CN113188061A - Lamp and processing method thereof - Google Patents

Abstract

The invention provides a lamp and a processing method thereof, wherein the lamp comprises a photoelectric module for providing a light source, a drive control module for controlling the operation of the photoelectric module, a lamp shell and a heat dissipation module, wherein the drive control module is positioned at one end of the lamp shell; the lamp shell comprises a shell inner cavity and a shell outer cavity, a ventilation cavity is formed between the shell inner cavity and the shell outer cavity, and the photoelectric module and the heat dissipation module are located in the shell inner cavity. The invention solves the problems in the prior art that: how to improve the heat dissipation effect in the lamp shell; the second problem is that: how to save the processing cost of the lamp; the third problem is that: how to more accurately rotatably adjust the direction angle of the lamp; the fourth problem is that: how to improve the sealing performance of the driving control module of the lamp.

Description

Lamp and processing method thereof

Technical Field

The invention relates to the technical field of lamp illumination, in particular to a lamp and a processing method thereof.

Background

The lamp in the prior art has poor heat dissipation effect, and the problem how to improve the heat dissipation effect in the lamp shell is solved.

In addition, the lamp in the prior art can only adjust an angle in one direction, the angle adjustment is not accurate, the sealing performance of the driving control module is poor, and the processing cost of the processing modes such as die casting is high.

Disclosure of Invention

The invention aims to provide a lamp and a processing method thereof, which mainly solve the problems in the prior art that: how to improve the heat dissipation effect in the lamp shell; the second problem is that: how to save the processing cost of the lamp; the third problem is that: how to more accurately rotatably adjust the direction angle of the lamp; the fourth problem is that: the lamp and the processing method thereof are provided for solving the problem of how to improve the sealing performance of a driving control module of the lamp.

In order to achieve the purpose, the invention adopts the technical scheme that: a light fixture, characterized by: the lamp comprises a photoelectric module for providing a light source, a drive control module for controlling the photoelectric module to operate, a lamp shell and a heat dissipation module, wherein the drive control module is positioned at one end of the lamp shell; the lamp shell comprises a shell inner cavity and a shell outer cavity, a ventilation cavity is formed between the shell inner cavity and the shell outer cavity, and the photoelectric module and the heat dissipation module are located in the shell inner cavity.

Furthermore, the heat dissipation module is pressed into the inner cavity of the shell in an interference fit mode and is fixed on the inner side wall of the inner cavity of the shell; and/or the inner side wall of the cavity of the shell is provided with a first step part for fixing a heat dissipation module; the photoelectric module is connected to the heat dissipation module, and the driving control module is located below the heat dissipation module.

Further, be equipped with connecting portion between the cavity outside casing and the casing in the casing, the lamps and lanterns casing still includes the electric wire access mouth that runs through cavity, connecting portion and the outer cavity of casing in the casing, and electric wire access mouth is equipped with the electric wire access hole that runs through cavity, connecting portion and the outer cavity of casing in establishing the concave connection face and connecting concave station, connecting concave station in the electric wire access mouth.

Furthermore, the driving control module comprises a driving shell, a driving space for arranging a driver is arranged in the driving shell, and the driving shell is connected with the bottom of the cavity in the shell of the lamp shell;

or the drive control module comprises a drive inner shell with an opening at the bottom and a drive outer shell with an opening at the top, and the opening part of the drive inner shell is embedded into the opening part of the drive outer shell to form a drive space for arranging a driver; the driving inner shell is connected with the inner cavity of the lamp shell, and the driving outer shell is connected with the driving inner shell.

Furthermore, the connecting concave station is provided with a breathing hole which penetrates through the inner cavity of the shell, the connecting part and the outer cavity of the shell; a sealing element is arranged between the driving shell and the bottom of the cavity in the shell of the lamp shell, or a sealing element is arranged between the driving outer shell and the driving inner shell; a connecting rib is arranged between the inner cavity of the shell and the outer cavity of the shell; the lamp shell is made of sectional materials, and the inner cavity of the shell is integrally connected with the outer cavity of the shell.

Furthermore, the lamp also comprises an anti-dazzle light control module for controlling the photoelectric module to emit light to the outside of the lamp shell, and the anti-dazzle light control module is rotatably connected with the lamp shell;

the anti-dazzle light control module comprises an anti-dazzle light control shell and a transparent protection sheet, wherein the top of the anti-dazzle light control shell is a light outlet surface, a light outlet is formed in the light outlet surface, and the transparent protection sheet is located below the light outlet; the outer side wall of the anti-dazzle light control shell is provided with a first scale used for measuring the rotation angle of the anti-dazzle light control module; the inner side wall of the bottom of the anti-dazzle light control shell is provided with a light control inverted hook rotating limiting ring and a limiting ring for preventing the anti-dazzle light control module from excessively rotating; the inner side wall of the bottom of the anti-dazzle light control shell is provided with a convex part;

the outer wall of the inner cavity of the shell, which is close to the top of the inner cavity of the shell, is provided with a stroke universal rotating groove, the top of the inner cavity of the shell comprises a first protruding table top for supporting the anti-dazzle light control shell and a second step part or a second protruding table top for supporting the transparent protective sheet, and the top of the outer cavity of the shell is provided with a limiting boss;

the convex part of the inner side wall of the bottom of the anti-dazzle light control shell is rotatably clamped with the stroke universal rotating groove;

and a rotating gap for communicating the ventilation cavity and the outside is formed between the bottom of the anti-dazzle light control shell and the outer cavity of the shell.

Further, a first power module and a first power driving fixing piece for fixing the first power module are arranged in the driving space, the first power driving fixing piece is connected with a driver (or a driving plate), and the driver is fixed at the bottom of the driving shell; the top of the driving shell is provided with an opening, the outer side wall of the driving shell is provided with a first flanging, the driving shell corresponding to the first flanging is the upper part of the driving shell, the upper part of the driving shell is embedded into the inner cavity of the shell, and the first flanging is fixedly connected with the connecting rib; the sealing element is positioned between the bottom of the cavity in the shell and the first flanging; the first flanging is provided with an air vent which is communicated with the inner space of the ventilation cavity and the outer space of the lamp shell;

or the top of the drive inner shell is provided with a first flanging, the peripheral edge of the first flanging is provided with a lower vent, the top of the drive outer shell is provided with a second flanging, the second flanging is provided with a second vent, the top of the second flanging is arranged at the bottom of the first flanging, the second vent corresponds to the lower vent, and the lower vent is communicated with the vent cavity and the external space; the top of the first flanging is arranged at the bottom of the inner cavity of the shell.

The lamp further comprises a chassis support adjusting module used for controlling the horizontal direction movement and/or the vertical direction movement of the lamp shell and the photoelectric module, the chassis support adjusting module comprises a chassis used for internally arranging the input/output wiring module and a double-column type rotating shaft used for controlling the horizontal direction movement and/or the vertical direction movement of the lamp shell, the double-column type rotating shaft is divided into a first connecting column body used for connecting the lamp shell and a second connecting column body used for connecting the chassis, and the first connecting column body and the second connecting column body are connected to form the double-column type rotating shaft; the chassis is also internally provided with a rotating plate, the rotating plate and the second connecting column body are respectively positioned on the inner side and the outer side of the chassis, the rotating plate and the second connecting column body penetrate through the chassis through bolts and then are connected, and meanwhile, the rotating plate and the second connecting column body clamp and fix the chassis; a second scale is arranged on the base plate around the second connecting column; the input and output wiring module is connected with an external power supply and is connected with the drive control module, the photoelectric module and the heat dissipation module through wires.

