CN216591371U - Ceiling lamp - Google Patents

Abstract

The utility model relates to the technical field of lighting devices, in particular to a ceiling lamp, which comprises a mounting plate, a luminous piece and an adjusting component; the light-emitting piece is arranged on the mounting disc, the circumferential positions of the light-emitting piece and the mounting disc are fixed, the adjusting assembly penetrates through the mounting disc and the light-emitting piece, and at least the part of the adjusting assembly, which is matched with the mounting disc, can rotate; the position that the adjusting part lateral wall corresponds the illuminating part is equipped with the action piece, and the illuminating part is equipped with the response piece, and when at least partial adjusting part rotation, the regulation and control to the illuminating part is realized with the response piece cooperation to the action piece. The adjusting assembly is at least provided with a circular section with the mounting disc and the part matched with the luminous element in the outer side wall, so that the adjusting assembly can rotate with the mounting disc matched part at least, when at least part of the adjusting assembly rotates, the action element can be matched with the response element to regulate and control the lighting parameters of the luminous element, the lamp body does not need to be disassembled, the operation is simple and convenient, the service life of the lamp is prolonged beneficially, and the lamp has great popularization value and wide application prospect.

Description

Ceiling lamp

[ technical field ] A method for producing a semiconductor device

The utility model relates to a lighting device technical field, in particular to ceiling lamp.

[ background of the invention ]

The ceiling lamp is a lamp attached to or embedded into a ceiling of a roof, is also an indoor main lighting device like the ceiling lamp, and is a lamp frequently selected in various places such as families, offices, entertainment places and the like.

When the conventional ceiling lamp is used for adjusting lighting parameters such as light intensity or color temperature, parts such as a lampshade and the like need to be disassembled until the internal adjusting button is exposed, the parts need to be installed back one by one after adjustment, the operation is complex, and the lamp is easy to damage.

[ Utility model ] content

Need disassemble the lamp body for solving conventional ceiling lamp when adjusting lighting parameter and lead to the problem that the operation is complicated, lamps and lanterns are fragile, the embodiment of the utility model provides a ceiling lamp.

In order to solve the technical problem, an embodiment of the present invention provides a ceiling lamp, which includes an installation plate, a light emitting member and an adjusting assembly; the light-emitting piece is arranged on the mounting disc, the circumferential positions of the light-emitting piece and the mounting disc are fixed, the adjusting assembly penetrates through the mounting disc and the light-emitting piece, and at least the part of the adjusting assembly, which is matched with the mounting disc, can rotate; the adjusting part lateral wall corresponds the position of illuminating part is equipped with the action piece, the illuminating part is equipped with the response piece, at least part during the adjusting part rotation, the action piece with the regulation and control to the illuminating part is realized in the response piece cooperation.

Further, the adjusting assembly comprises a sleeve and a mandrel arranged in the sleeve in a penetrating mode; the sleeve is provided with a pipe cavity with a circular cross section and is in rotary connection with the mandrel; one end of the mandrel, which is far away from the luminous piece, penetrates out of the sleeve and is connected with the simulated mounting surface of the ceiling lamp, and one end of the mandrel, which is far away from the mounting disc, penetrates out of the sleeve and limits the axial position of the sleeve.

Furthermore, the action part is a dial wheel and is arranged at the position of the outer side wall of the sleeve corresponding to the light-emitting part, and the response part is an adjusting button matched with the dial wheel; when the sleeve rotates, the dial wheel dials the adjusting button to realize the regulation and control of the light-emitting piece.

Furthermore, one side of the thumb wheel, which faces the light-emitting piece, is provided with a limiting tooth, the position of the mounting disc, which corresponds to the limiting tooth, is provided with a first limiting groove, and the position of the light-emitting piece, which corresponds to the limiting tooth, is provided with a second limiting groove; the limiting teeth at least extend into the second limiting grooves along the axial direction of the sleeve, and the width of the first limiting grooves and the width of the second limiting grooves along the circumferential direction of the sleeve are larger than the width of the limiting teeth along the circumferential direction of the sleeve; in the circumferential position changing process of the mounting disc and the sleeve, the limiting teeth are positioned in the second limiting groove or are partially positioned in the second limiting groove, and the part of the limiting teeth is positioned in the first limiting groove.

Furthermore, the outer side wall of one end, penetrating out of the mounting disc, of the sleeve is provided with at least one clamping block extending along the radial direction of the sleeve, and the clamping block and the thumb wheel clamp the mounting disc and the light-emitting piece so as to limit the position of the mounting disc in the axial direction of the sleeve.

Furthermore, a first adaptive clamping hole is formed in the position, corresponding to the clamping block, of the mounting disc, and a second adaptive clamping hole is formed in the position, corresponding to the clamping block, of the light-emitting element; the first clamping hole and the second clamping hole correspond to different circumferential positions of the sleeve so as to limit the axial positions of the sleeve and the mounting disc; the first clamping hole and the second clamping hole can be adjusted to be aligned, so that the clamping block can penetrate through the ceiling lamp when the ceiling lamp is assembled or disassembled.

Furthermore, the mounting disc corresponds the border position of illuminating part is equipped with the screens piece, the illuminating part corresponds the position of screens piece is equipped with the locating piece, the locating piece with when the screens piece butt first spacing groove with the second spacing groove aligns.

Furthermore, the mandrel penetrates out of one end, close to the port of the mounting disc, of the sleeve, a fixing plate is arranged, and the fixing plate is connected with the simulated mounting surface of the ceiling lamp.

Furthermore, the ceiling lamp also comprises a lampshade, the lampshade is buckled on the mounting disc, and the light-emitting piece is clamped between the mounting disc and the lampshade; the sleeve pipe runs through the mounting disc luminous component with the lamp shade, the sleeve pipe is worn out the one end of lamp shade is equipped with the locking subassembly, the locking subassembly include with the continuous locking piece of sleeve pipe lateral wall meshing, the locking piece orientation one side of lamp shade with the lamp shade counterbalance is leaned on.

