CN114204350A - Electric device with lighting function - Google Patents

Abstract

The invention discloses an electric device with a lighting function, and belongs to the field of electric devices. The electric device comprises a fixing frame, a face cover, a gear adjusting piece, a lamp module and a control module; the gear adjusting member includes: the lamp module and the main body part are respectively connected with the control module, and the operating part is exposed outside the fixed frame; the surface cover is connected with the top of the fixing frame and is arranged above the main body part and the control module; the gear adjusting piece can linearly move along the first direction parallel to the face cover to trigger the control module to different brightness control gears, and the control module adjusts the brightness of the lamp module according to the current brightness control gears. This electrical part only needs once to stir the regulation that the action can accomplish the luminance gear, and the flexibility is high, does benefit to and improves user experience, and more frivolous, reduces the probability that the operation portion was touched to the damage by the mistake.

Description

Electric device with lighting function

Technical Field

The invention relates to the field of electric devices, in particular to an electric device with a lighting function.

Background

The induction floor lamp is an electric device with a lighting function, and can play a role in assisting lighting and not influencing rest of other people at night or in an environment with unfavorable lighting conditions. The induction floor lamp is integrated on the socket to form the induction floor lamp socket, so that the electric device has the advantages of high integration level, diversified functions and the like, and is widely applied to places such as corners, passageways, corridors, toilets, sundries and the like.

The related art provides a footlight socket including: the lamp comprises a panel, a fixed frame, a face cover, a plug bush module, a lamp module and a control module; the plug bush module and the lamp module are electrically connected with the control module and are respectively positioned at different positions on the fixing frame, the face cover is connected with the fixing frame and is pressed above the plug bush module and the control module, and the panel cover is arranged on the fixing frame. The control module at least comprises a gear switch exposed on the panel, the gear switch can be pressed along the direction perpendicular to the panel, and the purpose of adjusting the brightness of the lamp module is achieved by pressing the gear switch.

However, when the luminance of lamp module set up to a plurality of gears, to some luminance gears, need press the gear switch many times and just can reach, in case press the number of times carelessly and surpass the target gear, need press many times again, this makes the luminance gear adjustment mode of lamp module comparatively mechanical carving board, and user experience feels relatively poor.

Disclosure of Invention

In view of this, the present invention provides an electric device with an illumination function, which can solve the above technical problems.

Specifically, the method comprises the following technical scheme:

an electric device having a lighting function, comprising: the gear adjusting device comprises a fixing frame, a face cover, a gear adjusting piece, a lamp module and a control module;

the gear adjuster includes: the lamp module and the main body part are respectively connected with the control module, and the operating part is exposed outside the fixed frame;

the face cover is connected with the top of the fixing frame and is arranged above the main body part and the control module;

the gear adjusting piece can linearly move along a first direction parallel to the face cover to trigger the control module to different brightness control gears, and the control module adjusts the brightness of the lamp module according to the current brightness control gear.

In some possible implementations, the control module includes: an electronic toggle switch having a toggle lever;

the main body part comprises a supporting section and a limiting section which are connected, and the supporting section is provided with an accommodating hole;

the bottom wall of the supporting section is sequentially lapped on the top wall of the electronic toggle switch and the side wall of the fixing frame along a second direction parallel to the face cover, the accommodating hole accommodates the toggle rod, and the accommodating hole is configured to be capable of driving the toggle rod to linearly move along the first direction so as to trigger the electronic toggle switch to different brightness control gears;

one end, far away from the supporting section, of the limiting section is connected with the operating part, the bottom wall of the limiting section is movably connected with the side wall of the fixing frame, and the limiting section is configured to be used for preventing the gear adjusting piece from moving along the second direction;

wherein the second direction is perpendicular to the first direction.

In some possible implementations, the fixture includes: the fixing frame body and the accommodating groove;

the containing groove is concavely arranged on the side wall of the fixing frame body opposite to the main body part, one end of the containing groove is communicated with the inner cavity of the fixing frame body, and the other end of the containing groove is communicated with the outside;

the main body part penetrates through the accommodating groove and is lapped on the bottom wall of the accommodating groove;

the operating part is positioned at the outer side of the accommodating groove.

In some possible implementations, the fixture further includes: the supporting ribs are positioned on the bottom wall of the accommodating groove;

and part of the bottom wall of the support section is lapped on the support rib.

In some possible implementations, the fixture further includes: the rail rib is positioned on the bottom wall of the accommodating groove;

the bottom wall of the limiting section is provided with a limiting groove, and the limiting groove is configured to be used for accommodating the track rib and making the motion along the track rib in the first direction and limiting the track rib in the second direction.

In some possible implementations, the body portion further includes a limiting rib located on at least one of the opposing first and second sidewalls of the limiting groove;

the limiting ribs are used for abutting against the corresponding side walls of the rail ribs.

In some possible implementations, the limiting rib includes: two first sub-limiting ribs and two second sub-limiting ribs;

the two first sub-limiting ribs are distributed on the first side wall of the limiting groove at intervals along the first direction;

the two second sub-limiting ribs are distributed on the second side wall of the limiting groove at intervals along the first direction;

the first sub-limiting rib and the second sub-limiting rib are staggered with each other.

In some possible implementation manners, the width of the limiting rib is gradually increased from the bottom end of the limiting rib to the top end of the limiting rib;

and the width direction of the limiting rib is the same as the second direction.

In some possible implementations, the face cover includes: the first positioning ribs are sequentially distributed on the bottom wall of the face cover body along the second direction;

the first positioning rib is used for abutting against the top wall of the support section.

In some possible implementations, the face cover further includes a second positioning rib located on the bottom wall of the face cover body;

the second positioning rib is used for abutting against the top wall of the limiting section.

In some possible implementations, the fixing frame includes a fixing frame body, a receiving groove, and a rail rib, and the rail rib is located on a bottom wall of the receiving groove;

the face lid further includes: the two groups of third positioning ribs are oppositely positioned on the bottom wall of the face cover body;

the two groups of third positioning ribs correspond to two ends of the track ribs distributed along the first direction one by one, and each group of third positioning ribs is abutted to the top wall of the corresponding end part of the track rib.

In some possible implementations, a dimension of the receiving hole in the second direction is greater than a dimension of the shift lever in the second direction.

In some possible implementations, two side walls of the receiving hole distributed along the first direction each have a rib for abutting against a corresponding side wall of the shift lever.

In some possible implementations, the electric device with a lighting function further includes: the fixed block is connected with the outer side wall of the fixed frame;

the fixed block is provided with a through hole which is used for accommodating the operating part;

the bottom wall of the through hole is provided with a plurality of salient points, and the salient points are positioned between two adjacent brightness control gears.

In some possible implementations, the control module further includes: the control circuit board, at least two different induction devices and the mode adjusting part;

the control circuit board is connected with the lamp module through a first connecting lead;

the at least two different sensing devices and the mode adjusting part are respectively connected with the control circuit board;

the mode adjusting part is configured to enable one of the sensing devices to be electrically conducted with the control circuit board so as to adjust the sensing mode of the lamp module to a target sensing mode.

