 33, a vertical gear 34 and a vertical motor; 4. a first main control panel; 5. the cradle head comprises a cradle head body 51, a cradle head outer shell 511, an aviation plug 52, a flange rotating shaft 521, a lead hole 53, a first bearing 54, a second bearing 55, a fastening nut 56 and a cradle head bottom cover; 6. the horizontal rotating mechanism comprises 61 parts of a first horizontal gear, 62 parts of a second horizontal gear, 621 parts of special-shaped through holes, 63 parts of a horizontal motor fixing plate and 64 parts of a horizontal motor; 7. a second main control board; 8. the device comprises a vertical limiting mechanism 81, a limiting fixing plate 82, an upper limiting sensor 83 and a lower limiting sensor 83; 9. and a slip ring.

Detailed Description

The following detailed description of the embodiments of the present invention is provided in conjunction with the accompanying drawings, but the description of the embodiments is not intended to limit the technical solutions, and any changes made in the form of the present invention rather than the essential changes should be considered as the protection scope of the present invention.

In the following description, any concept related to the directionality (or the directional property) of up, down, left, right, front, and rear is intended for the position state of the drawing being described, and is intended to facilitate understanding by the public, and thus should not be construed as a limitation to the technical solution provided by the present invention.

Referring to fig. 1, the present invention relates to a remote searchlight with floodlight, which comprises a lampshade 1, a lamp barrel 2, a vertical rotating mechanism 3, a first main control board 4, a holder 5, a horizontal rotating mechanism 6 and a second main control board 7. The lampshade 1 comprises a lampshade front cover 11, a lampshade upper cover 12 and a lampshade lower cover 13. The lamp tube 2 comprises a tube body 21, wherein the tube body 21 is formed by enclosing and splicing a tube body front cover plate 211, a tube body rear cover plate 212, a tube body upper cover plate 213, a tube body lower cover plate 214, a tube body left cover plate 215 and a tube body right cover plate 216. The lamp barrel 2 is provided with a left lamp barrel rotating shaft 2151 on the outer side of the left barrel cover plate 215, a right lamp barrel rotating shaft 2161 on the outer side of the right barrel cover plate 216 and corresponding to the left lamp barrel rotating shaft 2151, the lower lamp shade cover 13 is provided with a pair of bearing seats 131 on the left and right side walls and corresponding to the left lamp barrel rotating shaft 2151 and the right lamp barrel rotating shaft 2161, and the left lamp barrel rotating shaft 2151 and the right lamp barrel rotating shaft 2161 are mounted in a matching way with the pair of bearing seats 131, so that the lamp barrel 2 is rotatably connected to the lower lamp shade cover 13. The vertical rotating mechanism 3 and the first main control panel 4 are arranged in the lampshade 1, and the vertical rotating mechanism 3 is in transmission connection with the lamp barrel 2. The first main control board 4 is electrically connected with the vertical rotating mechanism 3, and the lamp barrel 2 is rotated in the vertical direction through the vertical mechanism 3. Cloud platform 5 connect in the bottom of lamp shade 1, horizontal slewing mechanism 6 and second main control board 7 set up in cloud platform 5, horizontal slewing mechanism 6 is connected with the transmission of cloud platform 5, second main control board 7 is connected with first main control board 4 and 6 electricity of horizontal slewing mechanism, makes cloud platform 5 drive lamp shade 1 carry out the ascending rotation of horizontal direction through horizontal slewing mechanism 6. The lampshade 1 is provided with a breather valve 133 with a waterproof function at the bottom of the lampshade lower cover 13.