A lamp processing method relates to the lamp, and is characterized by comprising the following specific steps:

s1, processing the sectional materials into a lamp shell to form a shell outer cavity, a shell inner cavity and a ventilation cavity between the shell outer cavity and the shell inner cavity;

s2, pressing the heat dissipation module into the cavity in the shell, and fixing the heat dissipation module and the cavity in the shell in an interference fit manner;

s3, mounting the photoelectric module on the top of the lamp shell, and mounting the drive control module at the bottom of the lamp shell.

A lamp processing method relates to the lamp, and is characterized by comprising the following specific steps:

s1, processing the sectional material into a lamp shell to form a shell outer cavity, a shell inner cavity, a ventilation cavity, a connecting rib and a connecting part between the shell outer cavity and the shell inner cavity, and a driving shell connecting hole in the connecting rib;

s2, processing a shell outer cavity and a shell inner cavity corresponding to the lamp shell to form a stroke universal rotating groove rotatably connected with the anti-dazzle light control module and a wire access port for allowing a wire to enter the lamp shell;

s3, determining a designated position (namely an AH corresponding position) of the heat dissipation module in the shell cavity, pressing the heat dissipation module into the designated position in the shell cavity, and fixing the heat dissipation module and the shell cavity in an interference fit mode or fixing the heat dissipation module on a first step part on the designated position of the inner side wall of the shell cavity;

s4, mounting the photoelectric module on the heat dissipation module;

s5, installing a sealing element on the first flanging, embedding the upper part of the driving shell into the cavity in the shell, wherein the vent hole on the first flanging corresponds to the ventilation cavity, and the first flanging is fixedly connected with the connecting rib to finish the installation of the driving control module at the bottom of the cavity in the shell; or the sealing element is arranged between the driving outer shell and the driving inner shell, then the driving outer shell is covered, the lower vent of the first flanging corresponds to the ventilation cavity and the second vent of the second flanging, the top of the second flanging is arranged at the bottom of the first flanging, the top of the first flanging is arranged at the bottom of the cavity in the shell, and the installation of the driving control module at the bottom of the cavity in the shell is completed;

the electric wire connecting the photoelectric module, the heat dissipation module and the drive control module is led out from the electric wire access port;

s6, forming a double-column type rotating shaft by a first connecting column and a second connecting column, wherein the first connecting column is connected with a wire access port on the lamp shell, and then the chassis, the second connecting column and the rotating plate are connected, and at the moment, wires led out from the wire access port sequentially pass through the interior of the first connecting column and the interior of the second connecting column and then enter the interior of the chassis to be connected with an input/output wiring module;

and S7, forming a rotary clamping connection between the lug boss on the inner side wall of the bottom of the anti-dazzle light control shell and the stroke universal rotating groove, and finishing the rotary installation of the anti-dazzle light control module on the top of the inner cavity of the shell.

In view of the technical characteristics, the invention has the following beneficial effects:

1. according to the lamp, the heat dissipation module (including the radiator) is pressed into the lamp shell, the interference assembly installation mode is formed, the heat dissipation module is fixed on the inner side wall of the inner cavity of the shell of the lamp shell, the radiator conducts redundant heat in the lamp shell to the inner cavity of the shell, the redundant heat passes through the ventilation cavity formed by the outer cavity of the shell, part of air in the ventilation cavity circulates to take away the heat, part of air conducts the heat to the outer cavity of the shell through the connecting ribs, and the redundant heat is radiated out through the outer cavity of the shell, so that the heat dissipation function is realized, and the heat dissipation effect is improved.

2. According to the lamp, the angle rotation of the lamp shell is realized through the chassis support adjusting module, the lamp shell is selected in the horizontal direction and/or the vertical direction, and the function of more accurately rotating and adjusting the direction and the angle of the lamp is realized.

3. According to the lamp, the sealing performance of the driving control module of the lamp is improved by additionally arranging the sealing piece (the sealing rubber ring) between the driving control module and the bottom of the cavity in the shell of the lamp shell.

4. In the lamp processing process, the section is firstly adopted for processing to generate rough processing parts of the lamp shell, the lamp shells with different lengths and the space heights required by the photoelectric modules with different heights can be cut according to actual conditions (such as the space height (AH) required by the photoelectric modules and/or the height (H) of the lamp shell), and the rough processing parts of the same lamp shell can be processed into lamp shells with different models. The rough machining part is processed (such as machined) to form an installation part (comprising a stroke universal rotating groove and the like) matched with the anti-dazzle light control module and an installation part (comprising a connection surface at the bottom of the cavity in the shell corresponding to the sealing rubber ring) matched with the driving control module. The machining process of the section is simple and convenient, and the cost is saved.

Drawings

Fig. 1 is an exploded view of a lamp in embodiment 1.

Fig. 2 is a schematic structural view of the antiglare and light-controlling module in example 1 (with a transparent protective sheet attached).

Fig. 3 is a schematic structural diagram of a photovoltaic module and a heat dissipation module in embodiment 1.

Fig. 4 is a perspective view of a lamp housing in embodiment 1.

Fig. 5 is a plan view of a lamp housing in embodiment 1.

Fig. 6 is a perspective view of a lamp housing and a heat sink in embodiment 1.

Fig. 7 is a top view, a bottom view, a sectional view and a schematic structural view of the lamp housing with the heat sink in embodiment 1.

Fig. 8 is an enlarged bottom view of the lamp housing of embodiment 1 with the heat sink attached.

Fig. 9 is a sectional view of the lamp housing of embodiment 1 after the heat sink is attached.

Fig. 10 is a schematic structural view of a chassis base adjustment module in example 1.

Fig. 11 is an exploded view of a chassis mount adjustment module in example 1.

Fig. 12 is an exploded view of the drive control module in embodiment 1.

Fig. 13 is a sectional view of a lamp according to embodiment 1.

Fig. 14 is a partial enlarged view 1 of fig. 13.

Fig. 15 is a partial enlarged view 2 of fig. 13.

Fig. 16 is an exploded view of the drive control module in embodiment 2.