In some possible implementations, the electric device with a lighting function further includes: the plug bush module passes through the clamp plate is fixed in inside the mount, just the plug bush module pass through the second connecting wire with control circuit board is connected.

In some possible implementations, the gear adjuster, the control module, the pressing plate, and the lamp module are sequentially distributed along a second direction parallel to the face cover, wherein the second direction is perpendicular to the first direction;

the top of the pressing plate is provided with a wire groove used for accommodating the first connecting wire.

In some possible implementations, the electric device with an illumination function further includes a panel, the panel is connected to the top of the fixing frame, and the panel covers the fixing frame.

The technical scheme provided by the embodiment of the invention has the beneficial effects that at least:

according to the electric device with the lighting function, the gear adjusting piece is additionally arranged, the main body part of the gear adjusting piece is connected with the control module, and the operating part of the gear adjusting piece is exposed to the outer side of the fixing frame. When the brightness of the lamp module is adjusted, the gear adjusting piece moves linearly along the first direction by shifting the operating part, and the moving main body part can trigger the control module to different brightness control gears due to the fact that the main body part is connected with the control module, so that the aim of adjusting the brightness gears of the lamp module of the electric device is fulfilled.

Because the motion mode of gear adjusting piece is for being on a parallel with the rectilinear motion of face lid, when the luminance gear of lamp module set up to a plurality of gears, no matter for which luminance gear, only need stir once gear adjusting piece can, at this in-process, the motion stroke through control gear adjusting piece can be easily with the luminance regulation to the target gear of lamp module, even surpass the target gear carelessly, only need reverse gear adjusting piece of stirring, can make it return to the target gear. Therefore, compared with the prior art that the brightness gear is adjusted by repeatedly pressing for many times, the embodiment of the invention can complete the adjustment of the brightness gear only by once stirring, thereby avoiding repeated operation, having higher flexibility and being beneficial to improving user experience.

In addition, compared with the design that the operation part is exposed above the face cover, the embodiment of the invention ensures that the operation part moves along the direction parallel to the face cover to adjust the brightness gear by exposing the operation part to the outer side of the fixing frame, thereby being beneficial to thinning the electric device and reducing the probability that the operation part is damaged by being touched by mistake.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of an exemplary electrical device with a lighting function according to an embodiment of the present invention;

fig. 2 is a schematic diagram of the electrical device of fig. 1 in its entirety and in partial configuration with the cover removed;

FIG. 3 is a schematic view of a portion of an exemplary fastening frame according to an embodiment of the present invention;

fig. 4 is a partial cross-sectional view of an exemplary electrical device having a lighting function provided in accordance with an embodiment of the present invention;

FIG. 5 is a schematic diagram illustrating the overall configuration and a schematic diagram illustrating portions of an exemplary shift position adjuster according to an embodiment of the present invention;

fig. 6 is a partial cross-sectional view and a partial top view of another exemplary electrical device having an illumination function provided by an embodiment of the present invention;

fig. 7 is a partial cross-sectional view of still another exemplary electrical device having a lighting function provided by an embodiment of the present invention;

FIG. 8 is a schematic view of an exemplary gearshift adjustment and electronic toggle switch assembly provided by an embodiment of the present invention;

FIG. 9 is a schematic view of an exemplary assembly relationship between a shift position adjusting member and a fixing block according to an embodiment of the present invention;

FIG. 10 is a schematic diagram illustrating a partial structure of an exemplary integrated electrical device including a socket and an induction lamp according to an embodiment of the present invention;

fig. 11 is a schematic view of the electrical device of fig. 10 after assembly of the face cover;

fig. 12 is a schematic view of the electrical device of fig. 11 after assembly of the panel.

The reference numerals denote:

1. a fixed mount;

10. a fixed frame body; 11. a containing groove; 12. supporting ribs; 13. a rail rib;

14. a fixed block; 141. a via hole; 142. salient points;

2. a face cover;

20. a face cover body; 21. a first positioning rib; 22. a second positioning rib; 23. a third positioning rib;

3. a gear adjustment member;

31. a main body portion; 311. a support section;

312. a limiting section; 3120. a limiting groove;

3121. a first connecting plate; 3122. a support plate; 3123. a second connecting plate;

313. a housing hole;

314. limiting ribs; 3141. a first sub-limiting rib; 3142. a second sub-limiting rib;

315. a rib is protruded;

32. an operation section;

4. a lamp module;

5. a control module;

51. an electronic toggle switch; 510. a deflector rod; 52. a control circuit board;

53. an induction device; 54. a mode adjustment member; 55. a first connecting wire;

61. a plug bush module; 62. pressing a plate; 63. a wire slot;

7. a panel;

d1, first direction; d2, second direction.

With the above figures, certain embodiments of the invention have been illustrated and described in more detail below. The drawings and the description are not intended to limit the scope of the inventive concept in any way, but rather to illustrate it by those skilled in the art with reference to specific embodiments.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, not all, embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Reference to orientation terms in embodiments of the present invention, such as "top," "bottom," "side," etc., are based on the application state of the electrical device, and these orientation terms are used merely to more clearly describe structures and relationships between the structures, and are not used to describe absolute orientations. The end of the electrical device that is in contact with the support, for example a wall or a table, is oriented as "lower" or "bottom", whereas the end of the electrical device that is remote from the support is oriented as "upper" or "top".

The induction floor lamp is an electric device with a lighting function, and can play a role in assisting lighting and not influencing rest of other people at night or in an environment with unfavorable lighting conditions. The induction floor lamp is integrated on the socket to form the induction floor lamp socket, so that the electric device has the advantages of high integration level, diversified functions and the like, and is widely applied to places such as corners, passageways, corridors, toilets, sundries and the like.

The related art provides a footlight socket including: the lamp comprises a panel, a fixed frame, a face cover, a plug bush module, a lamp module and a control module; the plug bush module and the lamp module are electrically connected with the control module and are respectively positioned at different positions on the fixing frame, the face cover is connected with the fixing frame and is pressed above the plug bush module and the control module, and the panel cover is arranged on the fixing frame. The control module at least comprises a gear switch exposed on the panel, the gear switch can be pressed along the direction perpendicular to the panel, and the purpose of adjusting the brightness of the lamp module is achieved by pressing the gear switch.

However, when the brightness of the lamp module is set to a plurality of shift positions, for example, the brightness shift position includes three shift positions, where the brightness of the first shift position corresponds to 0, the brightness of the second shift position corresponds to medium brightness, and the brightness of the third shift position corresponds to highest brightness. When the luminance that needs will lamp module is switched to the third gear by a shelves, need press twice gear switch and just can reach, press the action for the repeatability action, receive inertia to result, press the number of times carelessly and exceed twice very easily, need press to the target gear again like this, this makes the comparatively mechanical board of carving of luminance gear adjustment mode of lamp module, and user experience feels relatively poor.

