阅读说明：本技术 一种氛围灯 (Atmosphere lamp ) 是由 袁奇 陈志龙 于 2021-08-02 设计创作，主要内容包括：本申请公开了一种氛围灯,氛围灯包括底座、支架、灯体、罩体以及连接组件,灯体经由支架与底座连接,灯体包括盒体以及发光组件,盒体具有出光口,发光组件对应出光口设置于盒体内,发光组件包括滤光件以及灯板,滤光件包括环形滤光片以及两个齿轴,两个齿轴与盒体转动连接,环形滤光片具有多种半透明颜色图案且与两个齿轴传动连接,灯板与盒体连接且位于环形滤光片之间。该设计中,环形滤光片上具有多种半透明颜色图案,环形滤光片与两个齿轴传动连接,灯板介于环形滤光片之间,齿轴转动带动环形滤光片转动,以切换环形滤光片上的不同半透明颜色图案,实现了该氛围灯的多种投射效果,增强用户体验度。(The application discloses atmosphere lamp, atmosphere lamp includes the base, a support, a lamp body, the cover body and coupling assembling, the lamp body is connected with the base via the support, the lamp body includes box body and light-emitting component, the box body has the light-emitting window, light-emitting component corresponds the light-emitting window and sets up in the box body, light-emitting component includes filtering piece and lamp plate, filtering piece includes annular filter and two tooth axles, two tooth axles rotate with the box body and are connected, annular filter has multiple translucent colour pattern and is connected with two tooth axle transmissions, the lamp plate is connected with the box body and is located between the annular filter. In this design, have multiple translucent color pattern on the annular filter, the annular filter is connected with two tooth axle transmissions, and the lamp plate is between the annular filter, and the tooth axle rotates and drives the annular filter and rotate to switch the different translucent color patterns on the annular filter, realized the multiple projection effect of this atmosphere lamp, reinforcing user experience degree.)

1. An ambience lamp, characterized by comprising:

a base having a receiving chamber;

the bracket is arranged on the base;

the lamp body is connected with the base through the support, the lamp body comprises a box body and a light-emitting assembly, the box body is provided with a light outlet, the light-emitting assembly is arranged in the box body corresponding to the light outlet, the light-emitting assembly comprises a light filtering piece and a lamp plate, the light filtering piece comprises an annular light filter and two tooth shafts, the two tooth shafts are rotatably connected with the box body, the annular light filter is provided with multiple semitransparent color patterns and is in transmission connection with the two tooth shafts, and the lamp plate is connected with the box body and is positioned between the annular light filters;

the cover body is connected with the base, and one end, far away from the base, of the cover body is provided with a telescopic opening; and

the coupling assembling, set up in the box body and on the cover body, and be used for the cover body with the connection and the dismantlement of box body, so that the cover body has the cover and establishes the protection state of lamp body and have accomodate in hold the non-protection state in the cavity.

2. The ambience lamp as defined in claim 1,

the ratio of the radial dimension of the gear shafts to the distance between the central axes of the two gear shafts is between 1/3 and 3/5.

3. The ambience lamp as defined in claim 1,

the annular filter has at least 5 of the translucent color patterns.

4. The ambience lamp as defined in claim 1,

the lamp plate includes base plate and light source, the light source set up in the base plate towards the light-emitting window on the surface and with the base plate electricity is connected, the light source is LED white light source.

5. The ambience lamp as defined in claim 1,

the light-emitting component further comprises a lens group, and the lens group is arranged in the box body corresponding to the light outlet and is used for processing light rays passing through the annular optical filter.

6. The ambience lamp as defined in claim 1,

the coupling assembling includes hook and hanger, hook set up in the box body and on one of them of the cover body, the hanger set up in the box body and on one of them another of the cover body, the hanger hook takes the hook in order to realize the cover body with be connected between the lamp body.

7. The ambience lamp of claim 1, wherein the enclosure includes:

a bag body connected with the base; and

the flexible rope is arranged in a penetrating mode at one end, far away from the base, of the bag body to form the opening.

8. The ambience lamp of claim 1, wherein the base includes:

a seat body having the accommodation chamber; and

the cover body is connected with the cover body and is in sliding connection with the base body so as to open and close the opening of the accommodating cavity.