Furthermore, the locking assembly further comprises a cover shell sleeved on the outer side wall of the sleeve, and the cover shell is provided with an outer edge extending to the lampshade so as to shield the locking piece; an end cover is arranged at one end, penetrating out of the sleeve, of the core shaft, close to the port of the lampshade, so that the housing abuts against the lampshade.

Compared with the prior art, the embodiment of the utility model provides a pair of ceiling lamp has following advantage:

1. the embodiment of the utility model provides a ceiling lamp, including mounting disc, illuminating part and adjusting part; the light-emitting piece is arranged on the mounting disc, the circumferential positions of the light-emitting piece and the mounting disc are fixed, the adjusting assembly penetrates through the mounting disc and the light-emitting piece, and at least the part of the adjusting assembly, which is matched with the mounting disc, can rotate; the position that the adjusting part lateral wall corresponds the illuminating part is equipped with the action piece, and the illuminating part is equipped with the response piece, and when at least partial adjusting part rotation, the regulation and control to the illuminating part is realized with the response piece cooperation to the action piece. At least with the mounting disc in the regulating assembly lateral wall, the part of illuminating part adaptation is the circular cross section, and regulating assembly runs through mounting disc and illuminating part, but consequently regulating assembly at least with the partial rotation of mounting disc complex, but be equipped with action piece and response piece on regulating assembly lateral wall and the illuminating part respectively in addition, and the illuminating part is fixed with mounting disc circumferential position again, so when at least partial regulating assembly rotation, the action piece just can realize the regulation and control to illuminating part lighting parameter with the cooperation of response piece, need not to disassemble the lamp body, and easy operation is convenient, still be favorable to prolonging lamp life.

2. The embodiment of the utility model provides a ceiling lamp, adjusting component include the sleeve pipe and wear to locate the dabber in the sleeve pipe; the sleeve is provided with a pipe cavity with a circular section and is in rotary connection with the mandrel; one end of the mandrel, which is far away from the luminous piece, penetrates out of the sleeve and is connected with the simulated mounting surface of the ceiling lamp, and one end of the mandrel, which is far away from the mounting plate, penetrates out of the sleeve and limits the axial position of the sleeve. The end of the mandrel, which penetrates out of the port of the sleeve close to the mounting disc, is connected with the mounting surface of the ceiling lamp, and the sleeve is rotatably connected with the mandrel, so that the sleeve can be indirectly rotated by directly screwing the sleeve or rotating other structures attached to the outside of the sleeve, and the lighting parameters of the light-emitting piece can be adjusted.

3. In the ceiling lamp provided by the embodiment of the utility model, the action part is the dial wheel and is arranged at the position of the outer side wall of the sleeve corresponding to the luminous part, and the response part is the adjusting button matched with the dial wheel; when the sleeve rotates, the dial wheel dials the adjusting button to realize the regulation and control of the luminous element. The sleeve is provided with a dial wheel for acting the self-rotation action of the sleeve on an adjusting button arranged on the luminous element, and the adjusting button is adapted to the dial wheel to receive response so as to realize the regulation and control of the lighting parameters such as the light intensity, the color temperature and the like of the luminous element; that is, when the illumination parameters need to be adjusted, the adjusting component is screwed, and the dial wheel dials the adjusting button, so that the adjustment and control can be realized.

4. In the ceiling lamp provided by the embodiment of the utility model, the shifting wheel is provided with a limit tooth towards one side of the luminous element, the position of the mounting plate corresponding to the limit tooth is provided with a first limit groove, and the position of the luminous element corresponding to the limit tooth is provided with a second limit groove; the limiting teeth at least extend into the second limiting grooves along the axial direction of the sleeve, and the width of the first limiting grooves and the width of the second limiting grooves along the circumferential direction of the sleeve are larger than the width of the limiting teeth along the circumferential direction of the sleeve; in the circumferential position changing process of the mounting disc and the sleeve, the limiting teeth are positioned in the second limiting groove or part of the limiting teeth is positioned in the second limiting groove and part of the limiting teeth is positioned in the first limiting groove. Set up spacing tooth towards one side of illuminating part at the thumb wheel, spacing tooth stretches into in the second spacing groove of illuminating part or the part stretches into the first spacing groove that stretches into the second spacing inslot part of illuminating part and is located the mounting disc, again because the width of first spacing groove and second spacing groove is greater than the width of spacing tooth to make and to carry out circumferential movement in the certain limit between sleeve pipe and the mounting disc, realize the regulation and control to illuminating part lighting parameter.

5. The embodiment of the utility model provides a ceiling lamp, the lateral wall that the mounting disc one end was worn out to the sleeve pipe is equipped with at least one along the radial fixture block that extends of sleeve pipe, fixture block and thumb wheel centre gripping mounting disc and illuminating part, in order to inject the position of mounting disc in the sleeve pipe axial, the fixture block is located one side that the illuminating part was kept away from to the mounting disc, the thumb wheel is located one side that the mounting disc was kept away from to the illuminating part, distance between the two adjacent face of fixture block and thumb wheel matches with the distance between the two face that deviates from of mounting disc and illuminating part, thereby the position of mounting disc and illuminating part on the sleeve pipe has been injectd.

6. The embodiment of the utility model provides a ceiling lamp, the position that the mounting disc corresponds the fixture block is equipped with the first card hole of adaptation, the position that the luminescent part corresponds the fixture block is equipped with the second card hole of adaptation; the first clamping hole and the second clamping hole correspond to different circumferential positions of the sleeve so as to limit the axial positions of the sleeve and the mounting disc; the first clamping hole and the second clamping hole can be adjusted to be aligned, so that the clamping block can penetrate through the ceiling lamp when the ceiling lamp is assembled or disassembled. The fixture block and the dial wheel clamp the mounting disc and the luminous element, but the fixture block needs to penetrate through the mounting disc and the luminous element, so that a first clamping hole and a second clamping hole are respectively formed in the mounting disc and the luminous element, and when the lamp needs to be disassembled or assembled, the mounting disc and the luminous element rotate relatively to align the first clamping hole and the second clamping hole for the fixture block to penetrate through; after the clamping block passes through, the mounting disc and the luminous element rotate relatively until the first clamping hole and the second clamping hole are staggered, namely the first clamping hole and the second clamping hole correspond to different circumferential positions of the sleeve, so that the clamping block cannot pass through the mounting disc and the luminous element, the axial relative position of the sleeve and the mounting disc is limited, and the ceiling lamp is in a working state.