In order to solve the above technical problem, an embodiment of the present invention provides an electric device with a lighting function, as shown in fig. 1 and 2, the electric device with a lighting function including: mount 1, face lid 2, gear adjusting part 3, lamp module 4 and control module 5. Wherein, gear adjustment piece 3 includes: the lamp module comprises a main body part 31 and an operating part 32 which are connected, wherein the main body part 31, the lamp module 4 and the control module 5 are respectively positioned at different positions on the fixed frame 1, the lamp module 4 and the main body part are respectively connected with the control module 5, and the operating part 32 is exposed outside the fixed frame 1. The surface cover 2 is connected with the top of the fixed frame 1, and the surface cover 2 is arranged above the main body part 31 and the control module 5. The gear adjusting member 3 can move linearly in a first direction D1 parallel to the face cover 2 to trigger the control module 5 to a different brightness control gear, and the control module 5 adjusts the brightness of the lamp module 4 according to the current brightness control gear.

According to the electric device with the lighting function provided by the embodiment of the invention, the main body part 31 of the gear adjusting piece 3 is connected with the control module 5 by additionally arranging the gear adjusting piece 3, and the operating part 32 of the gear adjusting piece 3 is exposed to the outer side of the fixing frame 1. When the brightness of the lamp module 4 is adjusted, the shift adjusting member 3 linearly moves along the first direction D1 by shifting the operating portion 32, and since the main body portion 31 is connected with the control module 5, the moving main body portion 31 can trigger the control module 5 to different brightness control shifts, so that the purpose of adjusting the brightness shift of the lamp module 4 of the electric device is achieved.

Because the motion mode of gear adjusting piece 3 is for being on a parallel with the rectilinear motion of face lid 2, when the luminance gear of lamp module 4 sets up to a plurality of gears, no matter for which luminance gear, only need stir gear adjusting piece 3 once can, at this in-process, the motion stroke through control gear adjusting piece 3 can be easily with the luminance regulation to the target gear of lamp module 4, even if surpass the target gear carelessly, only need reverse gear adjusting piece 3 of stirring, can make it return to the target gear. Therefore, compared with the prior art that the brightness gear is adjusted by repeatedly pressing for many times, the embodiment of the invention can complete the adjustment of the brightness gear only by once stirring, thereby avoiding repeated operation, having higher flexibility and being beneficial to improving user experience.

In addition, compared with the design that the operation part 32 is exposed above the face cover 2, the embodiment of the invention enables the operation part 32 to be exposed outside the fixing frame 1, so that the operation part 32 moves along the direction parallel to the face cover 2 to adjust the brightness gear, which is beneficial to thinning the electric device and reducing the probability that the operation part 32 is damaged by being touched by mistake.

This is because, if the operation portion 32 is exposed above the face cover 2, the probability that the operation portion 32 will contact with the user and other objects in the external environment is significantly increased, and conversely, if the operation portion 32 is located on one side of the electric device, the probability that the operation portion 32 will contact with the user or other objects is correspondingly decreased, and the case member of the electric device can also protect the operation portion, so that the probability that the operation portion 32 is damaged by being touched by mistake is significantly decreased.

The following respectively exemplifies the structures of components involved in the electric device having a lighting function provided by the embodiment of the present invention and the functions thereof:

for the control module 5, it is configured to receive the action command of the gear adjusting part 3 and convert it into a brightness control gear command, and then transmit the brightness gear control command to the lamp module 4, so that the lamp module 4 presents a specific brightness.

In the embodiment of the present invention, as shown in fig. 2, the control module 5 includes: the electronic toggle switch 51 comprises a toggle lever 510, and the electronic toggle switch 51 comprises an electronic toggle switch 51 and a control circuit board 52, wherein a main body part of the electronic toggle switch 51 is fixed on the top surface of the control circuit board 52 and is electrically conducted with the control circuit board 52. Thus, the shift lever 510 is shifted to turn on or off the shift circuits corresponding to different brightness control shifts on the control circuit board 52, so as to switch the shift circuits, and further realize the adjustment of the brightness control shifts on the control circuit board 52 by the electronic toggle switch 51.

In order to accommodate the above-described design of the electronic toggle switch 51 having the toggle lever 510, as shown in fig. 2, the main body portion 31 of the shift position adjusting member 3 includes: the supporting section 311 and the limiting section 312 are connected, that is, one end of the supporting section 311 is connected with one end of the limiting section 312, the other end of the limiting section 312 is connected with the operating part 32, and the supporting section 311 is provided with a containing hole 313. The bottom wall of the supporting section 311 is sequentially overlapped on the top wall of the electronic toggle switch 51 and the side wall of the fixed bracket 1 along a second direction D2 parallel to the face cover 2, and the accommodating hole 313 accommodates the toggle lever 510, and the accommodating hole 313 is configured to be capable of driving the toggle lever 510 to linearly move along a first direction D1 so as to trigger the electronic toggle switch 51 to different brightness control gears.

In the embodiment of the present invention, the plane on which the surface cover 2 is located is taken as a horizontal plane, and the first direction D1 and the second direction D2 are perpendicular to each other in the same horizontal plane. The length direction of the supporting section 311 is along the second direction D2, such that a portion of the supporting section 311 horizontally overlaps the top wall of the main body portion of the electronic toggle switch 51, and another portion of the supporting section 311 horizontally overlaps the side wall of the fixed frame 1 near the side of the electronic toggle switch 51.

The first dimension of the receiving hole 313 along the first direction D1 is slightly larger than the first dimension of the shift lever 510 along the first direction D1, that is, the receiving hole 313 and the shift lever 510 are in transition fit in the first direction D1, and the two opposite inner side walls of the receiving hole 313 distributed along the first direction D1 abut against the outer side wall of the shift lever 510, so that when the shift position adjusting member 3 moves linearly along the first direction D1, the shift lever 510 is driven to move synchronously along the first direction D1.

For the limiting section 312, one end of the limiting section 312, which is far away from the supporting section 311, is connected to the operating portion 32, the bottom wall of the limiting section 312 is movably connected to the side wall of the fixing frame 1, and the limiting section 312 is configured to prevent the gear adjusting piece 3 from moving along the second direction D2.

The movable connection mode between the bottom wall of the limiting section 312 and the side wall of the fixing frame 1 is a bump-groove fit connection, the movement of the gear adjusting piece 3 along the first direction D1 is realized based on the characteristic that the bump and the groove can move relatively, and the limiting of the gear adjusting piece 3 in the second direction D2 is realized based on the characteristic that the outer side wall of the bump and the inner side wall of the groove stop mutually. Wherein, one of the lug and the groove is arranged on the bottom wall of the limiting section 312, and the other is arranged on the side wall of the fixing frame 1.