In the figure: 1. an anti-dazzle light control module; 10. an anti-dazzle light control shell; 110. a light-emitting surface; 112. a light outlet; 113. a first scale; 114. a limiting ring; 116. the light-control barb rotates the spacing collar; 219. a transparent protective sheet;

2. a lamp housing;

21. a housing outer cavity; 210. a limiting boss; 214. chamfering;

22. a housing interior cavity; 220. a travel universal rotation slot; 221. a first protruding mesa; 222. a second protruding mesa; 224. a connecting surface; 225. a connecting ring surface;

23. a ventilation cavity; 230. a connecting portion; 231. connecting ribs; 2311. a drive housing connection hole; 232. an upper vent of the vent cavity; 233. a lower vent of the vent cavity;

24. a rotational clearance;

25. an electric wire access port; 2501. a concave joint face; 2502. connecting the concave platform; 2503. connecting holes of bolts; 2504. a wire access hole; 26. a respiratory plug;

3. a photovoltaic module;

4. a heat dissipation module; 41. a heat sink; 42. the radiator is connected with the ring surface; 43. a heat sink and a heat dissipation space between the heat sinks; 44. a heat-conducting contact surface; 45. wire connection mounting hole (on radiator)

5. A drive control module; 501. a first power supply module; 502. a first power supply drives the fixing member; 503. a drive control connection table; (ii) a 504. A driver; 505. sealing the rubber ring; 509. a bolt;

51. a drive housing; 511. the upper part of the driving shell; 512. a first flanging; 513. a vent hole; 514. mounting holes (on the drive housing);

6. chassis support adjusting module

601. Sinking a platform; 602. a first connecting column; 6020. a first wire passing cavity; 603. a contact surface A; 604. a bolt; 605. limiting ribs; 606. mounting holes; 607. an outer rotating annular wall; 608. a chassis; 6080. a wiring cavity; 6081. a wiring attachment; 609. an input/output wiring module; 610 installing a plate; 611. a second scale; 612. the uterine cavity surface; 613. a chassis bore; 614. a bolt; 615. a second connecting column; 6150. a second wire passing cavity; 616. the joint of the first connecting column and the second connecting column; 6160. a third wire passing cavity; 617. a contact surface B; 618. a bolt; 620. an inner rotating annular wall; 621. friction teeth; 622. a rotating plate; 623. a bolt; 624. the position of installing the input/output wiring module; 625 connecting column; 626. connecting holes; 627. connecting the bosses; 628. a convex surface;

71. a wire guard ring; 72. an electric wire;

802. a lower vent; 804. a driver; 805. sealing the rubber ring; 806. a second vent hole; 808. second flanging; 810. a drive housing; 812. driving the inner shell; 818 a first flange; .

Detailed Description

The invention will be further illustrated with reference to specific embodiments. It should be understood that these examples are for illustrative purposes only and are not intended to limit the scope of the present invention. Further, it should be understood that various changes or modifications of the present invention may be made by those skilled in the art after reading the teaching of the present invention, and such equivalents may fall within the scope of the present invention as defined in the appended claims.

Referring to fig. 1 to 15, in embodiment 1, this embodiment 1 provides a lamp, which is characterized in that: the lamp comprises a photoelectric module 3 for providing a light source, a driving control module 5 for controlling the photoelectric module 3 to operate, a lamp shell 2 and a heat dissipation module 4, wherein the driving control module 5 is positioned at one end of the lamp shell 2; the lamp housing 2 comprises a housing inner cavity 22 and a housing outer cavity 21, a ventilation cavity 23 is formed between the housing inner cavity 22 and the housing outer cavity 21, and the photoelectric module 3 and the heat dissipation module 4 are located in the housing inner cavity 22.

The heat dissipation module 4 is used for dissipating heat generated by the driving control module 5 and/or the photovoltaic module 3, so as to prevent the temperature of the driving control module and/or the photovoltaic module from being too high. The heat dissipation module 4 includes a heat sink 41 (preferably, an independent heat sink 41), a heat dissipation cavity is further disposed below the heat sink 41, the heat dissipation fins of the heat sink 41 are preferably arranged in a sun-flower type fan shape, a heat dissipation space 43 is disposed between the heat dissipation fins of the heat sink 41, and the heat dissipation cavity and the heat dissipation space are both used for helping the heat dissipation of the heat sink 41, so as to improve the heat dissipation effect. Such as a heat sink 41, preferably in the shape of a sun sector.

The heat sink 41 may be further provided with a wire connection mounting hole 45 for passing and/or connecting a wire. The side of the top surface of the heat sink 41 facing the photovoltaic module 3 is a heat conducting contact surface 44, and the heat sink 41 connecting ring surface 42 can also function as a heat conducting contact surface to conduct heat to the housing inner cavity 22 and to the ventilation cavity 23 through the housing inner cavity 22.

The heat dissipation module 4 is pressed into the housing inner cavity 22 in an interference fit manner and fixed on the inner side wall of the housing inner cavity 22, and/or a first step portion (not shown in the drawing) for fixing the heat dissipation module 4 is arranged on the inner side wall of the housing inner cavity 22; the photoelectric module 3 is connected to the heat dissipation module 4, and the driving control module 5 is located below the heat dissipation module 4.

First step portion can help fixing thermal module 4 (be mainly radiator 41) more accurately on the inside wall assigned position of cavity 22 in the casing (be the AH left end point assigned position in the attached drawing), be used for connecting the round position of thermal module 4 on the cavity 22 inside wall in the casing this moment, also be called and connect circle face 225, be used for connecting circle face 42 phase-match with radiator 41 and form interference fit's connection, match through both sizes promptly, connect circle face between them and offset the back through frictional force mutual fixed position, both reach accurate interference fit, radiator 41 connects circle face 42 and is used for the round position of being connected with cavity 22 inside wall in the casing that radiator 41 outside wall.

The excessive heat is conducted to the heat dissipation module 4 through the heat conduction contact surface 44 of the heat dissipation module 4, then the excessive heat is conducted to the heat sink connection ring surface 42 through the heat sink 41 and the heat dissipation space 43 between the heat sink and the heat sink, the excessive heat is conducted to the connection ring surface 225 on the inner side wall of the housing inner cavity 22 through the heat sink connection ring surface 42, the connection ring surface 225 conducts the residual heat out of the part of heat behind the excessive heat conduction housing inner cavity 22 through the ventilation cavity 23 (i.e. radiates the heat to the outside of the lamp housing 2), the residual heat is conducted to the housing outer cavity 21 through the connection rib 231 in the ventilation cavity 23 formed by the housing outer cavity 21 and the housing inner cavity 22 in the lamp housing 2 again through the residual heat, and then the heat is radiated to the outside and dissipated by the housing outer cavity 21, so that the function of high-efficiency heat dissipation is realized.

The pressing-in can be manual pressing-in or jig pressing-in, the jig is a tool for assisting in controlling the heat dissipation module 4 (i.e. mainly the heat sink 41) to be pressed into the shell inner cavity 22 and fixed at a designated position (i.e. AH pointing position in the drawing) on the inner side wall of the shell inner cavity 22; for example, the cylindrical lamp housing 2 directly selects the inner diameter of the housing inner cavity 22 as 111 cm, the cross section of the cylindrical heat sink 41 as 111.3 cm, and presses the heat sink 41 into the housing inner cavity 22 to form interference fit, so that the heat sink 41 is fixed on the inner side wall of the housing inner cavity 22; or, the inner diameter of the inner cavity 22 of the housing may be 111 cm, after machining (for example, turning), the inner diameter of the inner cavity 22 of the housing is 112 cm, and then the heat sink 41 with the cross section of 112.3 cm in diameter is pressed into the inner cavity 22 of the housing to form an interference fit, so that the heat sink 41 is fixed on the inner side wall of the inner cavity 22 of the housing, and thus the diameter of the inner cavity 22 of the housing may be adjusted by machining the inner side wall of the inner cavity 22 of the housing, thereby meeting the requirement of the interference fit of the heat sink 41 with different diameter requirements on the inner side wall of the inner cavity 22 of the housing.