Referring to fig. 2, a floodlight light source module 22 and a laser light source module 23 are disposed in the barrel 21. The floodlight light source module 22 comprises a floodlight fixing plate 221, a large lens 222, a floodlight source assembly 223, a lens fixing plate 224 and a small lens 225. The floodlight fixing plate 221 forms a large lens mounting cavity 2211 in the middle, and the large lens 222 is mounted in the large lens mounting cavity 2211 in front of the floodlight fixing plate 221 in a matching manner. The pair of floodlight source assemblies 223 are disposed in front of the floodlight fixing plate 221 and symmetrically distributed on both sides of the large lens 222. The floodlight source assembly 223 comprises a long-strip-shaped aluminum substrate 2232, a plurality of floodlight sources 2231 are arranged on the aluminum substrate 2232 at intervals along the height direction, in this embodiment, the floodlight sources 2231 adopt LED light sources, the LED light sources have high brightness, the illumination range and the illumination effect of the floodlight at a short distance can be well improved, and the floodlight assembly is not easy to damage, and is energy-saving and environment-friendly. The lens fixing plate 224 is located at the front side of the floodlight fixing plate 221 and is connected with the floodlight fixing plate 221, so as to compress and fix the large lens 222. A large lens fixing hole 2241 is formed in the middle of the lens fixing plate 224 corresponding to the large lens 222, small lens installation cavities 2242 are formed on two sides of the large lens fixing hole 2241 and corresponding to the respective floodlight sources 2231, and the small lens 225 is fittingly installed in the small lens installation cavity 2242 to focus a light beam emitted from the respective floodlight sources 2231. The barrel front cover plate 211 is arranged on the front side of the lens fixing plate 224 and is fixedly installed with the floodlight fixing plate 221. The barrel front cover 211 is formed with large lens escape holes 2111 corresponding to the large lenses 222, and small lens escape holes 2112 corresponding to the small lenses 225 are formed at both sides of the large lens escape holes 2111. The laser light source module 23 is located behind the large lens 222 and is fixedly mounted with the cylinder rear cover plate 212, and the large lens 222 and the laser light source 231 in the laser light source module 23 are coaxially arranged to focus light beams emitted by the laser light source 231. The laser light source 231 is a low-power semiconductor laser device.

Further, the floodlight light source module 22 further comprises a floodlight radiator 226, the floodlight radiator 226 is disposed at the rear side of the floodlight fixing plate 221, and the number of the floodlight radiator 226 is equal to that of the floodlight source assemblies 223 and the positions of the floodlight source assemblies are corresponding to each other. The laser light source module 23 comprises a laser light source radiator 232 and a heat radiation fan 233, the laser light source radiator 232 is arranged on one surface of the outer side of the cylinder rear cover plate 212, and the heat radiation fan 233 is arranged on the radiator 232.

Furthermore, the upper and lower ends of the floodlight radiator 226 in the height direction are respectively provided with radiator fixing screws 2261 at intervals. The lens fixing plate 224 is provided with a heat sink fixing screw through hole 2243 corresponding to the heat sink fixing screw 2261, and the cylinder front cover plate 211 extends towards the heat sink fixing screw 2261 at the inner side to form a screw post 2113. The barrel front cover plate 211 is formed with a front cover plate flange 2114 at the peripheral edge, and the front cover plate flange 2114 covers the outside of the front ends of the barrel upper cover plate 213, the barrel lower cover plate 214, the barrel left cover plate 215 and the barrel right cover plate 216 and is fixed in sequence by screws. The heat sink fixing screws 2261 sequentially penetrate through the heat sink fixing screw through holes 2243 on the floodlight fixing plate 221 and the lens fixing plate 224 from one side of the floodlight heat sink 226 and then are connected and fixed with the screw posts 2113. The rear cover flange 2121 is formed on the peripheral edge of the barrel rear cover 212, and the rear cover flange 2121 covers the outer sides of the rear ends of the barrel upper cover 213, the barrel lower cover 214, the barrel left cover 215, and the barrel right cover 216 and is fixed in sequence by screws.