Based on the above, by arranging the position-limiting section 312 such that the gear adjuster 3 can only move linearly along the first direction D1 but cannot move along the second direction D2, the effective positioning of the gear adjuster 3 on the fixing bracket 1 is ensured.

As mentioned above, part of the supporting segments 311 are horizontally connected to the side wall of the fixing frame 1, as shown in fig. 3, the fixing frame 1 at least includes a fixing frame body 10, the fixing frame body 10 has a receiving cavity to receive the control module 5, and the receiving cavity of the fixing frame body 10 is surrounded by the side wall thereof. Illustratively, the fastening frame body 10 has a rectangular receiving cavity, and accordingly includes four sidewalls connected end to end in sequence. The side wall of the holder 1 described above is the side wall of the holder body 10 referred to herein.

It is not excluded that the position adjusters 3 may be directly and horizontally attached to the top ends of the corresponding side walls of the holder body 10, however, this may result in a large thickness of the electric device, and the face cover 2 needs to be designed with an additional receiving cavity to receive the protruding position adjusters 3.

In order to solve the above technical problem, in some examples, as shown in fig. 3, a fixing frame 1 according to an embodiment of the present invention includes: the fixing frame comprises a fixing frame body 10 and a containing groove 11, wherein the containing groove 11 is concavely arranged on the side wall of the fixing frame body 10 opposite to the main body part 31, one end of the containing groove 11 is communicated with an inner cavity of the fixing frame body 10, and the other end of the containing groove 11 is communicated with the outside. The main body 31 penetrates through the accommodating groove 11 and is lapped on the bottom wall of the accommodating groove 11; the operation portion 32 is located outside the accommodation groove 11.

Through the processing of hollowing out to the lateral wall of mount body 10 to arrange storage tank 11, make main part 31 of gear adjusting piece 3 cave in on the lateral wall of mount body 10, have following advantage at least: the thickness of the electric device is favorably reduced; the driving lever 510 of the electronic toggle switch 51 can easily penetrate the containing hole 313 of the supporting section 311 without lengthening; the structure of the face cover 2 is simplified so that the main body portion of the face cover 2 is planar, i.e., the main body portion 31 of the face cover 2 can cover the control module 5 and the gear adjusting member 3 at the same time.

In some examples, as shown in fig. 3, the fixing frame 1 further includes a supporting rib 12, wherein the supporting rib 12 is located on the bottom wall of the receiving groove 11, that is, the supporting rib 12 is arranged on the bottom wall of the receiving groove 11 at a position opposite to the supporting section 311; as shown in fig. 4, a part of the bottom wall of the support section 311 overlaps the support rib 12.

The supporting rib 12 may be provided in a plurality, for example, two or more, and the plurality of supporting ribs 12 are sequentially spaced along the second direction D2 to provide more stable support for the supporting section 311.

Illustratively, when the bottom wall of the support section 311 is a plane, the top ends of the plurality of support ribs 12 are kept flat to ensure that a plurality of support points are provided in the same horizontal plane.

In some examples, a first bottom wall portion of the supporting section 311 opposite to the bottom wall of the accommodating groove 11 is designed to be a plane, and a second bottom wall portion of the supporting section 311 opposite to the main body portion of the electronic toggle switch 51 is also designed to be a plane, so as to achieve the purpose of optimizing the supporting effect of the supporting rib 12 on the supporting section 311. The first bottom wall portion and the second bottom wall portion may be on the same horizontal plane, and may be designed adaptively according to the arrangement height of the electronic toggle switch 51 in the fixing frame 1.

As shown in fig. 2, the support ribs 12 may be rectangular and long, the length of each support rib 12 is along the first direction D1, and the length of the support rib 12 is greater than or equal to the moving path of the gear adjusting member 3 during the gear adjusting movement.

Through setting up the brace 12, make the support section 311 of main part 31 stably horizontal overlap joint on mount 1, and do benefit to and reduce the area of contact of support section 311 and mount 1, and then reduce frictional force between the two for the motion process of gear adjusting piece 3 is more smooth and easy.

In some examples, in order to optimize the structure of the support rib 12, the tip of the support rib 12 may be set in a circular arc shape.

In some examples, as shown in fig. 3, the fixing frame 1 further includes: the rail rib 13, the rail rib 13 is located on the bottom wall of the accommodating groove 11, that is, the rail rib 13 is arranged at a position on the bottom wall of the accommodating groove 11 opposite to the limiting section 312. Wherein the support ribs 12 and the rail ribs 13 are sequentially spaced apart along the second direction D2.

Further, the bottom wall of the limiting section 312 has a limiting groove 3120, and the limiting groove 3120 is configured to accommodate the rail rib 13 and make a linear motion along the rail rib 13 in the first direction D1, and limit the rail rib 13 in the second direction D2.

It will be appreciated that the retaining groove 3120 and the track rib 13 referred to herein are a groove and a projection, respectively, in the "projection-groove fit connection" described above.

The limiting groove 3120 and the rail rib 13 are both in the first direction D1, so that the limiting section 312 can move in the first direction D1 along the rail rib 13, i.e., the movement of the gear adjuster 3 in the first direction D1 is allowed. The dimension of the limiting groove 3120 in the second direction D2 is slightly larger than the dimension of the rail rib 13 in the second direction D2, so that the two are in transition fit in the second direction D2, and thus, the side wall of the rail rib 13 and the side wall of the limiting groove 3120 stop against each other to prevent the limiting section 312 from moving in the second direction D2.

The roof of track muscle 13 offsets with the roof of spacing groove 3120, and like this, track muscle 13 still plays the supporting role the same with brace 12, and the height of track muscle 13 makes spacing section 312 and support section 311 all keep the horizontal overlap joint state can. The height direction of the rail rib 13 referred to here is in a direction perpendicular to the face cover 2.

In some examples, the height of the rail rib 13 is made higher than that of the support rib 12, accordingly, the thickness of the limiting section 312 is made larger than that of the support section 311, and the top wall of the limiting section 312 is higher than that of the support section 311. So set up, can make spacing groove 3120's degree of depth design for enough deeply, and then obtain better spacing effect.

In some examples, as shown in fig. 5, the main body portion 31 of the gear position adjusting member 3 further includes a limiting rib 314, and the limiting rib 314 is located on at least one of the first and second opposite side walls of the limiting groove 3120; the limiting rib 314 is used for abutting against the corresponding side wall of the rail rib 13.

The first side wall and the second side wall of the limiting groove 3120 are sequentially distributed along the second direction D2. The length direction of the limiting rib 314 is vertical to the surface cover 2. For example, the limiting rib 314 is disposed on the first side wall and the second side wall of the limiting groove 3120, or the limiting rib 314 is disposed on only one of the first side wall and the second side wall of the limiting groove 3120.

Through arranging spacing muscle 314 to come to offset with track muscle 13, not only can optimize track muscle 13 to spacing effect of spacing section 312, and do benefit to the frictional force that reduces gear adjusting piece 3 when following first direction D1 linear motion, smooth feeling when promoting the motion.