9. The atmosphere lamp according to claim 8,

the seat body is provided with a first sliding chute close to the opening of the accommodating chamber and a second sliding chute far away from the opening of the accommodating chamber, the notch of the first sliding chute is opposite to the notch of the second sliding chute, and the first sliding chute is annularly arranged with the second sliding chute;

the cover body includes:

the connecting part is provided with a storage groove, the notch of the storage groove is arranged towards the notch of the second sliding groove, and when the cover body is in the non-working state, the cover body is stored in the storage groove;

the first sliding part is formed by extending from one end, close to the opening of the accommodating cavity, of the connecting part to the first sliding groove, and the first sliding part is connected with the first sliding groove in a sliding mode; and

the second sliding portion is connected with the cover body, one end, far away from the opening of the accommodating cavity, of the connecting portion extends towards the second sliding groove to form the second sliding portion, and the second sliding portion is connected with the second sliding groove in a sliding mode.

10. The ambience lamp as defined in claim 9,

the atmosphere lamp further comprises a driving assembly, the driving assembly comprises a driving element and a transmission element, the driving element is arranged on the base body, the transmission element is connected with the driving element along the depth direction of the second sliding groove, the transmission element is connected with the connecting portion, and the driving element is configured to drive the connecting portion to move along the transmission element to change the relative position between the first sliding portion and the first sliding groove so as to open and close the opening of the accommodating chamber.

Technical Field

The application relates to the technical field of lamps, in particular to an atmosphere lamp.

Background

The atmosphere lamps are various in types, but the projection function of the existing atmosphere lamps in the market is single, and only a single color pattern can be projected. Therefore, how to enable the ambience lamp to project various color patterns to enhance the diversity of the projection functions of the ambience lamp has become an urgent problem to be solved.

Disclosure of Invention

The embodiment of the application provides an atmosphere lamp, can throw out multiple different colour pattern, has strengthened the variety of atmosphere lamp projection function to promote user experience.

In a first aspect, embodiments of the present application provide an ambience lamp; the atmosphere lamp comprises a base, a support, a lamp body, a cover body and a connecting assembly, wherein the base is provided with a containing cavity, the support is arranged on the base, the lamp body is connected with the base through the support, the lamp body comprises a box body and a light-emitting assembly, the box body is provided with a light outlet, the light-emitting assembly is arranged in the box body corresponding to the light outlet, the light-emitting assembly comprises a light filtering piece and a lamp plate, the light filtering piece comprises an annular light filter and two tooth shafts, the two tooth shafts are rotatably connected with the box body, the annular light filter is provided with multiple semitransparent color patterns and is in transmission connection with the two tooth shafts, the lamp plate is connected with the box body and is positioned between the annular light filters, the cover body is connected with the base, one end of the cover body, far away from the base, is provided with a telescopic opening, and the connecting assembly is arranged on the box body and the cover body, and the cover body is used for connecting and disassembling the cover body and the box body so that the cover body has a protection state covering the lamp body and a non-protection state accommodated in the accommodating cavity.

According to the atmosphere lamp, the annular optical filter is provided with multiple semitransparent color patterns, the annular optical filter is in transmission connection with the two gear shafts, the lamp panel is arranged between the annular optical filters, the gear shafts rotate to drive the annular optical filter to rotate so as to switch the different semitransparent color patterns on the annular optical filter, multiple projection effects of the atmosphere lamp are achieved, and user experience is enhanced; realize being connected between the cover body and the box body through coupling assembling, make the cover body be in the guard state that the lamp body was established to the cover, the cover body plays guard action to the lamp body, can block dust or water droplet, the life of atmosphere lamp has effectively been prolonged, realize the dismantlement between the cover body and the lamp body through coupling assembling, make the cover body be in the non-guard state who accomodates in the holding cavity of base, the cover body does not have the sheltering from to the lamp body, so that the normal use of atmosphere lamp, switch over between operating condition and non-operating condition through the cover body, can protect atmosphere lamp effectively, in order to promote the formation of image quality of atmosphere lamp.

In some of these embodiments, the ratio of the radial dimension of the shafts to the spacing between the central axes of the two shafts is between 1/3 and 3/5.