7. The embodiment of the utility model provides a ceiling lamp, the border position that the mounting disc corresponds the illuminating part is equipped with the screens piece, and the position that the illuminating part corresponds the screens piece is equipped with the locating piece, and first spacing groove aligns with the second spacing groove when locating piece and screens piece butt. The screens piece is used for realizing being connected of illuminating part and mounting disc, especially is used for the circumferential direction location of illuminating part and mounting disc, when corresponding screens piece butt on locating piece on the illuminating part and the mounting disc, first spacing groove and second spacing groove align, so that spacing tooth stretches into the second spacing groove or the part stretches into the second spacing groove part and stretches into first spacing groove, meanwhile, the position in first calorie of hole and second calorie of hole is mutually wrong, with the axial position of injecing sleeve pipe and mounting disc.

8. The embodiment of the utility model provides a ceiling lamp, the one end that the sleeve pipe was worn out to the dabber is close to the port of mounting disc is equipped with the fixed plate, and the fixed plate is continuous with ceiling lamp simulation installation face. Because the adjusting component connects the mounting disc, the luminous piece and the like in series, one end of the central spindle of the adjusting component is provided with the fixing plate, and then the fixing plate is connected with the simulated mounting surface of the ceiling lamp, so that the whole lamp can be connected with the simulated mounting surface.

9. The embodiment of the utility model provides a ceiling lamp, ceiling lamp still include the lamp shade, the lamp shade lock is on the mounting disc, with the luminous component clamp between mounting disc and lamp shade; the adjusting part runs through mounting disc, illuminating part and lamp shade, and the one end that the lamp shade was worn out to sleeve pipe and dabber is equipped with the locking subassembly, and the locking subassembly includes the locking piece that links to each other with the meshing of sleeve pipe lateral wall, and the one side of locking piece orientation lamp shade offsets with the lamp shade and leans on. The lamp shade is arranged on the mounting disc in a buckled mode, the lamp shade can play a role in protecting a light-emitting piece, an action piece, a response piece and the like, the one end of the lamp shade, which is penetrated out through the sleeve, is provided with the locking assembly for limiting the position of the lamp shade on the sleeve, and the locking assembly is meshed with the outer side wall of the sleeve and is connected with the outer side wall of the sleeve and abutted against the lamp shade, so that the lamp shade is tightly buckled on the mounting disc.

10. In the ceiling lamp provided by the embodiment of the utility model, the locking component also comprises a housing sleeved on the outer side wall of the sleeve, and the housing is provided with an outer edge extending to the lampshade so as to shield the locking part; an end cover is arranged at one end of the mandrel, which penetrates out of the end opening of the sleeve close to the lampshade, so that the housing is abutted against the lampshade. The housing can shelter from the parcel with the piece of locking, and is more durable pleasing to the eye, sets up the end cover and then can inject the axial position of sleeve pipe and dabber to inject this whole position at the spindle of mounting disc, luminous piece, lamp shade and sleeve pipe, and then make the mounting disc hug closely on the installation face of wanting of ceiling lamp.

[ description of the drawings ]

Fig. 1 is a schematic perspective view of a ceiling lamp provided by the present invention;

fig. 2 is a schematic view of a sectional structure of the ceiling lamp provided by the present invention;

fig. 3 is an explosion structure diagram of the ceiling lamp provided by the present invention;

fig. 4 is a schematic perspective view of the ceiling lamp according to the present invention when the lamp cover is hidden;

fig. 5 is a schematic perspective view of the sleeve, the mandrel and the locking assembly of the ceiling lamp according to the present invention;

fig. 6 is an enlarged view of fig. 5 according to the present invention;

fig. 7 is a schematic view of the position relationship between the mounting plate and the illuminating member of the ceiling lamp and the thumb wheel and the clamping block provided by the present invention;

fig. 8 is an enlarged view of fig. 4B according to the present invention;

fig. 9 is a schematic view of the shape structure of the thumb wheel, the fixture block, the positioning block and the tube cavity of the ceiling lamp provided by the present invention;

FIG. 10 is a schematic view of the fitting relationship between the mounting plate and the illuminating member of the ceiling lamp according to the present invention;

fig. 11 is an enlarged view of fig. 4C according to the present invention;

fig. 12 is a schematic view of the position relationship and the movement direction of the mounting plate and the illuminating member of the ceiling lamp during the process of assembling and disassembling the ceiling lamp;

fig. 13 is a schematic view of the position relationship and the positioning condition of the mounting plate and the illuminating member of the ceiling lamp when the ceiling lamp is combined into a whole.

The attached drawings indicate the following:

1. a ceiling lamp;

10. an adjustment assembly; 11. mounting a disc; 12. a light emitting member; 13. a lamp shade; 14. a sleeve; 15. a mandrel; 16. a locking assembly;

111. a tray body; 112. a positioning assembly; 113. a first card hole; 114. a first limit groove; 115. a first via hole; 116. arc edge; 120. a response piece; 121. a substrate; 122. a second chucking hole; 123. a second limit groove; 124. an adjusting knob; 125. a second via hole; 126. a lamp bead; 127. positioning a block; 128. a notch; 131. a cover body; 132. a through hole; 140. an action member; 141. a clamping block; 142. limiting teeth; 143. a thumb wheel; 1431. opening the gap; 144. a lumen; 151. a core bar; 152. a fixing plate; 161. a position locking member; 162. a housing; 163. an end cap;

1121. a clamping part; 1122. positioning holes; 1611. a convex edge; 1612. and (4) a groove.

[ detailed description ] embodiments

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and the embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only.