Be equipped with connecting portion 230 between cavity 22 in the casing and the outer cavity 21 of casing, lamp housing 2 still includes the electric wire access mouth 25 that runs through cavity 22 in the casing, connecting portion 230 and the outer cavity 21 of casing, establish in the electric wire access mouth 25 and recess the connection 2502 (recess the connection surface 2501 and connect the concave table 2502 and form a concave space jointly promptly), connect concave table 2502 and be equipped with the electric wire access hole 2504 that runs through cavity 22 in the casing, connecting portion 230 and the outer cavity 21 of casing, can also increase the electric wire guard ring 71 with electric wire access hole 2504 matched with, carry out better protection to the electric wire. The wire access hole 2504 is used for a wire to penetrate through the inside and outside of the lamp housing 2, the wire is connected with the power supply module, the wire provides power for the photoelectric module 3, the heat dissipation module 4 and the driving control module 5, and the connecting concave table 2502 is further provided with a bolt connecting hole 2503 for connecting the lamp housing 2 and the support adjusting module 6 of the chassis 608, for example, through bolt connection.

The driving control module 5 comprises a driving shell 51, a driving space for arranging the driver 504 is arranged inside the driving shell 51, and the driving shell 51 is connected with the bottom of the shell inner cavity 22 of the lamp shell 2;

a first power module 501 and a first power driving fixing member 502 for fixing the first power module are arranged in the driving space, the first power driving fixing member is connected with a driver 504 (or a driving plate), and the driver 504 is fixed at the bottom of the driving shell 51; the top of the driving shell 51 is open, a first flange 512 is arranged on the outer side wall of the driving shell 51, the driving shell 51 corresponding to the first flange 512 is the upper part 511 of the driving shell, the upper part 511 of the driving shell is embedded into the inner cavity 22 of the shell, and the first flange 512 is fixedly connected with the connecting rib 231, for example, connected through a bolt 509.

A drive control connection block 503 is also provided in the drive housing 51.

The top of the driving shell 51 is open, so that heat generated by the driving space can be more conveniently diffused to the heat dissipation module 4 (i.e. the heat sink 41), thereby improving the heat dissipation effect and the heat dissipation efficiency; for example, the connecting rib 231 between the housing inner cavity 22 and the housing outer cavity 21 is provided with a driving housing connecting hole 2311, since the lamp housing 2 is made of a section bar, the driving housing connecting hole 2311 is vertically arranged to penetrate through the connecting rib 231, the first flange 512 is correspondingly provided with a mounting hole 514, and the driving housing connecting hole 2311 and the mounting hole 514 fixedly connect the first flange 512 and the connecting rib 231 through bolts; the first flanging 512 is provided with a vent hole 513, and the vent hole 513 is communicated with the inner space of the ventilation cavity 23 and the outer space of the lamp shell 2; due to the design, air circulation of the inner space of the ventilation cavity 23 and the outer space of the lamp shell 2 is facilitated, cold air can enter the ventilation cavity 23 from the vent holes 513, hot air in the ventilation cavity 23 rises upwards along with heat dissipated by the cavity 22 in the shell, flows to the outside of the lamp shell 2 after passing through a rotating gap, and meanwhile takes away the heat to help the inside of the ventilation cavity 23 cool and indirectly help the inside of the cavity 22 in the shell cool;

preferably, a first flange 512 is arranged in the middle of the outer side wall of the driving shell 51; preferably, the first flanging 512 is further provided with a groove ring for positioning and fixing the sealing element, so that the sealing element can achieve a good sealing effect, and the sealing element is effectively prevented from moving in position in the extrusion process to further influence the sealing effect;

the design that the upper portion 511 of the driving shell is embedded into the inner cavity 22 of the shell and the design of the sealing piece between the bottom of the inner cavity 22 of the shell and the first flange 512 of the shell can effectively prevent air and/or moisture outside the lamp shell 2 from entering the driving shell 51, and the normal operation of the driving control module 5, and/or the heat dissipation module 4 and/or the photoelectric module 3 is prevented from being affected, and the sealing effect is better due to the superposition of the two designs.

The connecting concave 2502 is provided with a breathing hole penetrating through the housing inner cavity 22, the connecting part 230 and the housing outer cavity 21 (the breathing hole is used for the circulation of air inside and outside the lamp housing 2, and the breathing hole can be closed by a breathing plug 26); a sealing element is further disposed between the driving housing 51 and the bottom of the housing inner cavity 22 of the lamp housing 2, preferably, the sealing element is located between the bottom of the housing inner cavity 22 and the first flange 512, the sealing element is, for example, a sealing rubber ring 505, and a bottom surface of the bottom of the housing inner cavity 22, which is used for contacting or connecting with the sealing rubber ring 505, is a connecting surface 224; still be equipped with splice bar 231 between cavity 22 in the casing and the outer cavity 21 of casing, splice bar 231 is used for strengthening the casing in the casing between cavity 22 and the outer cavity 21 of casing the dynamics of connecting, and splice bar 231 can establish a plurality ofly, evenly distributed is in ventilation chamber 23. The lamp housing 2 is made of a section bar, and the housing inner cavity 22 and the housing outer cavity 21 are integrally connected. The section bar is made, the processing cost is low, and the shell inner cavity 22 and the shell outer cavity 21 are integrally formed, so that the processing steps are reduced, and the cost is further saved.

The lamp also comprises an anti-dazzle light control module 1 for controlling the effect of emitting light from the photoelectric module 3 to the outside of the lamp shell 2, wherein the anti-dazzle light control module 1 is rotatably connected with the lamp shell 2;

the light emitting effect can be a light shape, or a size and a shape of a light section, and an anti-glare light control effect for preventing or avoiding dizziness of a user or a passerby, the anti-glare light control module 1 includes an anti-glare light control housing 10 and a transparent protective sheet 219, the top of the anti-glare light control housing 10 is a light emitting surface 110, the light emitting surface 110 is provided with a light outlet 112, and the transparent protective sheet 219 is located below the light outlet 112; the outer side wall of the anti-dazzle light control housing 10 is provided with a first scale 113 used for measuring the rotation angle of the anti-dazzle light control module 1, the first scale 113 is preferably arranged at the bottom edge part of the outer side wall of the anti-dazzle light control housing 10, the first scale 113 is used for measuring the rotation angle of the anti-dazzle light control module 1 relative to the lamp housing 2, so that the rotation angle of the anti-dazzle light control module 1 can be accurately adjusted, and the accuracy of the irradiation effect of the lamp is improved;

a stroke universal rotating groove 220 is arranged on the outer wall of the inner housing cavity 22 close to the top of the inner housing cavity 22, the top of the inner housing cavity 22 comprises a first protruding table 221 (or first protruding table) for supporting the anti-glare and light-control housing 10 and a second step (not shown in the drawings) or second protruding table 222 (or second protruding table) for supporting the transparent protective sheet 219, and the top of the outer housing cavity 21 is a limit boss 210; preferably, the first protruding mesa 221 and the second protruding mesa 222 are both protruded in the vertical direction, the cross sections of the first protruding mesa 221 and the second protruding mesa 222 are L-shaped or U-shaped, the first protruding mesa 221 is higher than the second protruding mesa 222, and the height difference between the first protruding mesa 221 and the second protruding mesa is just equal to the thickness of the transparent protection sheet; or the first protruding mesa 221 and the second stepped portion are L-shaped, the first protruding mesa 221 is higher than the second stepped portion, and the height difference between the two is just equal to the thickness of the transparent protection sheet.