With reference to fig. 1, the vertical rotation mechanism 3 includes a vertical motor fixing plate 31, a vertical rack 32, a vertical gear 33, and a vertical motor 34. The vertical motor 34 is installed on the vertical motor fixing plate 31 and electrically connected with the first main control board 4, a transmission shaft of the vertical motor 34 horizontally penetrates through the vertical motor fixing plate 31 and is in interference connection with the vertical gear 33, the front end of the vertical tooth piece 32 is fixedly connected with the side surface of the rear cover plate flange 2121 of the lamp barrel 2, and the rear end of the vertical tooth piece 32 is meshed with the vertical gear 33. The bottom end of the vertical motor fixing plate 31 is bent outwards and extended to form a mounting plate 311, and the mounting plate 311 is fixedly mounted on the right side wall of the lampshade lower cover 13. When the vertical motor 34 rotates, the vertical gear 33 and the vertical rack 32 cooperate to transmit power, so as to drive the lamp cylinder 2 to rotate in the vertical direction.

The lampshade 1 is also internally provided with a vertical limiting mechanism 8 for limiting the vertical rotation angle of the lamp barrel 2. The bottom of the middle position of the left side wall of the lampshade lower cover 13 is provided with a mounting column 132, the vertical limiting mechanism 8 comprises a limiting fixing plate 81, an upper limiting sensor 82 and a lower limiting sensor 83, the bottom of the limiting fixing plate 81 is fixed on the mounting column 132, the upper limiting sensor 82 is arranged at the upper end of the limiting fixing plate 81 and used for limiting the highest rotation position of the lamp cylinder 2, and the lower limiting sensor 83 is arranged at the lower end of the limiting fixing plate 81 and used for limiting the lowest rotation position of the lamp cylinder 2. The lamp cylinder 2 is provided with a limit stopper (not shown) corresponding to the vertical limit mechanism 8 for contacting and matching with the upper limit sensor 82 and the lower limit sensor 83, and the upper limit sensor 82 and the lower limit sensor 83 are respectively electrically connected with the first main control board 4.

Referring to fig. 1, the pan/tilt head 5 includes a pan/tilt head housing 51, a flange rotating shaft 52, a first bearing 53, a second bearing 54, a fastening nut 55, and a pan/tilt head bottom cover 56. First bearing 53 set up in the middle of the upper surface of the roof of cloud platform shell 51, second bearing 54 set up the lower surface at the roof of cloud platform shell 51 with first bearing 53 correspondingly, flange pivot 52 connect in the bottom of lamp shade 1 to from top to bottom passes first bearing 53, cloud platform shell 51, second bearing 54 and horizontal slewing mechanism 6 in proper order, flange pivot 52 and horizontal slewing mechanism 6 transmission are connected, fastening nut 55 set up the bottom at flange pivot 52, fix first bearing 53, cloud platform shell 51, second bearing 54 and horizontal slewing mechanism 6 to flange pivot 52, ensure that there is not the clearance between each components and parts. The horizontal rotating mechanism 6 comprises a first horizontal gear 61, a second horizontal gear 62, a horizontal motor fixing plate 63 and a horizontal motor 64, wherein the horizontal motor 64 is fixed on the lower surface of the horizontal motor fixing plate 63 and is electrically connected with the second main control panel 7, a transmission shaft of the horizontal motor 64 upwards penetrates through the horizontal motor fixing plate 63 and is in interference connection with the first horizontal gear 61, the horizontal motor fixing plate 63 is fixedly connected with the holder shell 51, the second horizontal gear 62 is meshed with the first horizontal gear 61, an oblong special-shaped through hole 621 is formed in the middle of the second horizontal gear 62, and the flange rotating shaft 52 penetrates through the special-shaped through hole 621 and is in transmission connection with the second horizontal gear 62. When the horizontal motor 64 rotates, the first horizontal gear 61 thereon drives the second horizontal gear 62 to rotate, and the second horizontal gear 62 drives the flange rotating shaft 52 to rotate together through the irregular through hole 621, so that the lampshade 1 and the lamp barrel 2 rotate horizontally on the tripod head 5 in 360 degrees without limitation. The cradle head bottom cover 56 is arranged at the bottom of the cradle head shell 51, and the outer side wall of the cradle head shell 51 is further provided with an aviation plug 511.