In the present invention, the terms "upper", "lower", "left", "right", "front", "rear", "top", "bottom", "inner", "outer", "middle", "vertical", "horizontal", "lateral", "longitudinal", and the like indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings. These terms are used primarily to better describe the invention and its embodiments, and are not intended to limit the indicated devices, elements or components to a particular orientation or to be constructed and operated in a particular orientation.

Moreover, some of the above terms may be used to indicate other meanings besides the orientation or positional relationship, for example, the term "on" may also be used to indicate some kind of attachment or connection relationship in some cases. The specific meaning of these terms in the present invention can be understood by those of ordinary skill in the art as appropriate.

Furthermore, the terms "mounted," "disposed," "provided," "connected," and "connected" are to be construed broadly. For example, it may be a fixed connection, a removable connection, or a unitary construction; can be a mechanical connection, or an electrical connection; may be directly connected, or indirectly connected through intervening media, or may be in internal communication between two devices, elements or components. The specific meaning of the above terms in the present invention can be understood according to specific situations by those of ordinary skill in the art.

Referring to the attached drawings 1-3 in the specification, the embodiment of the invention provides a ceiling lamp 1, which comprises a mounting plate 11, a luminous piece 12 and an adjusting assembly 10; the luminous piece 12 is arranged on the mounting disc 11, the circumferential position of the luminous piece 12 and the mounting disc 11 is fixed, the adjusting component 10 penetrates through the mounting disc 11 and the luminous piece 12, the mounting disc 11 is fixed in the axial position of the adjusting component 10, and the adjusting component 10 can rotate relative to the mounting disc 11; the outer side wall of the adjusting component 10 is provided with an acting part 140 at a position corresponding to the luminescent part 12, the luminescent part 12 is provided with a response part 120, and when the adjusting component 10 rotates relative to the mounting plate 11, the acting part 140 is matched with the response part 120 to realize the regulation and control of the luminescent part 12.

It can be understood that at least the portion of the outer side wall of the adjusting component 1010 adapted to the mounting plate 11 and the illuminating part 12 is a circular cross section, and the adjusting component 1010 penetrates through the mounting plate 11 and the illuminating part 12, so that the portion of the adjusting component 1010 at least matched to the mounting plate 11 can rotate, in addition, the outer side wall of the adjusting component 1010 and the illuminating part 12 are respectively provided with the action part 140 and the response part 120, and the circumferential position of the illuminating part 12 is fixed with the mounting plate 11, so that when at least part of the adjusting component 1010 rotates, the action part 140 can be matched with the response part 120 to regulate and control the illuminating parameters of the illuminating part 12, the lamp body does not need to be disassembled, the operation is simple and convenient, and the service life of the lamp is prolonged.

Specifically, the light emitting element 12 includes a substrate 121, one or more beads 126 are centrally or eccentrically disposed on the substrate 121, and the beads 126 may be one or a combination of several kinds of small light emitting units such as incandescent lamps, fluorescent lamps, gas discharge lamps, halogen tungsten lamps, and LED lamps.

Preferably, the mounting plate 11 includes a plate body 111 and an arc edge 116 located at the edge of the plate body 111, the plate body 111 and the arc edge 116 form a bowl-shaped structure which is fastened to the mounting surface to be mounted, so that an operation space is formed at one side of the plate body 111 far away from the light-emitting member 12, the space can be used for accommodating a connecting member for connecting the core shaft 15 to the mounting surface to be mounted, and can also be used for accommodating a power supply line and the like, in addition, the heat dissipation of the lamp panel is facilitated, and the service life of the light-emitting member 12 is prolonged. In order to increase the usability and the aesthetic property, the arc edge 116 may be further provided with a hollow structure, a texture decoration, a coating decoration, and the like.

Further, the adjusting assembly 10 includes a sleeve 14 and a mandrel 15 disposed through the sleeve 14; the sleeve 14 has a lumen 144 of circular cross-section, in rotational connection with the mandrel 15; the end of the spindle 15 remote from the luminous element 12 extends through the sleeve 14 and is connected to the intended mounting surface of the ceiling lamp 1, and the end of the spindle 15 remote from the mounting plate 11 extends through the sleeve 14 and defines the axial position of the sleeve 14. The end of the mandrel 15, which penetrates out of the end of the sleeve 14 close to the port of the mounting plate 11, is connected with the mounting surface of the ceiling lamp 1, and the sleeve 14 is rotatably connected with the mandrel 15, so that the sleeve 14 can be directly rotated or other structures additionally arranged outside the sleeve 14 are indirectly rotated, and the illumination parameters of the luminous element 12 can be adjusted.

Specifically, when the lumen 144 of the sleeve 14 has a circular cross section and the core rod 151 of the core shaft 15 inserted into the lumen 144 has an adaptive cross section, the sleeve 14 can rotate around the core shaft 15, and since the core shaft 15 is fixedly connected with the intended mounting surface, the sleeve 14 is indirectly rotated by directly rotating the sleeve 14 or rotating other structures externally attached to the sleeve 14, and the action member 140 acts on the response member 120, so that the adjustment of the illumination parameters of the light emitting member 12 can be realized.

It should be noted that, at this time, although the whole body formed by the mounting plate 11 and the luminous element 12 can also relatively rotate with respect to the sleeve 14 or the core shaft 15, since the whole body formed by the mounting plate 11 and the luminous element 12 has a large mass and requires a large torque for driving rotation, and the torque required for rotating the sleeve 14 itself is small, in the process of adjusting the illumination parameters of the luminous element 12, the whole body formed by the mounting plate 11 and the luminous element 12 does not rotate with the sleeve 14.

It should be noted that one end of the spindle 15 is connected to a virtual installation surface, and the virtual installation surface may be not only a ceiling, but also a beam column in a factory, and of course, may also be an inclined or vertical wall or other position where the spindle 15 can be installed, and is only usually installed at the ceiling, but is not meant to be installed only here. In addition, the illumination parameters of the illuminating element 12 are usually light intensity and color temperature, but may be other adjustable parameters such as light emitting color and light wave wavelength, and may even be used to switch the light emitting mode of the illuminating element 12, such as a flashing mode, a gradual change mode, and a flashing mode.