In order to further optimize the above effect, the end portion of the stopper rib 314 facing the rail rib 13 may be designed to be arc-shaped, or the entire stopper rib 314 may be designed to be semi-arc-shaped.

The number of the limiting ribs 314 arranged on the first side wall and/or the second side wall of the limiting groove 3120 may be one, or may be multiple, in some examples, a plurality of limiting ribs 314 are arranged on the first side wall and the second side wall of the limiting groove 3120, and the limiting ribs 314 on the same side wall are sequentially distributed at intervals along the first direction D1.

For example, as shown in fig. 5, the limiting rib 314 includes: two first sub-limiting ribs 3141 and two second sub-limiting ribs 3142; the two first sub-limiting ribs 3141 are distributed on the first side wall of the limiting groove 3120 at intervals along the first direction D1; the two second sub-limiting ribs 3142 are distributed on the second side wall of the limiting groove 3120 at intervals along the first direction D1.

In particular, the first sub-limiting rib 3141 and the second sub-limiting rib 3142 are staggered from each other, that is, projections of one first sub-limiting rib 3141, one second sub-limiting rib 3142, the other first sub-limiting rib 3141, and the other second sub-limiting rib 3142 on the central axis of the limiting groove 3120 are sequentially distributed along the first direction D1, and a projection of any one first sub-limiting rib 3141 and a projection of any one second sub-limiting rib 3142 do not overlap with each other.

Spacing muscle 3141 of first sub-and second sub-spacing muscle 3142 the design of staggering each other for their arrangement presents the elasticity characteristic, when track muscle 13 is when assembling in spacing groove 3120, even lead to the structure to warp a little because of track muscle 13 and/or spacing groove 3120 error of moulding plastics, also can ensure that track muscle 13 assembles to spacing groove 3120 in, both can also keep effectual mating reaction simultaneously all the time, effectively avoid the part to mould plastics the equipment yield that the error leads to and reduce.

Some implementations in which the first sub-limiting rib 3141 and the second sub-limiting rib 3142 are staggered from each other are exemplified below:

for example, as shown in fig. 5, the position-limiting segment 312 includes a first connecting plate 3121, a supporting plate 3122 and a second connecting plate 3123, which are vertically connected in sequence, wherein the gap between the first connecting plate 3121 and the second connecting plate 3123 is the position-limiting groove 3120. An outer side wall of the first connecting plate 3121 facing away from the second connecting plate 3123 is connected with the operating portion 32, and a bottom end of the second connecting plate 3123 is connected with an end of the support section 311.

The size of the first connection plate 3121 in the first direction D1 is greater than the size of the second connection plate 3123 and the support plate 3122 in the first direction D1, and the size of the second connection plate 3123 and the support plate 3122 in the first direction D1 is the same.

Two first sub-restriction ribs 3141 are located at both ends of the inner sidewall (i.e., the first sidewall of the restriction groove 3120) of the first connection plate 3121, which are distributed in the first direction D1, and two second sub-restriction ribs 3142 are located at both ends of the inner sidewall (i.e., the second sidewall of the restriction groove 3120) of the second connection plate 3123, which are distributed in the first direction D1. Thus, the distance between the two first sub-limiting ribs 3141 is certainly larger than the distance between the two second sub-limiting ribs 3142, so that the first sub-limiting ribs 3141 and the second sub-limiting ribs 3142 are staggered.

Since the first connecting plate 3121 is located at the end position of the receiving groove 11 facing the outside and is connected to the operating portion 32, the embodiment of the present invention makes the size of the first connecting plate 3121 in the first direction D1 larger than the size of the second connecting plate 3123 and the supporting plate 3122 in the first direction D1, so that the gap between the first connecting plate 3121 and the receiving groove 11 is relatively small, the contact area with the operating portion 32 is relatively large, and this is favorable for improving the aesthetic appearance and the structural stability when the electric device is stressed.

Further, the bottom wall of the first connecting plate 3121 may abut against the bottom wall at the end of the accommodating groove 11, and the bottom wall of the second connecting plate 3123 may abut against the support rib 12.

In some examples, the width of the limiting rib 314 gradually increases from the bottom end of the limiting rib 314 to the top end of the limiting rib 314; the width direction of the limiting rib 314 is the same as the second direction D2. So set up, not only allow track muscle 13 to assemble to the inside spacing groove 3120 smoothly to, even after the part takes place to mould plastics and warp or gear adjusting 3 takes place unexpected small deviation, still can ensure track muscle 13 and spacing muscle 314 and remain the counterbalance all the time.

While the above description has been made with respect to the fitting relationship between the shift position adjusting member 3 and the fixed frame 1, the following description has been made with respect to the fitting relationship between the shift position adjusting member 3 and the face cover 2:

fig. 6 illustrates a partial structure of the face cover 2, and as shown in fig. 6, the face cover 2 includes: the dough cover comprises a dough cover body 20 and a plurality of first positioning ribs 21, wherein the first positioning ribs 21 are sequentially distributed on the bottom wall of the dough cover body 20 along a second direction D2; as can be seen in fig. 4, the first positioning rib 21 is used to abut against the top wall of the support section 311.

As for the face cover body 20, the face cover body 20 at least plays a role of covering the control module 5, and the face cover body 20 may be structured so as to be used only as a cover plate, or so as to be used as a panel.

The number of the first positioning ribs 21 is plural, and illustratively, there is at least one first positioning rib 21 to abut against a top wall of a side of the supporting section 311 away from the limiting section 312 (the top wall may be located at a side of the accommodating hole 313 away from the limiting section 312), and there is at least one first positioning rib 21 to abut against a top wall of a side of the supporting section 311 close to the limiting section 312 (the top wall may be located at a side of the accommodating hole 313 close to the limiting section 312).

For example, the number of the first positioning ribs 21 abutting against the top wall of the side of the supporting section 311 close to the limiting section 312 may be two, the two first positioning ribs 21 correspond to the two supporting ribs 12 one by one, and each first positioning rib 21 is opposite to the corresponding supporting rib 12.

Through setting up above-mentioned first location muscle 21, can fix a position gear adjusting piece 3, prevent that gear adjusting piece 3 from moving about on the third direction of perpendicular to face lid 2, ensure that gear adjusting piece 3 can only be along first direction D1 rectilinear motion.

In order to make the movement of the shift position adjusting member 3 in the first direction D1 smoother, the bottom end of the first positioning rib 21 facing the support section 311 is configured in a circular arc shape.

In some examples, a first gap is formed between one first positioning rib 21 and a top wall of the side of the supporting section 311 far from the limiting section 312, and a second gap is formed between one or more second positioning ribs 22 and a top wall of the side of the supporting section 311 near the limiting section 312.