The novel LED lamp is characterized in that a sliding ring 9 is further arranged in the lamp shade 1, the sliding ring 9 is fixed at the bottom of the lower cover 13 of the lamp shade, a lead hole 521 which is through up and down is formed in the middle of the flange rotating shaft 52, a lead at the upper end of the sliding ring 9 is electrically connected with the first main control board 4, and a lead at the lower end of the sliding ring 9 penetrates through the lead hole 521 to be electrically connected with the second main control board 7. The second main control board 7 is electrically connected with an external operation panel, controls the on/off, horizontal rotation and up/down rotation of the searchlight, receives a limit signal, and is used for controlling the up/down swing angle of the light, wherein the light control signal and the vertical rotation signal are transmitted to the first main control board 4 through the slip ring 57, the first main control board 4 is connected with a power supply, the vertical motor 34, the upper limit sensor 82 and the lower limit sensor 83, and is used for transmitting the direction signal and the light source driving signal of the second main control board 7 to the vertical motor 34, and feeding the limit signal given by the upper limit sensor 82 and the lower limit sensor 83 back to the second main control board 7 through the slip ring 57.

Claims (10)

1. The utility model provides a take floodlight remote searchlight, includes lamp shade (1), a lamp section of thick bamboo (2), perpendicular slewing mechanism (3), first main control board (4), cloud platform (5), horizontal slewing mechanism (6) and second main control board (7), a lamp section of thick bamboo (2), perpendicular slewing mechanism (3) and first main control board (4) set up in lamp shade (1), perpendicular slewing mechanism (3) are connected with a lamp section of thick bamboo (2) transmission, first main control board (4) be connected with perpendicular slewing mechanism (3) electricity, make a lamp section of thick bamboo (2) carry out the ascending rotation of vertical direction through perpendicular slewing mechanism (3), cloud platform (5) connect the bottom in lamp shade (1), horizontal slewing mechanism (6) and second main control board (7) set up in cloud platform (5), horizontal slewing mechanism (6) are connected with cloud platform (5) transmission, second main control board (7) are connected with first main control board (4) and horizontal slewing mechanism (6) electricity, make cloud platform (5) drive horizontal slewing mechanism (1) through horizontal slewing mechanism (6) and carry out its characterized in that the direction: the lamp tube (2) comprises a tube body (21), the tube body (21) is formed by splicing a tube body front cover plate (211), a tube body rear cover plate (212), a tube body upper cover plate (213), a tube body lower cover plate (214), a tube body left cover plate (215) and a tube body right cover plate (216) in a surrounding manner, a floodlight light source module (22) and a laser light source module (23) are arranged in the tube body (21), the floodlight source module (22) comprises a floodlight fixing plate (221), a large lens (222), a floodlight light source assembly (223), a lens fixing plate (224) and small lenses (225), the floodlight fixing plate (221) forms a large lens mounting cavity (2211) in the middle, the large lens (222) is installed on the front side of the floodlight fixing plate (221) in a matching manner with the large lens mounting cavity (2211), the floodlight source assemblies (223) are in pairs, the floodlight source assemblies (2241) are arranged on the front side of the floodlight fixing plate (221) and symmetrically distributed on two sides of the large lens (222), the floodlight source assemblies (223) are arranged on the front side of the large lens (221), the floodlight fixing plate (224), and the floodlight source assemblies (224) are connected with the floodlight fixing plate (224), and the floodlight fixing plate (222) and the floodlight source fixing plate (224) and the floodlight source fixing plate (221) and the floodlight source assemblies (224) and the floodlight source fixing plate (224), constitute in the both sides of this big lens fixed orifices (2241) and corresponding to each floodlight source (2231) and have little lens installation cavity (2242), in each little lens installation cavity (2242) adaptation installation little lens (225), barrel front shroud (211) set up the front side at lens fixed plate (224), with floodlight fixed plate (221) fixed mounting, barrel front shroud (211) correspond to big lens (222) be formed with big lens hole of stepping down (2111) to be formed with in the both sides of big lens hole of stepping down (2111) with corresponding little lens hole of stepping down (2112) of little lens (225), laser light source module (23) be located the rear side and barrel back shroud (212) fixed mounting of big lens (222), laser light source (231) coaxial setting in big lens (222) and the laser light source module (23).