Specifically, a fixing plate 152 is arranged at one end of the core shaft 15, which penetrates through the sleeve 14 and is close to the port of the mounting plate 11, and the fixing plate 152 is connected with a mounting surface of the ceiling lamp 1. Because the adjusting component 10 connects the mounting plate 11, the illuminating part 12 and the like in series, and one end of the central spindle 15 of the adjusting component 10 is provided with the fixing plate 152, and then the fixing plate 152 is connected with the simulated mounting surface of the ceiling lamp 1, the whole lamp can be connected with the simulated mounting surface.

More specifically, the core shaft 15 includes a core rod 151 penetrating into the sleeve 14, and a fixing plate 152 is disposed at one end of the core rod 151 penetrating out of the sleeve 14 near the port of the mounting plate 11, and the fixing plate 152 is connected to the intended mounting surface of the ceiling lamp 1 through a connecting element or an adhesive material. It will be appreciated that the core rod 151 of the core shaft 15 is used to connect the mounting plate 11, the luminous element 12, etc. in series, and the fixing plate 152 is connected to the core rod 151, so that the whole lamp can be connected to the mounting surface by the connecting element or by the adhesive material.

Referring to fig. 2-5 of the specification, further, the actuating member 140 is a dial wheel 143 disposed on the outer side wall of the sleeve 14 corresponding to the light emitting member 12, and the responding member 120 is an adjusting button 124 adapted to the dial wheel 143; when the sleeve 14 rotates, the dial wheel 143 dials the adjusting button 124 to adjust the illuminating member 12. The sleeve 14 is provided with a dial wheel 143 for acting the self-rotation action of the sleeve 14 on the adjusting button 124 arranged on the luminous element 12, and the adjusting button 124 is adapted to the dial wheel 143 to receive response, so as to realize the regulation and control of the lighting parameters such as the light intensity, the color temperature and the like of the luminous element 12; that is, when the lighting parameter needs to be adjusted, the dial wheel 143 can be driven to dial the adjusting knob 124 by screwing the adjusting assembly 10, so as to adjust and control the lighting parameter of the light emitting element 12.

It should be noted that the adjusting button 124 may be only a dial button adapted to the dial wheel 143, or may have an adjusting box, and a portion of the dial button passes through the adjusting box to form the adjusting button 124 adapted to the dial wheel 143; in addition, the adjusting knob 124 may have several gears, each of which is matched with a certain number of lighting parameters or lighting patterns, or may be steplessly adjusted to have a series of continuous lighting parameters or lighting patterns.

Referring to fig. 5, preferably, a slit 1431 extending along the radial direction of the sleeve 14 is provided on the side of the dial wheel 143 facing the adjusting knob 124, and the circumferential width of the centripetal side of the slit 1431 is greater than the circumferential width of the centrifugal side of the slit 1431. It can be understood that the circumferential width of the centripetal side of the notch 1431 is greater than the circumferential width of the centripetal side of the notch 1431, that is, the bottom of the notch 1431 is wide and the mouth is narrow, so that the adjustment knob 124 can be ensured to be kept in the notch 1431 without separation in the relative rotation process of the sleeve 14 and the mounting disc 11. It should be noted that the overall size of the thumb wheel 143 may be slightly larger, so that the opening 1431 is directly disposed at the rim of the thumb wheel 143; the overall size of the thumb wheel 143 may be slightly smaller, but only a protruding section extending toward the adjusting knob 124 is provided at a position corresponding to the adjusting knob 124, and then the notch 1431 is provided on the protruding section, thereby reducing material consumption, reducing weight, and controlling cost.

Referring to the attached drawings 3-6 in the specification, further, the ceiling lamp 1 further includes a lampshade 13, the lampshade 13 is fastened on the mounting plate 11, and the light emitting element 12 is clamped between the mounting plate 11 and the lampshade 13. The adjusting component 10 penetrates through the mounting disc 11, the luminous component 12 and the lampshade 13, one end of the sleeve 14 and the mandrel 15, which penetrates out of the lampshade 13, is provided with a locking component 16, the locking component 16 comprises a locking part 161 which is meshed and connected with the outer side wall of the sleeve 14, and one side of the locking part 161, which faces towards the lampshade 13, abuts against the lampshade 13. The lampshade 13 is buckled on the mounting plate 11, so that the luminous part 12, the action part 140, the response part 120 and the like can be protected, one end of the sleeve 14 penetrating out of the lampshade 13 is provided with the locking component 16 for limiting the position of the lampshade 13 on the sleeve 14, and the locking component 161 is meshed with the outer side wall of the sleeve 14 and is connected with the lampshade 13 in a butting mode, so that the lampshade 13 is buckled on the mounting plate 11.

Specifically, the lampshade 13 includes a bowl-shaped or partially spherical or other commonly shaped cover 131, a through hole 132 for the sleeve 14 to pass through is disposed in the center of the cover 131, and the size of the through hole 132 is adapted to the outer diameter of the sleeve 14.

Referring to fig. 6 of the specification, the nut may alternatively have a locking structure or a locking form, such as a double-backed nut, such as a pin, a wedge, etc., between the nut and the sleeve 14, or other common fastener-loosening forms. Preferably, the double-leaning nuts are selected, and the radial extending convex ribs 1611 and the radial extending concave grooves 1612 are respectively arranged on the abutting surfaces of the nuts, so that the double-leaning nuts are fastened more tightly.

Continuing to refer to fig. 3-6 of the specification, further, the locking assembly 16 further includes a cover 162 covering the outer sidewall of the sleeve 14, the cover 162 having an outer edge extending to the lamp housing 13 to cover the locking member 161; the end of the mandrel 15 that extends out of the end of the sleeve 14 near the end of the globe 13 is provided with an end cap 163 to hold the cover 162 against the globe 13. It can be understood that the cover 162 can cover the locking member 161, so as to be more durable and beautiful, and the end cap 163 can limit the axial positions of the sleeve 14 and the spindle 15, so as to limit the position of the whole of the mounting plate 11, the luminous member 12, the lampshade 13 and the sleeve 14 on the spindle 15, and further to enable the mounting plate 11 to be tightly attached to the intended mounting surface of the ceiling lamp 1. When the locking member is preferably a nut, the cover 162 also prevents the threads from being exposed, thereby avoiding the problem that the threads are rusted and dirty and the nut knob is difficult to turn.