The sizes of the first gap and the second gap may satisfy the following condition: the positioning effect of the first positioning rib 21 and the second positioning rib 22 on the supporting section 311 is ensured not to be influenced, and meanwhile, the electronic toggle switch 51 can be adapted to the situations that the floating height is generated in the welding process, the supporting section 311 has small deformation and the like (that is, even if the situations exist, the first positioning rib 21 and the second positioning rib 22 do not influence the movement of the gear adjusting piece 3 along the first direction D1).

In some examples, the gear position adjusting member 3 is a plastic structural member integrally formed, and since the length of the supporting section 311 along the second direction D2 is generally long, the end of the supporting section 311 may have a large injection molding deformation. In order to adapt to the situation that the end of the supporting section 311 has injection deformation, a first positioning rib 21 is arranged to abut against the top wall of the end of the supporting part, and a first gap between the first positioning rib 21 and the top wall of the end of the supporting part is larger than a second gap, so that the purpose of avoiding function failure caused by excessive deformation of the gear adjusting part 3 is achieved.

As mentioned above, the top wall of the limiting section 312 of the main body 31 is protruded above the top wall of the supporting section 311, so that the top wall of the limiting section 312 is abutted against the bottom wall of the corresponding position of the face cover body 20. Or, as shown in fig. 4 and fig. 6, the face cover 2 may further include a second positioning rib 22, the second positioning rib 22 is located on the bottom wall of the face cover body 20 opposite to the limiting section 312, and the second positioning rib 22 is used for abutting against the top wall of the limiting section 312.

Above two kinds of modes all can further improve the face and cover 2 and to the location effect of gear adjusting piece 3 in the third direction. Furthermore, the provision of the second positioning rib 22 also facilitates the smooth movement of the shift position adjusting member 3 in the first direction D1.

In addition, when the shift position adjusting member 3 moves to the shift position limit, there is a minimum clearance between the second positioning rib 22 and the rail rib 13, which is designed to meet the requirement of electric shock resistance, and the minimum clearance may be 0.6mm, for example.

When the electric device provided by the embodiment of the invention is installed on a wall, two side parts of the fixing frame 1 are generally fixed on the wall through fixing screws, so that the fixing frame 1 has certain concave deformation (the central part is sunken), and further the face cover 2 is driven to have corresponding concave deformation.

In order to alleviate the concave deformation problem of the face cover 2, further, as shown in fig. 6, the face cover 2 further includes: two sets of third location muscle 23, two sets of third location muscle 23 are located the diapire that the end relative with track muscle 13 of face lid body 20. Two sets of third location muscle 23 and the both ends that distribute along first direction D1 of track muscle 13 one-to-one, combine fig. 7, every third location muscle 23 of group offsets with the roof of the corresponding tip of track muscle 13.

Two sets of the third positioning ribs 23 are distributed at two ends of the bottom wall of the face cover body 20 along the first direction D1, and each set of the third positioning ribs 23 may include one or more third positioning ribs 23.

Through making the third location muscle 23 that is located face lid 2 one side offset with the roof that is located the track muscle 13 of mount 1 one side, utilize the track muscle 13 on the mount 1 to come the support face lid 2, can reach the mesh of alleviating the concave deformation of face lid 2, avoided the concave deformation of face lid 2 and pushed down gear adjusting piece 3 in order to increase gear adjusting piece 3's movable frictional force.

In the embodiment of the present invention, the face cover body 20 includes a face cover main body portion and a face cover extension portion, wherein the face cover extension portion is connected to a side portion of the face cover main body portion. The third positioning ribs 23 are arranged at opposite ends of the bottom wall of the cover extension, and the part of the cover extension located between the two sets of third positioning ribs 23 is covered over the stopper section 312 of the gear adjuster 3 to allow movement of the gear adjuster 3 in the first direction D1.

As shown in fig. 8, in the first direction D1, the accommodating hole 313 formed in the supporting section 311 is in transition fit with the shift lever 510, so that when the shift position adjusting member 3 moves linearly along the first direction D1, the shift lever 510 can be driven to move synchronously along the first direction D1, so as to achieve no delay in the shift position adjusting movement of the shift position adjusting member 3.

In the embodiment of the present invention, as shown in fig. 8, the dimension of the accommodating hole 313 along the second direction D2 is greater than the dimension of the shift lever 510 along the second direction D2, that is, in the second direction D2, the accommodating hole 313 and the shift lever 510 are in clearance fit, so as to avoid the accommodating hole 313 from retracting along the second direction D2 after the fixing frame 1 is deformed to be concave, thereby preventing the accommodating hole 313 and the shift lever 510 from interfering with each other, and improving the assembly adaptability of the electric device.

In some examples, as shown in fig. 8, two sidewalls of receiving hole 313 extending along first direction D1 each have a rib 315 thereon, and rib 315 is configured to abut against a corresponding sidewall of toggle 510.

The length of the rib 315 is along the second direction D2, and the dimension of the rib 315 along the second direction D2 may be slightly smaller than the dimension of the lever 510 along the second direction D2.

The dimension of the rib 315 in the first direction D1 may be 0.5mm to 3mm, and the rib 315 and the lever 510 may be centrally disposed.

The purpose of driving the shift lever 510 to move is achieved by arranging the rib 315 to abut against the side wall of the shift lever 510, which has at least the following advantages:

the shifting rod 510 is deflected under the conditions that the fixed frame 1 is deformed concavely or the control circuit board 52 of the control module 5 is deflected, so that one side of the accommodating hole 313 risks failure in shifting the shifting rod 510 (i.e., one side wall of the shifting rod 510 cannot abut against the side wall of the shifting rod 510), and the technical problem can be effectively solved by arranging the convex rib 315. The rib 315 is also capable of rapidly transmitting the driving force of the gear adjuster 3 to the shift lever 510, thereby rapidly triggering the shift lever 510.

As for the operating portion 32 of the shift position adjusting member 3, which is exposed to the outside of the fixed frame 1 as shown in fig. 9, the operating portion 32 is configured to be dialed by a hand of a user so that the shift position adjusting member 3 linearly moves in the first direction D1.

The structure of the operation portion 32 may be designed into any shape that can be easily pinched or grasped by the fingers of the user, for example, the operation portion 32 may be cylindrical, prismatic, or the like, and the surface of the operation portion 32 may be a smooth surface or a rough surface having an uneven rough structure.

In some examples, as shown in fig. 9, the electric device having a lighting function further includes: and the fixed block 14, and the fixed block 14 is connected with the outer side wall of the fixed frame 1. The fixing block 14 has a through hole 141, the through hole 141 is used for accommodating the operating portion 32, a plurality of protruding points 142 are provided on the bottom wall of the through hole 141, and the protruding points 142 are located between two adjacent brightness control gears.

That is, the space between any two adjacent bumps 142 corresponds to one brightness control step, and the space between the sidewall at the end of the via 141 and the adjacent bump 142 also corresponds to one brightness control step.