Based on the above embodiment, the radial dimension of the gear shaft and the distance between the central axes of the two gear shafts are designed to satisfy the above relationship, so that the distance between the two gear shafts is not too small, the smoothness of the gear shaft driving the annular optical filter to rotate is ensured, and the effective switching of the semitransparent color patterns on the annular optical filter is ensured.

In some of these embodiments, the annular filter has a translucent color pattern of at least 5.

Based on the above embodiment, by designing at least 5 semi-transparent color patterns on the ring filter, the atmosphere lamp can project at least 5 different color patterns, thereby enhancing the diversity of the atmosphere lamp projection function.

In some embodiments, the lamp panel includes a substrate and a light source, the light source is disposed on a surface of the substrate facing the light outlet and electrically connected to the substrate, and the light source is an LED white light source.

Based on the above embodiment, the substrate is used as a carrier of the light source for bearing the light source and is electrically connected with the light source, and the light source is designed into the LED white light source which can filter and project different colored lights after passing through different semitransparent color patterns, so that the diversity of the projection function of the atmosphere lamp is enhanced.

In some embodiments, the light emitting assembly further includes a lens set disposed in the case corresponding to the light outlet and used for processing the light passing through the annular filter.

Based on the above embodiment, the light rays will deviate towards the direction of the optical axis close to or far away from the lens group after passing through the lens group, and stray light is reflected, so that the imaging quality of the atmosphere lamp is further improved.

In some embodiments, the connecting assembly includes a hook disposed on one of the case and the cover, and a hook disposed on the other of the case and the cover, the hook hooking the hook to connect the cover and the lamp body.

Based on above-mentioned embodiment, through the hook cooperation between hook and hanger between the cover body and the box body, reduce the cover body and the box body between be connected and dismantle the degree of difficulty to convenient to use person comes to switch the protection state and the non-protection state of the cover body at will.

In some embodiments, the cover body includes a bag body and a retractable rope, the bag body is connected with the base, and the retractable rope is arranged at one end of the bag body far away from the base in a penetrating manner to form an opening.

Based on above-mentioned embodiment, tighten up or relax the opening of the bag body through flexible rope, reduced the operation degree of difficulty that the lamp body was established to the cover body cover.

In some embodiments, the base includes a base body having an accommodating chamber, and a cover body connected to the cover body and slidably connected to the base body to open and close an opening of the accommodating chamber.

Based on above-mentioned embodiment, realize opening and closing the chamber opening that holds of pedestal through the sliding connection between lid and the pedestal for the cover body can be regular when non-operating condition accomodate in the chamber that holds of pedestal in, whole aesthetic property when having guaranteed the atmosphere lamp normal use, and the lid plays good guard action to the cover body of accomodating in the chamber that holds of pedestal, has prolonged the life of the cover body.

In some embodiments, the seat body has a first chute close to the opening of the accommodating chamber and a second chute far from the opening of the accommodating chamber, the first chute notch and the second chute notch are oppositely arranged, and the first chute is annularly arranged with the second chute; the lid includes connecting portion, first sliding part and second sliding part, connecting portion have the groove of accomodating, accomodate the groove notch and arrange towards second spout notch, when the cover body is in non-operating condition, the cover body is accomodate in accomodating the inslot, first sliding part extends from connecting portion and forms towards first spout near the one end that holds the cavity open-ended, and first sliding part and first spout sliding connection, second sliding part and cover body coupling, keep away from connecting portion and hold cavity open-ended one end and extend towards the second spout and form, and second sliding part and second spout sliding connection.

Based on the above embodiment, the sliding fit of the first sliding portion and the first sliding groove is used for realizing the opening and closing of the cover body to the accommodating cavity opening of the base body, the second sliding portion is used for bearing the cover body, and the second sliding portion and the second sliding groove are in sliding fit to match the movement between the first sliding portion and the first sliding groove, so that the difficulty of opening and closing the accommodating cavity of the cover body is reduced.

In some embodiments, the atmosphere lamp further includes a driving assembly, the driving assembly includes a driving element and a transmission element, the driving element is disposed on the base, the transmission element is connected to the driving element along a depth direction of the second sliding groove, and the transmission element is connected to the connecting portion, the driving element is configured to drive the connecting portion to move along the transmission element to change a relative position between the first sliding portion and the first sliding groove to open and close the opening of the accommodating chamber.