The convex part of the inner side wall of the bottom of the anti-dazzle light control shell 10 is rotatably clamped with the stroke universal rotating groove 220; the rotation of the anti-glare light control module 1 may be that the anti-glare light control housing 10 drives the light outlet 112 to rotate, or that the anti-glare light control housing 10 drives the light outlet 112 and the transparent protective sheet 219 to rotate together.

A rotating gap 24 for communicating the ventilation cavity 23 and the outside is formed between the bottom of the anti-dazzle light control shell 10 and the shell outer cavity 21. This turning gap 24, no matter whether anti-dazzle accuse light module 1 is rotatory to take place to rotate, all exist, help the interior gas of ventilation chamber 23 and the outer gas of ventilation chamber 23 circulate each other, especially when heat in radiator 41 will the interior cavity 22 of casing conduct to the ventilation chamber 23 in through the cavity 22 in the casing, the heat in ventilation chamber 23 can continue to conduct to the lamps and lanterns casing 2 outside through the outer cavity 21 of casing promptly, realize the radiating function of lamps and lanterns casing 2, also can be behind the hot gas or the hot air in ventilation chamber 23 rise, through turning gap 24 discharge lamps and lanterns casing 2, drive gas or circulation of air, realize the radiating function of lamps and lanterns casing 2.

The top of the ventilation cavity 23 is provided with an upper vent 232 of the ventilation cavity 23, the upper vent 232 is communicated with the rotating gap 24, the bottom of the ventilation cavity 23 is provided with a lower vent 233 of the ventilation cavity 23, and the lower vent 233 is communicated with a vent 513 on the first flange 512.

Taking the lamp housing 2 as an example of being vertically placed, the anti-dazzle light control module 1 is located right above the lamp housing 2, where the rotatable clamping means that clamping is formed in the vertical direction due to the convex part and the stroke universal rotating groove 220, so that the anti-dazzle light control module 1 and the lamp shell 2 can not move and/or separate in the vertical direction, and the anti-dazzle light control shell 10 and the shell inner cavity 22 can be prevented from falling off or separating in the vertical direction, however, by rotating the module 1 (i.e., the housing 10) in the horizontal direction, the protrusions and the stroke gimbal grooves 220 can be rotated in the horizontal direction, in fact, the protrusions are rotated horizontally in the stroke gimbal grooves 220, namely, the anti-dazzle light control module 1 is driven to rotate, so that the anti-dazzle light control module 1 can be rotatably connected with the lamp shell 2 (namely, the cavity 22 in the shell).

Preferably, the add-on design is as follows: an upper light control cavity (not shown in the drawing) is arranged in the anti-dazzle light control module 1 (mainly referring to the anti-dazzle light control shell 10) and at a position corresponding to the light outlet 112, the upper light control cavity is used for controlling light and/or preventing dazzle (namely the light is softer and not dazzling) through the light, and the upper light control cavity has a certain height which is designed to enhance the anti-dazzle effect. In addition, the surface of the antiglare housing 10 where the light exit port 112 is located may be an inclined design, and in this case, the light exit port 112 is also inclined, so as to adjust the shape of the light emitted from the antiglare housing 10 and/or the light exit port 112.

The cavity in the anti-glare light control module 1 (mainly, the anti-glare light control housing 10) not corresponding to the light outlet 112 is a light shielding cavity for shielding excessive light and/or improving the anti-glare effect. The anti-dazzle light control module 1 helps a user to obtain an ideal optical function effect of anti-dazzle light control and light emission and meets the lighting application requirement of adjusting the lighting direction of a lamp.

The lamp shell 2 (namely the inner shell cavity 22) and the anti-dazzle light control module 1 (namely the anti-dazzle light control shell 10) have the characteristics of detachable installation and maintenance, so that the application requirements of the optical anti-dazzle light control of lamps of different types and the illumination application requirements for adjusting the illumination direction of the lamps are conveniently realized, the convenience in installing, disassembling and maintaining of the lamps is achieved, the product cost is reduced, the product application range and the replaceability convenience can be expanded, and the use satisfaction degree of a customer on the lamps is further improved.

The lamp further comprises a chassis 608 and support adjusting module 6 for controlling the lamp housing 2 and the optoelectronic module 3 to move in the horizontal direction and/or in the vertical direction, that is, the chassis 608 and support adjusting module 6 controls the lamp housing 2 and the optoelectronic module 3 inside the lamp housing to move in the horizontal direction and/or in the vertical direction synchronously, the chassis 608 and support adjusting module 6 comprises a chassis 608 for internally installing an input/output wiring module 609 and a double-column type rotating shaft for controlling the lamp housing 2 to move in the horizontal direction and/or in the vertical direction, the double-column type rotating shaft is divided into a first connecting column 602 body for connecting the lamp housing 2 and a second connecting column 615 body for connecting the chassis 608, and the first connecting column 602 body and the second connecting column 615 body are connected to form the double-column type rotating shaft; the 230 position of the connecting portion between the first connecting column 602 and the second connecting column 615 is a connecting portion 616 (i.e. a column-type rotating structure), when the second connecting column 615 is fixed (including a horizontal position and a vertical position), the first connecting column 602 rotates with the connecting portion 616 as a pivot, and the first connecting column 602 drives the lamp housing 2 to move in the vertical direction; or the first connecting column 602 and the second connecting column 615 are fixed in position, and the second connecting column 615 is horizontally rotated, and then the second connecting column 615 drives the first connecting column 602 to horizontally rotate, so that the first connecting column 602 drives the lamp housing 2 to horizontally move. The multi-section independent module is convenient to be replaced randomly as an accessory according to application, so that the multi-section independent module can achieve multiple functions.

The joint 616 is formed by the contact surface a 603 of the first connecting column 602 and the contact surface B617 of the second connecting column 615 facing each other, and the first connecting column 602 and the second connecting column 615 are coaxially connected (i.e., are in contact and locked with each other) by the bolts 604 and 618, and the angle between the first connecting column 602 and the second connecting column 615 is fixed by coaxially screwing the bolts. The inner side surface of one end of the first connecting column 602 for forming the joint 616 is further provided with a sunken platform 601 for facilitating the connection between the first connecting column 602 and the second connecting column 615. The user rotates the lamp according to the scale mark (i.e. the second scale 611) on the independent rotating member, so that the lamp can meet the requirements of the lamp use angle and the application scene function.