The convex point 142 exists on the moving path of the operating portion 32. For example, the bottom wall of the through hole 141 has two bumps 142 to correspond to three brightness control gears, and when the operating portion 32 rotates from the first gear to the second gear, or moves from the second gear to the third gear, or moves from the third gear to the second gear, or moves from the second gear to the first gear, one bump 142 needs to be crossed.

Since the force value required for the toggling of the electronic toggle switch 51 itself is small, the target gear is easily not adjusted when the adjustment from the first gear to the third gear or more is required. Can increase the damping through increasing bump 142 and feel for the pause between gear and the gear is frustrated and is felt the promotion, feels when reaching promotion multi-gear and stirring, increases the purpose that the gear suggestion was felt.

In some examples, the electric device with lighting function provided by the embodiment of the present invention is an induction lamp electric device, that is, the control module 5 further includes at least one or more induction devices 53, so that the lamp module 4 is controlled by the induction devices 53 to present a specific induction mode, and particularly, when the control module 5 includes a plurality of induction devices 53 with different functions, the lighting mode of the induction lamp electric device provided by the embodiment of the present invention is more diversified.

Sensing devices 53 include, but are not limited to: human sensors (e.g., infrared sensors), light sensors (e.g., photo resistors), acoustic sensors, and the like. It should be noted that, when the sensing device 53 includes an infrared sensor, the sensing device 53 further includes a fresnel lens, and the fresnel lens is covered on the infrared sensor; when the sensing device 53 includes a photo resistor, the sensing device 53 further includes a light transmissive cover disposed over the photo resistor and hermetically penetrating the fresnel lens.

Fig. 10 illustrates an electrical device integrating an induction lamp and a socket, as shown in fig. 10, the control module 5 further includes a control circuit board 52, at least two different induction devices 53, and a mode adjustment device 54; the control circuit board 52 is connected to the lamp module 4 through a first connecting wire 55; at least two different sensing devices 53 and a mode adjustment member 54 are connected to the control circuit board 52, respectively; the mode adjustment member 54 is configured to electrically connect one of the sensing devices 53 to the control circuit board 52 to adjust the sensing mode of the lamp module 4 to the target sensing mode. The control circuit board 52 is fixed inside the fixing frame body 10, and the plurality of sensing devices 53 and the pattern adjusting member 54 are respectively fixed at different positions on the top surface of the control circuit board 52.

As shown in fig. 10, the sensing device 53 includes an infrared sensor and a photo resistor to respectively correspond to the human sensing mode and the photo sensing mode, and the light module 4 is adjusted to be in the human sensing mode or the photo sensing mode by the mode adjusting member 54.

Fig. 11 illustrates a case where the cover 2 is provided on the electric device based on fig. 10, and as shown in fig. 11, the cover 2 is provided with holes for exposing the sensing device 53 and the mode adjustor 54 to ensure smooth operation of the sensing lamp.

In some examples, adjusting the induction mode of the induction lamp electronics is accomplished by pressing or pushing the mode adjuster 54 in a vertical direction or in a horizontal direction.

In some examples, the electric device with a lighting function provided by the embodiment of the invention is an induction lamp socket, which is also called a ground lamp socket, namely, the induction lamp and the socket are integrated into a whole. The induction lamp socket provided by the embodiment of the invention can integrate the induction lamp module on the socket, namely, the structures of the fixed frame 1, the face cover 2 and the like can be adaptively improved on the basis of the fixed frame 1 and the face cover 2 of the socket.

As shown in fig. 10, the induction lamp socket further includes: the plug bush module 61 is fixed inside the fixed frame 1 through the pressing plate 62, and the plug bush module 61 is connected with the control circuit board 52 through a second connecting lead.

The face cover 2 is covered on the pressing plate 62 and the control circuit board 52, and the face cover 2 is provided with a jack corresponding to the plug bush module 61.

For the above-mentioned induction lamp socket, in some examples, as shown in fig. 10, the shift position adjusting member 3, the control circuit board 52, the pressing plate 62, and the lamp module 4 are sequentially distributed along the second direction D2 parallel to the face cover 2, wherein the second direction D2 is perpendicular to the first direction D1. With the arrangement, the space on the fixing frame 1 can be fully utilized, so that the induction lamp socket is more compact in structure.

In addition, in this manner, since the pressing plate 62 is interposed between the control wiring board 52 and the lamp module 4, so that the length of the first connecting wires 55 is long, in order to make the arrangement of the first connecting wires 55 more tidy, a wire groove 63 (see fig. 10) may be provided on the top of the pressing plate 62, the wire groove 63 being used to accommodate the first connecting wires 55.

Illustratively, the wire groove 63 may be designed to be a clip shape or an elastic claw shape, etc., and the first connecting wire 55 is limited by the wire groove 63, so as to prevent the wires from being disordered. And the second connecting wire is located below the pressing plate 62.

When the electric device provided by the embodiment of the present invention is an induction lamp socket, in consideration of aesthetic problems, the induction lamp socket further includes a panel 7, fig. 12 illustrates a structure of the induction lamp socket having the panel 7, as shown in fig. 12, the panel 7 is connected to the top of the fixing frame 1, and the panel 7 is covered on the fixing frame 1, and the panel 7 has a hole for exposing the induction device 53.

To lamp module 4, lamp module 4 is located the opposite side wall top of mount body 10, and lamp module 4 includes light guide plate and LED lamp, and this lateral wall top of mount body 10 has first mounting structure and second mounting structure, and first mounting structure is located the outside, and the second mounting structure is located the inboard, and the light guide plate assembles in first mounting structure department, and the LED lamp assembles in second mounting structure department, and luminous portion of LED lamp stretches into to light guide plate department.

The panel 7 covers not only the top of the fixing frame 1, but also the exposed part of the top of the LED lamp, and the top walls of the panel 7 and the light guide plate are flat, so that the induction lamp socket presents a complete and flat surface wall.

The above description is only for facilitating the understanding of the technical solutions of the present invention by those skilled in the art, and is not intended to limit the present invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (18)

1. An electric device having a lighting function, characterized by comprising: the device comprises a fixed frame (1), a face cover (2), a gear adjusting piece (3), a lamp module (4) and a control module (5);

the gear adjuster (3) comprises: the lamp module and the lamp module are respectively connected with the control module (5), the main body part (31), the lamp module (4) and the control module (5) are respectively located at different positions on the fixing frame (1), and the operating part (32) is exposed outside the fixing frame (1);

the face cover (2) is connected with the top of the fixing frame (1), and the face cover (2) is arranged above the main body part (31) and the control module (5) in a covering mode;

the gear adjusting piece (3) can move linearly along a first direction (D1) parallel to the face cover (2) to trigger the control module (5) to different brightness control gears, and the control module (5) adjusts the brightness of the lamp module (4) according to the current brightness control gear.