It should be noted that, when the cover 162 is disposed on the outer side wall of the sleeve 14, the matching position of the two may be in the form of a non-circular cross section (for example, the shape is polygonal as shown in fig. 3) such as a rectangle, a polygon, an ellipse, etc., so as to rotate the cover 162 to drive the sleeve 14 to rotate relative to the mounting plate 11, and further to regulate and control the rotation of the light emitting element 12 through the cover 162.

Referring to fig. 7 to 8 of the specification and referring to fig. 4, further, a limiting tooth 142 is disposed on one side of the thumb wheel 143 facing the light emitting element 12, a first limiting groove 114 is disposed on a position of the mounting plate 11 corresponding to the limiting tooth 142, and a second limiting groove 123 is disposed on a position of the light emitting element 12 corresponding to the limiting tooth 142; the limiting teeth 142 at least extend into the second limiting groove 123 along the axial direction of the sleeve 14, and the widths of the first limiting groove 114 and the second limiting groove 123 along the circumferential direction of the sleeve 14 are larger than the width of the limiting teeth 142 along the circumferential direction of the sleeve 14; during the circumferential position change of the mounting disk 11 and the sleeve 14, the limiting teeth 142 are located in the second limiting groove 123 or partially located in the second limiting groove 123 and partially located in the first limiting groove 114. It can be understood that the limiting tooth 142 is arranged on one side of the thumb wheel 143 facing the luminescent member 12, the limiting tooth 142 extends into the second limiting groove 123 of the luminescent member 12 or partially extends into the second limiting groove 123 of the luminescent member 12, and the part of the limiting tooth 142 is located in the first limiting groove 114 of the mounting plate 11, and the width of the first limiting groove 114 and the width of the second limiting groove 123 are larger than the width of the limiting tooth 142, so that the sleeve 14 and the mounting plate 11 can circumferentially move within a certain range, and the illumination parameters of the luminescent member 12 can be regulated and controlled.

It should be noted that, since the limiting tooth 142 extends from the dial 143 toward a side close to the mounting surface, it penetrates at least the second limiting groove 123 of the light emitting element 12, and when the extending dimension of the limiting tooth 142 is greater than the thickness of the light emitting element 12, the limiting tooth 142 penetrates through the second limiting groove 123 of the light emitting element 12 and then continues to penetrate into the first limiting groove 114 of the mounting plate 11.

It is important to note that the width of the first and second limiting grooves 114 and 123 along the circumferential direction of the sleeve 14 is greater than the width of the limiting tooth 142 along the circumferential direction of the sleeve 14, and the first and second limiting grooves 114 and 123 function to limit the circumferential rotation between the sleeve 14 and the mounting plate 11 within a certain boundary range, when the limiting tooth 142 abuts against one side boundary, the dial wheel 143 dials the adjusting knob 124 to one side end position of the adjusting range, and when the limiting tooth 142 abuts against the other side boundary, the dial wheel 143 dials the adjusting knob 124 to the other side end position of the adjusting range.

In addition, the first through hole 115 and the second through hole 125 may be respectively disposed on the mounting tray 11 and the light emitting member 12, so that the telecommunication cable of the adjusting knob 124 passes through the mounting tray 11 and the light emitting member 12, and the cable is prevented from shielding or interfering the light emitting surface on the light emitting member 12. In particular, the first through hole 115 and the second through hole 125 may also be provided with a fastening member such as a screw or a bolt to limit the relative position between the light emitting member 12 and the mounting plate 11, thereby avoiding the dislocation between the light emitting member and the mounting plate, and the telecommunication cable of the electronic device such as the adjusting knob 124 may pass through the limiting groove (including the first limiting groove 114 and the second limiting groove 123, at this time, the radial direction of the first limiting groove 114 and the second limiting groove 123 is longer, the centripetal side is used for limiting the limiting teeth 142, and the centrifugal side is used for threading the cable) to pass through the light emitting member 12 and the mounting plate 11.

Referring to fig. 7-9 of the specification and referring to fig. 4, further, the outer side wall of the sleeve 14, which penetrates through one end of the mounting plate 11, is provided with at least one latch 141 extending along the radial direction of the sleeve 14, and the latch 141 and the dial wheel 143 clamp the mounting plate 11 and the light emitting member 12 to define the position of the mounting plate 11 in the axial direction of the sleeve 14. It will be appreciated that the latch 141 is located on the side of the mounting plate 11 remote from the glowing member 12, the thumb wheel 143 is located on the side of the glowing member 12 remote from the mounting plate 11, and the distance between the adjacent faces of the latch 141 and thumb wheel 143 (shown as H in fig. 7) is comparable to the distance between the facing faces of the mounting plate 11 and glowing member 12 (shown as D1 plus D2 when the glowing member 12 is placed against the mounting plate 11; if a gap is left between the glowing member 12 and the mounting plate 11, the sum of the gaps between D1 and D2 and the glowing member 12 and mounting plate 11) to define the position of the mounting plate 11 and glowing member 12 on the sleeve 14.

It should be noted that the fixture block 141 and the dial wheel 143 clamp the mounting plate 11 and the illuminating member 12, and the main implementation manner is that after the fixture block 141 is screwed in place, the fixture block 141 does not pass through the illuminating member 12 or the mounting plate 11 any more, so as to limit the axial positions of the mounting plate 11 and the illuminating member 12, and therefore the width of a single fixture block 141 in the circumferential direction of the sleeve 14 or the sum of the widths of a plurality of fixture blocks 141 in the circumferential direction of the sleeve 14 occupies a central angle smaller than 180 °. Preferably, when two, three or more of the latch 141 are provided, the plurality of latches 141 are uniformly distributed in the circumferential direction of the sleeve 14, and the latch 141 passes through the light emitting element 12 and the mounting plate 11 and then is screwed at a certain angle to lock the position of the light emitting element 12 and the mounting plate 11 in the axial direction of the sleeve 14.