The chassis 608 is internally provided with a rotating plate 622, the rotating plate 622 and the second connecting column 615 are respectively positioned on the inner side and the outer side of the chassis 608, the rotating plate 622 and the second connecting column 615 penetrate through the chassis 608 through bolts 623 and then are connected, and meanwhile, the rotating plate 622 and the second connecting column 615 clamp and fix the chassis 608, so that the three are indirectly connected into a whole, the stability is higher, meanwhile, the rotation of the second connecting column 615 is facilitated, for example, the connecting column is arranged on the inner side face of the second connecting column 615, and the connecting column is connected with the mounting plate 610 after the bolts penetrate through the chassis 608. The inner side surface (i.e. the surface located in the bottom plate 608) of the uterine cavity surface 612 is further provided with friction teeth 621, and the friction teeth 621 are matched with the rotating plate 622, so that friction force is increased in the rotating process of the rotating plate 622 (and the second connecting column 615) to prevent the rotating plate 622 (and the second connecting column 615) from slipping.

The design of the independent chassis 608, the independent first connecting column 602, the independent second connecting column 615 and the independent rotating plate 622 enables the lamp to achieve a required lamp use angle and meet the required application scene function requirements.

The chassis 608 is provided with a second scale 611 around the second connection column 615, preferably, the top of the chassis 608 is provided with a uterine cavity surface 612, and a second scale 611 for counting the horizontal rotation angle of the second connection column 615 is arranged near the uterine cavity surface 612, so as to indirectly reflect the horizontal rotation angle of the lamp housing 2. The second connecting column 615 is connected to the uterine cavity surface 612 through a bolt 614 (i.e. a positioning and locking accessory, after the horizontal rotation angle is reached, the second connecting column 615 and the chassis 608 are positioned and locked through the bolt), a chassis hole cavity 613 protruding outwards is arranged at the center of the uterine cavity surface 612, a mounting hole 606 and a limiting rib 605 are arranged at the top of the chassis hole cavity 613, and the limiting rib 605 prevents the second connecting column 615 from excessively rotating to break the electric wire. The outer side wall of the bottom plate hole cavity 613 is provided with an outer rotating annular wall 607, the inner side surface of the bottom of the second connecting column 615 is provided with an inner rotating annular wall 620, and the outer rotating annular wall 607 is matched with the inner rotating annular wall 620 to jointly realize the horizontal rotation of the second connecting column 615 relative to the bottom plate 608.

The inner side of the top of the chassis 608 is a position for installing an input/output wiring module 609; one end of the first connection post 602, which is connected to the lamp housing 2 (i.e., the wire inlet 25 of the lamp housing 2), is provided with a connection hole 626, a connection boss 627 and a protruding surface 628, the connection hole 626 is used for being connected to the lamp housing 2 (i.e., the wire inlet 25 of the lamp housing 2), for example, by a bolt, and after connection, the first connection post 602 corresponds to the position of the wire inlet 25 of the lamp housing 2, so that the wire 72 can enter the lamp housing 2 from the first connection post 602, and power is provided for the subsequent driving control module 5 and the subsequent photovoltaic module 3; the connecting boss 627 is used for positioning between the first connecting column 602 and the lamp housing 2; the protruding surface 628 is used to be inserted into the wire inlet 25 of the lamp housing 2 for more precise installation.

The input and output wiring module 609 is arranged in the bottom plate 608, and a mounting plate 610 is arranged at the bottom of the bottom plate 608, and the mounting plate 610 is used for fixedly mounting the whole lamp at a specified position.

Preferably, the inner side of the top of the chassis 608 is a position 624 for mounting an input/output wiring module, and the connecting post 625 is formed after the first connecting post 602 and the second connecting post 615 are connected.

The input/output wiring module 609 is connected with an external power supply, and the input/output wiring module 609 is connected with the driving control module 5, the photoelectric module 3 and the heat dissipation module 4 through wires. A wiring cavity 6080 and a wiring accessory 6081 for electric wires to pass through are further arranged in the chassis 608, a second wire passing cavity 6150 for electric wires to pass through is arranged in the second connecting column 615, a first wire passing cavity 6020 for electric wires to pass through is arranged in the first connecting column 602, and a third wire passing cavity 6160 for electric wires to pass through is arranged in a joint 616 between the first connecting column 602 and the second connecting column 615; the electric wire enters a wiring cavity 6080 in the chassis 608 from the outside, passes through the wiring accessory 6081, then sequentially passes through the second wire passing cavity 6150, the third wire passing cavity 6160 and the first wire passing cavity 6020, enters the inside of the lamp housing 2 (i.e., the inside of the housing inner cavity) through the electric wire access hole 2504 of the electric wire access port 25 (i.e., the electric wire access hole 2504), and is connected with the driving control module 5, the photoelectric module 3 and the heat dissipation module 4.

In addition, a plurality of independent modules such as the anti-dazzle light control module 1, the photoelectric module 3, the heat dissipation module 4, the driving control module 5, the chassis 608, the support adjusting module 6 and the input and output wiring module 609 are detachably and assembled, the service life of the lamp is prolonged by replacing one or more parts, the optical anti-dazzle light control effect of different types of lamps is realized, the heat dissipation of the lamps is facilitated, the power of the lamps is increased, the service life of the lamps is prolonged by replacing the driving control module 5 of the lamps, and/or the change of the optical structure of the lamp application adjustment is realized by replacing the photoelectric module 3.

The upper and lower peripheral edges of the outer cavity 21 of the lamp shell 2 are chamfers 214, so that the appearance design is attractive.

The lamp processing method specifically comprises the following steps:

s1, manufacturing the lamp shell 2 by using section bar processing to form a shell outer cavity 21, a shell inner cavity 22, a ventilation cavity 23, a connecting rib 231, a connecting part 230 and a driving shell connecting hole 2311 in the connecting rib 231 between the shell outer cavity 21 and the shell inner cavity 22; at this time, after selecting an appropriate AH length and an L length according to the photoelectric requirement and the light distribution effect, the lamp housing 2 is formed by cutting or machining. The length L refers to the height of the whole lamp shell or the length of the shell; the AH length refers to the length from the top end of the lamp shell to the top end of the radiator, the AH length determines the designated position of connection after the radiator is pressed in, the radiator is convenient to position accurately, the AH length and the L length can adjust the space height of the photoelectric module 3, and the requirements of the photoelectric module 3 and the light distribution effect are met.

Because the heat dissipation module 4 is the assembly part, because of the photovoltaic module demand (can change photovoltaic module 3 when necessary), also can adjust AH length through the depth difference that the radiator was impressed, realize adjusting the purpose of photovoltaic module 3 place space height, reach the requirement of photovoltaic module 3 demand and grading effect.

S2, processing a shell outer cavity 21 and a shell inner cavity 22 corresponding to the lamp shell 2 to form a stroke universal rotating groove 220 rotatably connected with the anti-dazzle light control module 1 and a wire access port 25 for allowing a wire to enter the lamp shell 2; the machining in the process can be selected from machining. The anti-dazzle light control module 1 is detachably connected with the lamp shell 2, so that the photoelectric module 3 is convenient to replace.