2. A remote floodlight with floodlight according to claim 1, wherein the floodlight source module (22) further comprises a floodlight radiator (226), the floodlight radiator (226) is arranged at the rear side of the floodlight fixing plate (221), and the number of the floodlight radiator is equal to that of the floodlight source components (223) and the position of the floodlight radiator corresponds to that of the floodlight source components (223); the laser light source module (23) comprises a laser light source radiator (232) and a heat dissipation fan (233), wherein the laser light source radiator (232) is arranged on one surface of the outer side of the cylinder rear cover plate (212), and the heat dissipation fan (233) is installed on the radiator (232).

3. A remote floodlight with floodlight according to claim 2, wherein the floodlight radiator (226) has radiator fixing screws (2261) at the upper and lower ends in the height direction, a radiator fixing screw through hole (2243) is arranged on the lens fixing plate (224) corresponding to the radiator fixing screw (2261), the cylinder front cover plate (211) extends towards the radiator fixing screw (2261) at the inner side to form a screw post (2113), a front cover plate flange (2114) is formed at the peripheral edge of the cylinder front cover plate (211), the flange edge (2114) of the front cover plate is coated on the outer sides of the front ends of the upper cover plate (213) of the cylinder body, the lower cover plate (214) of the cylinder body, the left cover plate (215) of the cylinder body and the right cover plate (216) of the cylinder body and is fixed in turn by screws, the radiator fixing screws (2261) sequentially penetrate through the radiator fixing screw through holes (2243) on the floodlight fixing plate (221) and the lens fixing plate (224) from one side of the floodlight radiator (226) and then are fixedly connected with the screw columns (2113), a rear cover plate flange edge (2121) is formed on the peripheral edge of the cylinder rear cover plate (212), the cladding of back shroud flange (2121) is in the outside of the rear end of barrel upper cover plate (213), barrel lower cover plate (214), barrel left side apron (215) and barrel right side apron (216) and fix in proper order through the screw.

4. A remote floodlight with a floodlight according to claim 1, wherein the lamp barrel (2) has a left barrel rotating shaft (2151) disposed outside the left barrel cover (215), and a right barrel rotating shaft (2161) disposed outside the right barrel cover (216) and corresponding to the left barrel rotating shaft (2151), the lampshade (1) comprises a front lampshade cover (11), an upper lampshade cover (12) and a lower lampshade cover (13), the lower lampshade cover (13) has a pair of bearing seats (131) disposed on the left and right sidewalls and corresponding to the left barrel rotating shaft (2151) and the right barrel rotating shaft (2161), respectively, and the left barrel rotating shaft (2151) and the right barrel rotating shaft (2161) are fittingly mounted with the pair of bearing seats (131), such that the lamp barrel (2) is rotatably connected to the lower lampshade cover (13).

5. A remote searchlight with floodlight according to claim 4, wherein the pan/tilt head (5) comprises a pan/tilt head housing (51), a flange rotating shaft (52), a first bearing (53), a second bearing (54), a fastening nut (55) and a pan/tilt head bottom cover (56), the first bearing (53) is centrally arranged on the upper surface of the top plate of the pan/tilt head housing (51), the second bearing (54) is arranged on the lower surface of the top plate of the pan/tilt head housing (51) corresponding to the first bearing (53), the flange rotating shaft (52) is connected to the bottom of the lampshade lower cover (13) and sequentially penetrates through the first bearing (53), the pan/tilt head housing (51), the second bearing (54) and the horizontal rotating mechanism (6) from top to bottom, the flange rotating shaft (52) is in transmission connection with the horizontal rotating mechanism (6), the fastening nut (55) is arranged at the bottom end of the flange rotating shaft (52), the first bearing (53), the second bearing (51), the second bearing (54) and the horizontal rotating mechanism (6) are fixed to the flange rotating shaft (52), the outer side wall of the pan/tilt head housing (51) is further provided with an aviation plug (511).