Based on the above embodiment, the driving element drives the transmission element connected with the driving element to move, and the transmission element drives the connecting part connected with the transmission element to move along the transmission, so that the opening and closing of the opening of the accommodating chamber are realized by changing the relative position between the first sliding part and the first sliding groove, and the operation is simple, convenient and fast.

According to the atmosphere lamp, the annular optical filter is provided with multiple semitransparent color patterns, the annular optical filter is in transmission connection with the two gear shafts, the lamp panel is arranged between the annular optical filters, the gear shafts rotate to drive the annular optical filter to rotate so as to switch the different semitransparent color patterns on the annular optical filter, multiple projection effects of the atmosphere lamp are achieved, and user experience is enhanced; realize being connected between the cover body and the lamp body through coupling assembling, make the cover body be in the guard state that the lamp body was established to the cover, the cover body plays guard action to the lamp body, can block dust or water droplet, the life of atmosphere lamp has effectively been prolonged, realize the dismantlement between the cover body and the lamp body through coupling assembling, make the cover body be in the non-guard state who accomodates in the holding cavity of base, the cover body does not have the sheltering from to the lamp body, so that the normal use of atmosphere lamp, switch over between operating condition and non-operating condition through the cover body, can protect atmosphere lamp effectively, in order to promote the formation of image quality of atmosphere lamp.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present application, and other drawings can be obtained by those skilled in the art without creative efforts.

FIG. 1 is a schematic view of an atmosphere lamp according to an embodiment of the present application;

FIG. 2 is a schematic structural diagram of a light emitting device according to an embodiment of the present disclosure;

FIG. 3 is a cross-sectional view of a light emitting assembly in one embodiment of the present application;

FIG. 4 is an exploded view of an atmosphere lamp in one embodiment of the present application;

FIG. 5 is a schematic structural view of a housing according to an embodiment of the present disclosure in an operating state;

FIG. 6 is a schematic structural diagram illustrating an embodiment of the present application when the cover is not covered on the lamp body;

fig. 7 is a schematic structural diagram of a cover in an inoperative state according to an embodiment of the present application.

Reference numerals: 100. an atmosphere lamp; 110. a base; 111. a base body; 1111. a housing chamber; 1112. a first chute; 1113. a second chute; 112. a cover body; 1121. a first sliding section; 1122. a connecting portion; 11221. a receiving groove; 1123. a second sliding section; 120. a support; 121. erecting a rod; 122. a universal tube; 130. a lamp body; 131. a box body; 1311. a box body; 13111. a light outlet; 1312. a top cover; 132. a light emitting assembly; 1321. a lens group; 13211. a first lens; 13212. a second lens; 13213. a first lens pressing ring; 13214. a second lens pressing ring; 1322. a light filtering member; 13221. a gear shaft; 13222. an annular optical filter; 1323. a lamp panel; 13231. an LED white light source; 13232. a substrate; 1324. a fastener; 1325. a lamp socket; 140. a cover body; 141. a bag body; 142. a retractable rope; 143. an opening; 150. a connecting assembly; 151. a hook; 152. a hanging piece; 160. a drive assembly; 161. a drive element; 162. a transmission element; 170. a circuit board assembly; 171. a circuit board; 172. an electronic component; 180. a battery; 191. a knob; 192. and (4) conducting wires.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

In the related art, the atmosphere lamps are various in types, but the atmosphere lamps in the current market have a single projection function and can only project a single color pattern. Therefore, how to enable the ambience lamp to project various color patterns to enhance the diversity of the projection functions of the ambience lamp has become an urgent problem to be solved.

In order to solve the above technical problem, referring to fig. 1 to 7, a first aspect of the present application provides an ambience lamp 100, which can effectively improve the imaging quality of the ambience lamp 100.