S3, determining a designated position (i.e., an AH corresponding position) where the heat dissipation module 4 is installed in the housing inner cavity 22, pressing the heat dissipation module 4 into the designated position in the housing inner cavity 22, and fixing the heat dissipation module 4 and the housing inner cavity 22 to each other in an interference fit manner or fixing the heat dissipation module 4 on a first step portion at the designated position on the inner side wall of the housing inner cavity 22;

s4, mounting the photoelectric module 3 on the heat dissipation module 4;

s5, installing a sealing element on the first flanging 512, embedding the upper part 511 of the driving shell into the inner cavity 22 of the shell, enabling the vent hole 513 on the first flanging 512 to correspond to the ventilation cavity 23, and fixedly connecting the first flanging 512 with the connecting rib 231 to finish the installation of the driving control module 5 at the bottom of the inner cavity 22 of the shell; the electric wires for connecting the photoelectric module 3, the heat dissipation module 4 and the drive control module 5 are led out from the electric wire access port 25;

s6, a first connecting post 602 is connected to the wire inlet 25 of the lamp housing 2, and then the chassis 608, the second connecting post 615 and the rotating plate 622 are connected, and at this time, the wire led out from the wire inlet 25 sequentially passes through the inside of the first connecting post 602 and the inside of the second connecting post 615, and then enters the inside of the chassis 608 to be connected to the input/output wiring module 609;

s7, rotationally clamping the convex part of the inner side wall of the bottom of the anti-dazzle light control shell 10 and the stroke universal rotating groove 220 to complete the rotatable installation of the anti-dazzle light control module 1 on the top of the shell inner cavity 22.

Referring to fig. 16, embodiment 2, this embodiment 2 is different from embodiment 1 in that: the driving control module 5 comprises a driving inner shell 812 with an opening at the bottom and a driving outer shell 810 with an opening at the top, wherein the opening part of the driving inner shell 812 is embedded into the opening part of the driving outer shell 810 to form a driving space for arranging the driver 804; the driving inner housing 812 is connected to the housing inner cavity 22 of the lamp housing 2, and the driving outer housing 810 is connected to the driving inner housing 812, for example, by bolts. The top of the drive inner shell 812 is provided with a first flange 818, the peripheral edge of the first flange 818 is provided with a lower vent hole 802, the top of the drive outer shell 810 is provided with a second flange 808, the second flange 808 is provided with a second vent hole 806, the top of the second flange 808 is arranged at the bottom of the first flange 818 (a sealing rubber ring 805 can be additionally arranged between the first flange 818 and the second flange according to the situation), the second vent hole 806 corresponds to the lower vent hole 802, and the lower vent hole 802 is communicated with the vent cavity 23 and the external space; the top of the first flange 818 fits into the bottom of the housing interior cavity 22. That is to say, the outside gas can get into the ventilation chamber 23 through second air vent 806, lower vent 802 in proper order, then passes through the ventilation chamber 23 again, after absorbing the heat, the hot-air rises, outside rethread running gap 24 discharge lamps and lanterns casing 2, takes away heat and hot-air in the ventilation chamber 23, drive inner shell 812 and drive shell 810 embedding design and two turn-ups designs, can improve and form the sealed protective effect in drive space, especially water-proof effects by drive inner shell 812 and drive shell 810.

The side walls of the drive inner housing 812 and the drive outer housing 810 overlap each other and may also serve as a water barrier.

The processing step of S5 is to place the sealing element between the driving outer shell 810 and the driving inner shell 812, and then cover the driving outer shell 810, where the lower vent 802 of the first flange 818 corresponds to the vent cavity 23 and the second vent 806 of the second flange 808, the top of the second flange 808 is installed at the bottom of the first flange 818, the top of the first flange 818 is installed at the bottom of the inner cavity 22 of the housing, and the installation of the driving control module 5 at the bottom of the inner cavity 22 of the housing is completed; the electric wires connecting the photoelectric module 3, the heat dissipation module 4 and the driving control module 5 are led out from the electric wire inlet 25.

In specific embodiment 3, this embodiment 3 provides a lamp, where the lamp includes a photovoltaic module 3 for providing a light source, a driving control module 5 for controlling the operation of the photovoltaic module 3, a lamp housing 2, and a heat dissipation module 4, where the driving control module 5 is located at one end of the lamp housing 2; the lamp housing 2 comprises a housing inner cavity 22 and a housing outer cavity 21, a ventilation cavity 23 is formed between the housing inner cavity 22 and the housing outer cavity 21, and the photoelectric module 3 and the heat dissipation module 4 are located in the housing inner cavity 22.

The heat dissipation module 4 is pressed into the housing inner cavity 22 in an interference fit manner and fixed on the inner side wall of the housing inner cavity 22.

The processing method of the lamp in embodiment 3 includes the following specific steps:

s1, manufacturing the lamp shell 2 by utilizing sectional material processing to form a shell outer cavity 21, a shell inner cavity 22 and a ventilation cavity 23 between the shell outer cavity and the shell inner cavity;

s2, pressing the heat dissipation module 4 into the shell inner cavity 22, and fixing the heat dissipation module 4 and the shell inner cavity 22 in an interference fit manner;

s3, the top of the lamp shell 2 is provided with the photoelectric module 3, and the bottom of the lamp shell 2 is provided with the drive control module 5.

The above description is only a preferred embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (10)

1. A light fixture, characterized by: the lamp comprises a photoelectric module for providing a light source, a drive control module for controlling the photoelectric module to operate, a lamp shell and a heat dissipation module, wherein the drive control module is positioned at one end of the lamp shell; the lamp shell comprises a shell inner cavity and a shell outer cavity, a ventilation cavity is formed between the shell inner cavity and the shell outer cavity, and the photoelectric module and the heat dissipation module are located in the shell inner cavity.

2. A light fixture as recited in claim 1, wherein: the heat dissipation module is pressed into the inner cavity of the shell in an interference fit mode and is fixed on the inner side wall of the inner cavity of the shell; and/or the inner side wall of the cavity of the shell is provided with a first step part for fixing a heat dissipation module; the photoelectric module is connected to the heat dissipation module, and the driving control module is located below the heat dissipation module.

3. A light fixture as recited in claim 2, wherein: the lamp shell further comprises an electric wire access opening penetrating through the inner cavity of the shell, the connecting portion and the outer cavity of the shell, a concave connecting face and a connecting concave table are arranged in the electric wire access opening, and an electric wire access hole penetrating through the inner cavity of the shell, the connecting portion and the outer cavity of the shell is formed in the connecting concave table.

4. A light fixture as recited in claim 3, wherein: the driving control module comprises a driving shell, a driving space for arranging a driver is arranged in the driving shell, and the driving shell is connected with the bottom of the cavity in the shell of the lamp shell;

or the drive control module comprises a drive inner shell with an opening at the bottom and a drive outer shell with an opening at the top, and the opening part of the drive inner shell is embedded into the opening part of the drive outer shell to form a drive space for arranging a driver; the driving inner shell is connected with the inner cavity of the lamp shell, and the driving outer shell is connected with the driving inner shell.