Referring to fig. 10 to 13 of the specification and referring to fig. 4, further, a first engaging hole 113 is formed in a position of the mounting plate 11 corresponding to the engaging block 141, and a second engaging hole 122 is formed in a position of the light emitting element 12 corresponding to the engaging block 141; when the first limiting groove 114 is aligned with the second limiting groove 123, the first locking hole 113 and the second locking hole 122 correspond to different circumferential positions of the sleeve 14, so as to limit the axial positions of the sleeve 14 and the mounting disc 11; the first engaging hole 113 and the second engaging hole 122 can be adjusted to be aligned to allow the engaging block 141 to pass through when assembling or disassembling the ceiling lamp 1.

It can be understood that, since the fixture block 141 and the dial wheel 143 clamp the mounting plate 11 and the illuminating element 12, but the fixture block 141 needs to pass through the mounting plate 11 and the illuminating element 12, the first clamping hole 113 and the second clamping hole 122 are respectively disposed on the mounting plate 11 and the illuminating element 12, when the lamp needs to be disassembled or assembled, the mounting plate 11 and the illuminating element 12 rotate relatively, so that the first clamping hole 113 and the second clamping hole 122 are aligned, and the fixture block 141 passes through; after the fixture block 141 passes through, the mounting plate 11 and the illuminating element 12 relatively rotate until the first limiting groove 114 is aligned with the second limiting groove 123, and the first clamping hole 113 and the second clamping hole 122 are staggered, that is, correspond to different circumferential positions of the sleeve 14, so that the fixture block 141 cannot pass through the mounting plate 11 and the illuminating element 12, thereby limiting the axial relative position of the sleeve 14 and the mounting plate 11, and enabling the ceiling lamp 1 to be in a working state.

Furthermore, a position of the mounting plate 11 corresponding to the edge of the light emitting element 12 is provided with a position-limiting element 1121, a position of the light emitting element 12 corresponding to the position-limiting element 1121 is provided with a positioning block 127, and the first position-limiting groove 114 is aligned with the second position-limiting groove 123 when the positioning block 127 abuts against the position-limiting element 1121. It can be understood that the position-limiting members 1121 are used for connecting the light-emitting member 12 with the mounting plate 11, and particularly for circumferentially positioning the light-emitting member 12 with the mounting plate 11, when the positioning blocks 127 on the light-emitting member 12 abut against the corresponding position-limiting members 1121 on the mounting plate 11, the first position-limiting grooves 114 and the second position-limiting grooves 123 are aligned, so that the position-limiting teeth 142 extend into the second position-limiting grooves 123 or partially extend into the second position-limiting grooves 123 and partially extend into the first position-limiting grooves 114, and at the same time, the positions of the first locking holes 113 and the second locking holes 122 are staggered, so as to limit the axial positions of the sleeve 14 and the mounting plate 11.

It can be understood that, a positioning assembly 112 for realizing the connection and positioning of the luminous element 12 and the mounting disc 11 is arranged between the mounting disc 11 and the luminous element 12, and the positioning element and the positioning block are only a part of the positioning assembly 112, and are mainly used for enabling the luminous element 12 and the mounting disc 11 to be at a specific circumferential position, because the first limiting groove 114 is aligned with the second limiting groove 123 after rotating to the position, at this time, if the limiting tooth 142 axially extends to a part which is located in the second limiting groove 123 and a part which is located in the first limiting groove 114, the limiting tooth 142 itself can also reversely enable the luminous element 12 and the mounting disc 11 to be substantially maintained at the specific circumferential position.

Optionally, the positioning assembly 112 may further include other structures, such as a positioning hole 1122 provided at an edge of the mounting plate 11 corresponding to the light emitting element 12 and a notch 128 provided at a position of the light emitting element 12 corresponding to the positioning hole 1122, when the positioning block 127 on the light emitting element 12 abuts against the corresponding blocking element 1121 on the mounting plate 11 (as shown in fig. 11), the positioning hole 1122 is aligned with the notch 128, and if a fastener or other parts are inserted into the positioning hole 1122 and the notch 128, complete determination of the circumferential positions of the light emitting element 12 and the mounting plate 11 can be achieved, even if the limiting tooth 142 only extends into the second limiting groove 123. In addition, when the positioning block 127 on the light emitting element 12 abuts against the corresponding blocking element 1121 on the mounting plate 11, not only the first limiting groove 114 and the second limiting groove 123 are aligned, so that the limiting tooth 142 extends into the second limiting groove 123 or partially extends into the second limiting groove 123 and partially extends into the first limiting groove 114, but also the positions of the first blocking hole 113 and the second blocking hole 122 are staggered to limit the axial position of the sleeve 14 and the mounting plate 11, and the positions of the first through hole 115 and the second enlarged hole are opposite to allow the telecommunication cable of the adjusting knob 124 to pass through.

Referring to fig. 12 and 13 of the specification, (referring to fig. 3 to 4 and the foregoing description, a person skilled in the art can understand the position of the sleeve 14 relative to the mounting plate 11 and the luminous element 12, so that the sleeve 14 is omitted here for showing the hole position relationship, but the sleeve 14 will be mentioned in the description) to specifically explain the position relationship, the moving direction, the positioning condition, and the like of the mounting plate 11 and the luminous element 12 during the assembling and disassembling process and when they are combined into a whole:

the light emitting element 12 is placed on the mounting plate 11, the first engaging hole 113 and the second engaging hole 122 are aligned and overlapped, so that the engaging block 141 of the sleeve 14 passes through the light emitting element 12 and the mounting plate 11 from one side of the light emitting element 12, at this time, the engaging element 1121 does not interact with the positioning block 127, the positioning hole 1122 does not interact with the notch 128, the first limiting groove 114 is not aligned with the second limiting groove 123, and the first via hole 115 is not aligned with the second via hole 125.