The atmosphere lamp 100 comprises a base 110, a support 120, a lamp body 130, a cover 140 and a connecting assembly 150, wherein the base 110 has a receiving chamber 1111, the support 120 is disposed on the base 110, the lamp body 130 is connected with the base 110 via the support 120, the lamp body 130 comprises a box 131 and a light emitting assembly 132, the box 131 has a light outlet 13111, the light emitting assembly 132 is disposed in the box 131 corresponding to the light outlet 13111, the light emitting assembly 132 comprises a filter 1322 and a lamp panel 1323, the filter 1322 comprises a ring filter 13222 and two tooth shafts 13221, the two tooth shafts 13221 are rotatably connected with the box 131, the ring filter 13222 has a plurality of semitransparent color patterns and is in transmission connection with the two tooth shafts 13221, the lamp 1323 is connected with the box 131 and is located between the ring filters 13222, the cover 140 is connected with the base 110, and one end of the cover 140 away from the base 110 has a retractable opening 143, and the connecting assembly 150 is disposed on the case 131 and the cover 140 and used for connecting and disconnecting the cover 140 and the case 131, so that the cover 140 has a protection state covering the lamp body 130 and a non-protection state accommodated in the accommodating chamber 1111.

Based on the atmosphere lamp 100 of the embodiment of the application, the annular filter 13222 is provided with multiple semitransparent color patterns, the annular filter 13222 is in transmission connection with the two tooth shafts 13221, the lamp panel 1323 is arranged between the annular filters 13222, and the tooth shafts 13221 rotate to drive the annular filter 13222 to rotate so as to switch different semitransparent color patterns on the annular filter 13222, so that multiple projection effects of the atmosphere lamp 100 are realized, and the user experience is enhanced; realize being connected between cover 140 and the box body 131 through coupling assembling 150, make cover 140 be in the guard mode who covers lamp body 130, cover 140 plays the guard action to lamp body 130, can block dust or water droplet, effectively prolonged the life of atmosphere lamp 100, realize dismantling between cover 140 and lamp body 130 through coupling assembling 150, make cover 140 be in the non-guard mode who accomodates in the accommodation chamber 1111 of base 110, cover 140 does not have the shelter to lamp body 130, so that the normal use of atmosphere lamp 100, switch between operating condition and non-operating condition through cover 140, can protect atmosphere lamp 100 effectively, with the formation of image quality that promotes atmosphere lamp 100.

The atmosphere lamp 100 is described in detail below with reference to fig. 1-7, and the atmosphere lamp 100 includes a base 110, a bracket 120, a lamp body 130, an enclosure 140, and a connecting assembly 150.

Fig. 1 is a schematic structural view of an atmosphere lamp according to an embodiment of the present disclosure, fig. 2 is a schematic structural view of a light emitting device according to an embodiment of the present disclosure, fig. 3 is a cross-sectional view of a light emitting device according to an embodiment of the present disclosure, and fig. 4 is an exploded view of an atmosphere lamp according to an embodiment of the present disclosure.

The base 110 is used as a component of the atmosphere lamp 100 for carrying the bracket 120, the base 110 should be made of a material with good rigidity and strength, the specific material of the base 110 is not limited herein, and a designer can reasonably select the material according to needs, and likewise, the shape of the base 110 is not limited herein, and the base 110 has an accommodating chamber 1111, that is, the inside of the base 110 is hollow to form the accommodating chamber 1111.

The support 120 is used as a component for supporting the lamp body 130 in the atmosphere lamp 100, and the support 120 is disposed on the base 110, where the specific structure of the support 120 will be described later.

The lamp body 130 is used as a component for projecting light in the atmosphere lamp 100, and the lamp body 130 is connected to the base 110 via the bracket 120, that is, one end of the bracket 120 is connected to the base 110, and the other end of the bracket 120 is connected to the lamp body 130.

Considering that the lamp body 130 is a part of the light projection in the atmosphere lamp 100, the lamp body 130 includes a case 131 and a light emitting assembly 132, the case 131 has a light outlet 13111, the connection assembly 150 is disposed on the case 131, and the light emitting assembly 132 is disposed in the case 131 corresponding to the light outlet 13111. Specifically, the support 120 includes a vertical rod 121 and a universal tube 122 (described below), the vertical rod 121 is used to support the universal tube 122, one end of the vertical rod 121 is inserted into the base 110 and fixed, the universal tube 122 is used to support the lamp body 130, one end of the universal tube 122 is connected to the vertical rod 121, the other end of the universal tube 122 is connected to the lamp body 130, and the universal tube 122 can be bent in any direction relative to the vertical rod 121 to adjust the light projection angle of the lamp body 130. The box body 131 is rectangular, the box body 131 comprises a box body 1311 and a top cover 1312 which are buckled with each other, the light outlet 13111 is circular and penetrates through the front side surface of the box body 1311, the hook is fixed on the left side surface and the right side surface of the box body 1311 through glue in a bonding mode, one end, far away from the vertical rod 121, of the universal pipe 122 is fixedly connected with the bottom surface of the box body 1311, and the light-emitting component 132 is contained in the box body 131 through an opening 143 of the box body 1311. In this design, the box 131 is not only used for carrying the light emitting element 132, but also used for protecting the light emitting element 132.