2. Electric device with lighting function according to claim 1, characterized in that the control module (5) comprises: an electronic toggle switch (51), said electronic toggle switch (51) having a toggle lever (510);

the main body part (31) comprises a support section (311) and a limit section (312) which are connected, and the support section (311) is provided with a containing hole (313);

the bottom wall of the supporting section (311) is sequentially lapped on the top wall of the electronic toggle switch (51) and the side wall of the fixed frame (1) along a second direction (D2) parallel to the face cover (2), the accommodating hole (313) accommodates the shifting lever (510), and the accommodating hole (313) is configured to be capable of driving the shifting lever (510) to linearly move along the first direction (D1) so as to trigger the electronic toggle switch (51) to different brightness control gears;

one end of the limiting section (312), which is far away from the supporting section (311), is connected with the operating part (32), the bottom wall of the limiting section (312) is movably connected with the side wall of the fixed frame (1), and the limiting section (312) is configured to prevent the gear adjusting piece (3) from moving along the second direction (D2);

wherein the second direction (D2) is perpendicular to the first direction (D1).

3. An electric device with a lighting function according to claim 2, characterized in that the holder (1) comprises: a fixed frame body (10) and a containing groove (11);

the accommodating groove (11) is concavely arranged on the side wall of the fixing frame body (10) opposite to the main body part (31), one end of the accommodating groove (11) is communicated with the inner cavity of the fixing frame body (10), and the other end of the accommodating groove is communicated with the outside;

the main body part (31) penetrates through the accommodating groove (11) and is lapped on the bottom wall of the accommodating groove (11);

the operating part (32) is positioned outside the accommodating groove (11).

4. An electric device with a lighting function according to claim 3, characterized in that the holder (1) further comprises: the supporting ribs (12), wherein the supporting ribs (12) are positioned on the bottom wall of the accommodating groove (11);

part of the bottom wall of the support section (311) is lapped on the support rib (12).

5. An electric device with a lighting function according to claim 3, characterized in that the holder (1) further comprises: the rail ribs (13), the rail ribs (13) are positioned on the bottom wall of the accommodating groove (11);

the bottom wall of the limiting section (312) is provided with a limiting groove (3120), the limiting groove (3120) is configured to accommodate the track rib (13) and make a linear motion along the track rib (13) in the first direction (D1), and limit the track rib (13) in the second direction (D2).

6. The electric device with a lighting function according to claim 5, wherein the main body portion (31) further comprises a stopper rib (314), the stopper rib (314) being located on at least one of the first and second opposing side walls of the stopper groove (3120);

the limiting ribs (314) are used for abutting against the corresponding side walls of the track ribs (13).

7. The electric device with a lighting function according to claim 6, wherein the stopper rib (314) comprises: two first sub-limiting ribs (3141) and two second sub-limiting ribs (3142);

the two first sub-limiting ribs (3141) are distributed on the first side wall of the limiting groove (3120) at intervals along the first direction (D1);

the two second sub-limiting ribs (3142) are distributed on the second side wall of the limiting groove (3120) at intervals along the first direction (D1);

the first sub-limiting rib (3141) and the second sub-limiting rib (3142) are staggered with each other.

8. The electric device with a lighting function according to claim 6, wherein the width of the stopper rib (314) is gradually increased from the bottom end of the stopper rib (314) to the top end of the stopper rib (314);

wherein the width direction of the limiting rib (314) is the same as the second direction (D2).

9. An electric device having a lighting function according to any one of claims 2 to 8, characterized in that the face cover (2) comprises: the mask comprises a mask body (20) and a plurality of first positioning ribs (21), wherein the first positioning ribs (21) are sequentially distributed on the bottom wall of the mask body (20) along the second direction (D2);

the first positioning rib (21) is used for abutting against the top wall of the support section (311).

10. The electric device with a lighting function according to claim 9, wherein the face cover (2) further comprises a second positioning rib (22), the second positioning rib (22) being located on a bottom wall of the face cover body (20);

the second positioning rib (22) is used for abutting against the top wall of the limiting section (312).

11. The electric device with the lighting function according to claim 9, wherein the holder (1) comprises a holder body (10), a receiving groove (11), and a rail rib (13), wherein the rail rib (13) is located on a bottom wall of the receiving groove (11);

the face cover (2) further comprises: two sets of third positioning ribs (23), wherein the two sets of third positioning ribs (23) are oppositely positioned on the bottom wall of the face cover body (20);

the two groups of third positioning ribs (23) correspond to two ends of the track rib (13) distributed along the first direction (D1) one by one, and each group of third positioning ribs (23) is abutted to the top wall of the corresponding end part of the track rib (13).

12. An electric device having a lighting function according to any one of claims 2 to 11, characterized in that a dimension of said receiving hole (313) in said second direction (D2) is larger than a dimension of said stem (510) in said second direction (D2).

13. An electric device with a lighting function according to any one of claims 2 to 11, wherein two side walls of the receiving hole (313) distributed along the first direction (D1) are respectively provided with a rib (315), and the ribs (315) are used for abutting against corresponding side walls of the deflector rod (510).

14. An electric device having a lighting function according to any one of claims 1 to 13, characterized in that the electric device having a lighting function further comprises: the fixing block (14), the said fixing block (14) is connected with outside wall of the said fixed mount (1);

the fixed block (14) is provided with a through hole (141), and the through hole (141) is used for accommodating the operating part (32);

the bottom wall of the via hole (141) is provided with a plurality of salient points (142), and the salient points (142) are positioned between two adjacent brightness control gears.

15. An electric device with a lighting function according to any one of claims 1 to 14, characterized in that the control module (5) further comprises: a control circuit board (52), at least two different sensing devices (53), a mode adjustment member (54);

the control circuit board (52) is connected with the lamp module (4) through a first connecting lead (55);

the at least two different sensing devices (53) and the mode adjusting member (54) are respectively connected with the control circuit board (52);

the mode adjusting part (54) is configured to enable one of the sensing devices (53) to be electrically conducted with the control circuit board (52) so as to adjust the sensing mode of the lamp module (4) to a target sensing mode.

16. An electric device having a lighting function according to claim 15, characterized in that the electric device having a lighting function further comprises: the plug bush module (61) and the pressing plate (62), the plug bush module (61) passes through the pressing plate (62) is fixed in the fixing frame (1), and the plug bush module (61) is connected with the control circuit board (52) through a second connecting wire.

17. Electric device with lighting function according to claim 16, characterized in that the gear position adjustment member (3), the control module (5), the pressure plate (62), the lamp module (4) are distributed in sequence along a second direction (D2) parallel to the face cover (2), wherein the second direction (D2) is perpendicular to the first direction (D1);

the top of the pressure plate (62) is provided with a wire groove (63), and the wire groove (63) is used for accommodating the first connecting wire (55).

18. An electric device with a lighting function according to claim 16, characterized in that the electric device with a lighting function further comprises a panel (7), the panel (7) is connected with the top of the fixing frame (1), and the panel (7) is covered on the fixing frame (1).

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