When the mounting plate 11 and the luminous element 12 are disposed between the thumb wheel 143 and the latch 141, the luminous element 12, the sleeve 14 and/or the mounting plate 11 are respectively rotated (in this embodiment, due to the positional relationship between the positioning block 127 and the latch 1121, the luminous element 12 rotates relative to the mounting plate 11 in the arrow direction in fig. 12) until the positioning block 127 is latched into the latch 1121, and the protruding portion abuts against the edge of the latch 1121, at this time, the first limiting groove 114 is aligned with the second limiting groove 123, and the limiting tooth 142 is located in the second limiting groove 123 or partially located in the second limiting groove 123 and partially located in the first limiting groove 114, so that the sleeve 14 can only circumferentially rotate within a limited range relative to the mounting plate 11 and/or the luminous element 12. Moreover, the first locking hole 113 is staggered with the second locking hole 122, the latch 141 cannot directly pass through the mounting plate 11 or the illuminating element 12, and the dial wheel 143 and the latch 141 limit the positions of the mounting plate 11 and the illuminating element 12 on the sleeve 14; in addition, the first through hole 115 is opposite to the second through hole 125 for the telecommunication cable of the adjusting knob 124 to pass through, and the positioning hole 1122 is opposite to the notch 128.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, and improvements made within the principle of the present invention should be included within the protection scope of the present invention.

Claims (10)

1. The utility model provides a ceiling lamp, its characterized in that: comprises a mounting plate, a luminous piece and an adjusting component;

the light-emitting piece is arranged on the mounting disc, the circumferential positions of the light-emitting piece and the mounting disc are fixed, the adjusting assembly penetrates through the mounting disc and the light-emitting piece, and at least the part of the adjusting assembly, which is matched with the mounting disc, can rotate;

the adjusting part lateral wall corresponds the position of illuminating part is equipped with the action piece, the illuminating part is equipped with the response piece, at least part during the adjusting part rotation, the action piece with the regulation and control to the illuminating part is realized in the response piece cooperation.

2. The ceiling lamp of claim 1, wherein: the adjusting assembly comprises a sleeve and a mandrel arranged in the sleeve in a penetrating mode;

the sleeve is provided with a pipe cavity with a circular cross section and is in rotary connection with the mandrel;

one end of the mandrel, which is far away from the luminous piece, penetrates out of the sleeve and is connected with the simulated mounting surface of the ceiling lamp, and one end of the mandrel, which is far away from the mounting disc, penetrates out of the sleeve and limits the axial position of the sleeve.

3. The ceiling lamp of claim 2, wherein: the action part is a shifting wheel and is arranged at the position of the outer side wall of the sleeve corresponding to the light-emitting part, and the response part is an adjusting button matched with the shifting wheel;

when the sleeve rotates, the dial wheel dials the adjusting button to realize the regulation and control of the light-emitting piece.

4. The ceiling lamp of claim 3, wherein: one side of the shifting wheel, which faces the light-emitting piece, is provided with a limiting tooth, the position of the mounting disc, which corresponds to the limiting tooth, is provided with a first limiting groove, and the position of the light-emitting piece, which corresponds to the limiting tooth, is provided with a second limiting groove;

the limiting teeth at least extend into the second limiting grooves along the axial direction of the sleeve, and the width of the first limiting grooves and the width of the second limiting grooves along the circumferential direction of the sleeve are larger than the width of the limiting teeth along the circumferential direction of the sleeve;

in the circumferential position changing process of the mounting disc and the sleeve, the limiting teeth are positioned in the second limiting groove or are partially positioned in the second limiting groove, and the part of the limiting teeth is positioned in the first limiting groove.

5. The ceiling lamp as set forth in claim 4, wherein: the outer side wall of one end, penetrating out of the mounting disc, of the sleeve is provided with at least one clamping block extending along the radial direction of the sleeve, and the clamping block and the shifting wheel clamp the mounting disc and the light-emitting piece so as to limit the position of the mounting disc in the axial direction of the sleeve.

6. The ceiling lamp of claim 5, wherein: the position of the mounting disc, which corresponds to the fixture block, is provided with a first adaptive clamping hole, and the position of the light-emitting piece, which corresponds to the fixture block, is provided with a second adaptive clamping hole;

the first clamping hole and the second clamping hole correspond to different circumferential positions of the sleeve so as to limit the axial positions of the sleeve and the mounting disc;

the first clamping hole and the second clamping hole can be adjusted to be aligned, so that the clamping block can penetrate through the ceiling lamp when the ceiling lamp is assembled or disassembled.

7. The ceiling lamp of claim 6, wherein: the mounting disc corresponds the border position of illuminating part is equipped with the screens piece, the illuminating part corresponds the position of screens piece is equipped with the locating piece, the locating piece with when the screens piece butt first spacing groove with the second spacing groove aligns.

8. The ceiling lamp of claim 3, wherein: the mandrel penetrates out of one end, close to the port of the mounting disc, of the sleeve, a fixing plate is arranged, and the fixing plate is connected with the simulated mounting surface of the ceiling lamp.

9. The ceiling lamp of claim 8, wherein: the ceiling lamp also comprises a lampshade, the lampshade is buckled on the mounting plate, and the light-emitting piece is clamped between the mounting plate and the lampshade;

the sleeve pipe runs through the mounting disc luminous component with the lamp shade, the sleeve pipe is worn out the one end of lamp shade is equipped with the locking subassembly, the locking subassembly include with the continuous locking piece of sleeve pipe lateral wall meshing, the locking piece orientation one side of lamp shade with the lamp shade counterbalance is leaned on.

10. The ceiling lamp of claim 9, wherein: the locking assembly further comprises a cover shell sleeved on the outer side wall of the sleeve, and the cover shell is provided with an outer edge extending to the lampshade so as to shield the locking piece;

an end cover is arranged at one end, penetrating out of the sleeve, of the core shaft, close to the port of the lampshade, so that the housing abuts against the lampshade.

Images