5. A light fixture as recited in claim 4, wherein: the connecting concave platform is provided with a breathing hole which penetrates through the inner cavity of the shell, the connecting part and the outer cavity of the shell; a sealing element is arranged between the driving shell and the bottom of the cavity in the shell of the lamp shell, or a sealing element is arranged between the driving outer shell and the driving inner shell; a connecting rib is arranged between the inner cavity of the shell and the outer cavity of the shell; the lamp shell is made of sectional materials, and the inner cavity of the shell is integrally connected with the outer cavity of the shell.

6. A light fixture as recited in claim 5, wherein: the lamp also comprises an anti-dazzle light control module for controlling the effect of emitting light rays from the photoelectric module to the outside of the lamp shell, and the anti-dazzle light control module is rotatably connected with the lamp shell;

the anti-dazzle light control module comprises an anti-dazzle light control shell and a transparent protection sheet, wherein the top of the anti-dazzle light control shell is a light outlet surface, a light outlet is formed in the light outlet surface, and the transparent protection sheet is located below the light outlet; the outer side wall of the anti-dazzle light control shell is provided with a first scale used for measuring the rotation angle of the anti-dazzle light control module; the inner side wall of the bottom of the anti-dazzle light control shell is provided with a light control inverted hook rotating limiting ring and a limiting ring for preventing the anti-dazzle light control module from excessively rotating; the inner side wall of the bottom of the anti-dazzle light control shell is provided with a convex part;

the outer wall of the inner cavity of the shell, which is close to the top of the inner cavity of the shell, is provided with a stroke universal rotating groove, the top of the inner cavity of the shell comprises a first protruding table top for supporting the anti-dazzle light control shell and a second step part or a second protruding table top for supporting the transparent protective sheet, and the top of the outer cavity of the shell is provided with a limiting boss;

the convex part of the inner side wall of the bottom of the anti-dazzle light control shell is rotatably clamped with the stroke universal rotating groove;

and a rotating gap for communicating the ventilation cavity and the outside is formed between the bottom of the anti-dazzle light control shell and the outer cavity of the shell.

7. A light fixture as recited in claim 6, wherein: a first power supply module and a first power supply driving fixing piece for fixing the first power supply module are arranged in the driving space, the first power supply driving fixing piece is connected with a driver, and the driver is fixed at the bottom of the driving shell; the top of the driving shell is provided with an opening, the outer side wall of the driving shell is provided with a first flanging, the driving shell corresponding to the first flanging is the upper part of the driving shell, the upper part of the driving shell is embedded into the inner cavity of the shell, and the first flanging is fixedly connected with the connecting rib; the sealing element is positioned between the bottom of the cavity in the shell and the first flanging; the first flanging is provided with an air vent which is communicated with the inner space of the ventilation cavity and the outer space of the lamp shell;

or the top of the drive inner shell is provided with a first flanging, the peripheral edge of the first flanging is provided with a lower vent, the top of the drive outer shell is provided with a second flanging, the second flanging is provided with a second vent, the top of the second flanging is arranged at the bottom of the first flanging, the second vent corresponds to the lower vent, and the lower vent is communicated with the vent cavity and the external space; the top of the first flanging is arranged at the bottom of the inner cavity of the shell.

8. A light fixture as recited in claim 7, wherein: the lamp also comprises a chassis support adjusting module used for controlling the photoelectric module to move in the horizontal direction and/or in the vertical direction, the chassis support adjusting module comprises a chassis used for internally arranging an input/output wiring module and a double-column type rotating shaft used for controlling the lamp shell to move in the horizontal direction and/or in the vertical direction, the double-column type rotating shaft is divided into a first connecting column body used for connecting the lamp shell and a second connecting column body used for connecting the chassis, and the first connecting column body and the second connecting column body are connected to form the double-column type rotating shaft; the chassis is also internally provided with a rotating plate, the rotating plate and the second connecting column body are respectively positioned on the inner side and the outer side of the chassis, the rotating plate and the second connecting column body penetrate through the chassis through bolts and then are connected, and meanwhile, the rotating plate and the second connecting column body clamp and fix the chassis; a second scale is arranged on the base plate around the second connecting column; the input and output wiring module is connected with an external power supply and is connected with the drive control module, the photoelectric module and the heat dissipation module through wires.

9. A lamp processing method relates to a lamp in claim 1, and is characterized by comprising the following specific steps:

s1, processing the sectional materials into a lamp shell to form a shell outer cavity, a shell inner cavity and a ventilation cavity between the shell outer cavity and the shell inner cavity;

s2, pressing the heat dissipation module into the cavity in the shell, and fixing the heat dissipation module and the cavity in the shell in an interference fit manner;

s3, mounting the photoelectric module on the top of the lamp shell, and mounting the drive control module at the bottom of the lamp shell.

10. A lamp processing method relates to a lamp in claim 8, and is characterized in that the method comprises the following specific steps:

s1, processing the sectional material into a lamp shell to form a shell outer cavity, a shell inner cavity, a ventilation cavity, a connecting rib and a connecting part between the shell outer cavity and the shell inner cavity, and a driving shell connecting hole in the connecting rib;

s2, processing a shell outer cavity and a shell inner cavity corresponding to the lamp shell to form a stroke universal rotating groove rotatably connected with the anti-dazzle light control module and a wire access port for allowing a wire to enter the lamp shell;

s3, determining a designated position (namely an AH corresponding position) of the heat dissipation module in the shell cavity, pressing the heat dissipation module into the designated position in the shell cavity, and fixing the heat dissipation module and the shell cavity in an interference fit mode or fixing the heat dissipation module on a first step part on the designated position of the inner side wall of the shell cavity;

s4, mounting the photoelectric module on the heat dissipation module;

s5, installing a sealing element on the first flanging, embedding the upper part of the driving shell into the cavity in the shell, wherein the vent hole on the first flanging corresponds to the ventilation cavity, and the first flanging is fixedly connected with the connecting rib to finish the installation of the driving control module at the bottom of the cavity in the shell; or the sealing element is arranged between the driving outer shell and the driving inner shell, then the driving outer shell is covered, the lower vent of the first flanging corresponds to the ventilation cavity and the second vent of the second flanging, the top of the second flanging is arranged at the bottom of the first flanging, the top of the first flanging is arranged at the bottom of the cavity in the shell, and the installation of the driving control module at the bottom of the cavity in the shell is completed;

the electric wire connecting the photoelectric module, the heat dissipation module and the drive control module is led out from the electric wire access port;

s6, forming a double-column type rotating shaft by a first connecting column and a second connecting column, wherein the first connecting column is connected with a wire access port on the lamp shell, and then the chassis, the second connecting column and the rotating plate are connected, and at the moment, wires led out from the wire access port sequentially pass through the interior of the first connecting column and the interior of the second connecting column and then enter the interior of the chassis to be connected with an input/output wiring module;

and S7, forming a rotary clamping connection between the lug boss on the inner side wall of the bottom of the anti-dazzle light control shell and the stroke universal rotating groove, and finishing the rotary installation of the anti-dazzle light control module on the top of the inner cavity of the shell.

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