6. A remote floodlight with a floodlight according to claim 3, wherein the vertical rotating mechanism (3) comprises a vertical motor fixing plate (31), a vertical toothed plate (32), a vertical gear (33) and a vertical motor (34), the vertical motor (34) is mounted on the vertical motor fixing plate (31) and electrically connected with the first main control plate (4), a transmission shaft of the vertical motor (34) horizontally penetrates through the vertical motor fixing plate (31) and is in interference connection with the vertical gear (33), a front end of the vertical toothed plate (32) is fixedly connected with a side surface of a flange (2121) of the back cover plate of the light tube (2), a rear end of the vertical toothed plate (32) is engaged with the vertical gear (33), a bottom end of the vertical motor fixing plate (31) is bent outwards to form a mounting plate (311), and the mounting plate (311) is fixedly mounted with a right side wall of the lampshade lower cover (13).

7. A remote searchlight with a floodlight according to claim 4, characterized in that a vertical limiting mechanism (8) is further arranged in the lampshade (1), a mounting column (132) is arranged at the bottom of the middle position of the left side wall of the lampshade lower cover (13), the vertical limiting mechanism (8) comprises a limiting fixing plate (81), an upper limiting sensor (82) and a lower limiting sensor (83), the bottom of the limiting fixing plate (81) is fixed on the mounting column (132), the upper limiting sensor (82) is arranged at the upper end of the limiting fixing plate (81), the lower limiting sensor (83) is arranged at the lower end of the limiting fixing plate (81), the lamp tube (2) is provided with a limiting stop corresponding to the vertical limiting mechanism (8) and used for being in contact fit with the upper limiting sensor (82) and the lower limiting sensor (83), and the upper limiting sensor (82) and the lower limiting sensor (83) are respectively and electrically connected with the first main control plate (4).

8. A remote searchlight with floodlight according to claim 5, wherein the horizontal rotation mechanism (6) comprises a first horizontal gear (61), a second horizontal gear (62), a horizontal motor fixing plate (63) and a horizontal motor (64), the horizontal motor (64) is fixed on the lower surface of the horizontal motor fixing plate (63) and is electrically connected with the second main control plate (7), a transmission shaft of the horizontal motor (64) upwards penetrates through the horizontal motor fixing plate (63) and is in interference connection with the first horizontal gear (61), the horizontal motor fixing plate (63) is fixedly connected with the holder housing (51), the second horizontal gear (62) is meshed with the first horizontal gear (61), the second horizontal gear (62) is provided with an oblong special-shaped through hole (621) in the middle, and the flange rotating shaft (52) penetrates through the special-shaped through hole (621) to form transmission connection with the second horizontal gear (62).

9. A remote searchlight with floodlight according to claim 5, characterized in that a slide ring (9) is further arranged in the lampshade (1), the slide ring (9) is fixed at the bottom of the lower cover (13) of the lampshade, the flange rotating shaft (52) forms a lead hole (521) penetrating up and down in the middle, a lead at the upper end of the slide ring (9) is electrically connected with the first main control board (4), a lead at the lower end of the slide ring (9) penetrates through the lead hole (521) to be electrically connected with the second main control board (7), and the second main control board (7) is electrically connected with an external operation panel.

10. A remote floodlight with a floodlight according to claim 1, wherein said floodlight source assembly (223) comprises an elongated aluminum substrate (2232), said aluminum substrate (2232) being provided with said plurality of floodlight sources (2231) at intervals along the height direction.

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