Further, to realize that the atmosphere lamp 100 switches different light colors to accommodate more choices of users, the light emitting assembly 132 includes a filter element and a lamp panel 1323.

The filter 1322 is used as a component for filtering light emitted by the lamp panel 1323 in the light emitting assembly 132, the filter 1322 includes two tooth shafts 13221 and an annular filter 13222, the number of the tooth shafts 13221 is two, the two tooth shafts 13221 are rotatably connected with the bottom surface of the box body 1311, the annular filter 13222 is arranged outside the two tooth shafts 13221 and is in transmission connection with the two tooth shafts 13221, the tooth shafts 13221 rotate to drive the annular filter 13222 to rotate, that is, the two tooth shafts 13221 are equivalent to two belt pulleys, the annular filter 13222 is equivalent to a belt in transmission connection with the belt pulleys, the annular filter 13222 has multiple translucent color patterns, and switching between different translucent color patterns is realized by rotation of the tooth shafts 13221.

The lamp panel 1323 is connected to the case 131 and located between the annular filters 13222, that is, the annular filters 13222 are arranged around the outside of the lamp panel 1323.

The cover 140 is used as a component for protecting the lamp body 130 in the atmosphere lamp 100, the cover 140 is connected to the base 110, one end of the cover 140 away from the base 110 has a retractable opening 143, that is, the cover 140 can be retracted to open and close the opening 143, and the cover 140 covers the lamp body 130 in the cover 140 through the retractable opening 143, where the specific connection manner between the cover 140 and the base 110 and the specific structure of the cover 140 will be described in detail below.

The connecting assembly 150 is used as a component for supporting the cover 140 in the atmosphere lamp 100, and the connecting assembly 150 is disposed on the lamp body 130 and the cover 140, where the specific connection mode between the connecting assembly 150 and the lamp body 130 and the cover 140 will be described below.

The connecting assembly 150 is used for connecting and disconnecting the cover 140 and the lamp body 130, so that the cover 140 has a protection state covering the lamp body 130 and a non-protection state accommodated in the accommodating chamber 1111, that is, the cover 140 is connected with the lamp body 130 through the connecting assembly 150, so that the cover 140 is in the protection state covering the lamp body 130, the cover 140 is disconnected with the lamp body 130 through the connecting member, so that the cover 140 is in the non-protection state accommodated in the accommodating chamber 1111 of the base 110, and a user can reasonably switch the cover 140 between the protection state and the non-protection state through the connecting assembly 150 as required.

As shown in fig. 2-4, further, in order to improve the smoothness of the rotation of the ring filter 13222 driven by the gear shaft 13221 to ensure the effective switching of the translucent color pattern on the ring filter 13222, in some embodiments, the ratio between the radial dimension of the gear shaft 13221 and the distance between the central axes of the two gear shafts 13221 is between 1/3 and 3/5, which may be 1/3, 1/2, or 3/5. In this design, the radial dimension of the gear shafts 13221 and the distance between the central axes of the two gear shafts 13221 are designed to satisfy the above relationship, so that the distance between the two gear shafts 13221 is not too small, and the smoothness of the gear shafts 13221 driving the ring filter 13222 to rotate is ensured, so as to ensure the effective switching of the semitransparent color patterns on the ring filter 13222.

Further, to enhance the versatility of the projection function of the ambience lamp 100, in some embodiments, the annular filter 13222 has a translucent color pattern of at least 5. In this design, by designing at least 5 semi-transparent color patterns on the annular filter 13222, so that the ambience lamp 100 can project at least 5 different color patterns, the diversity of the projection functions of the ambience lamp 100 is enhanced.

Further, considering that the lamp panel 1323 is a component for emitting light in the light emitting assembly 132, in some embodiments, the lamp panel 1323 includes a substrate 13232 and a light source disposed on a surface of the substrate 13232 facing the light outlet 13111 and electrically connected to the substrate 13232, and the light source is an LED white light source 13231. In the design, the substrate 13232 is used as a carrier of the light source for carrying the light source and is electrically connected with the light source, and the light source is designed into the LED white light source 13231, so that the LED white light source 13231 can filter and project different colored lights after passing through different semitransparent color patterns, and the diversity of the projection function of the atmosphere lamp 100 is enhanced.

Further, in some embodiments, the light emitting assembly 132 further includes a lens assembly 1323, the lens assembly 1323 is disposed in the case 131 corresponding to the light outlet 13111 and is configured to process the light passing through the annular filter 13222, the lens assembly 1321 is used as a component of the light emitting assembly 132 that performs an optical path changing process on the light emitted by the lamp panel 1323, where the "optical path changing process" refers to that the light is deflected in an optical axis direction close to or far from the lens assembly 1321 after passing through the lens assembly 1321. Specifically, the lens assembly 1321 includes a first lens element 13211 and a second lens element 13212, the first lens element 13211 is a convex lens element for converging light rays, the second lens element 13212 is a concave lens element for diverging light rays, the first lens element 13211 is disposed close to the filter 1322, and the second lens element 13212 is disposed on an object side of the first lens element 13211. In this design, the light beam will be shifted toward the direction close to or away from the optical axis of the lens assembly 1321 after passing through the lens assembly 1321, and the stray light is reflected, so as to further improve the imaging quality of the ambience lamp 100.

In addition to being disposed inside and outside the annular filter 13222, in an embodiment, the lamp panel 1323 may be disposed at a rear end of the two or more sheet filters, and light emitted by the lamp panel 1323 penetrates through the two or more sheet filters at the same time, so that the two or more sheet filters can form more colors by color combination, for example, when the color of the first sheet filter is red and the color of the second sheet filter is yellow, the color finally penetrating through the two sheet filters is orange. When the first sheet filter is translated to switch the color to blue and the second sheet filter is translated to switch the color to transparent, the color finally coming out through the two filters is blue. When the color of the first sheet filter is switched to blue and the color of the second sheet filter is switched to green, the color finally coming out through the two filters is cyan. In this way, a plurality of colors can be set on each layer of sheet filter, and the plurality of sheet filters are driven by the driving device to switch colors, so that more colors can be obtained.

As shown in fig. 4, the case 131 further includes a lamp holder 1325, the lamp holder 1325 is used to carry the lamp panel 1323, the first lens 13211 and the second lens 13212, the lamp holder 1325 is fixed to the case body 1311 through a fastening component 1324, the fastening component 1324 is a screw, the lens set 1321 further includes a first lens 13211 pressing ring and a second lens 13212 pressing ring, the first lens 13211 pressing ring is disposed on an outer periphery of the first lens 13211, the first lens 13211 is connected with the lamp holder 1325 through the first lens 13211 pressing ring, the second lens 13212 pressing ring is disposed on an outer periphery of the second lens 13212, and the second lens 13212 is connected with the lamp holder 1325 through the second lens 13212 pressing ring.

As shown in fig. 5 to 7, fig. 5 is a schematic structural diagram of the cover body in an embodiment of the present application when the cover body is in an operating state, fig. 6 is a schematic structural diagram of the cover body in an embodiment of the present application when the cover body is not covered on the lamp body, and fig. 7 is a schematic structural diagram of the cover body in an embodiment of the present application when the cover body is in a non-operating state.

Considering that the connection assembly 150 is used as a component for realizing the connection and the detachment between the cover 140 and the lamp body 130, in order to reduce the difficulty of the connection and the detachment between the cover 140 and the lamp body 130, thereby facilitating the user to switch the protection state and the non-protection state of the cover 140 at will, in some embodiments, the connection assembly 150 includes a hook 151 and a hook 152, the hook 151 is disposed on one of the lamp body 130 and the cover 140, the hook 152 is disposed on the other of the lamp body 130 and the cover 140, and the hook 152 hooks the hook 151 to realize the connection between the cover 140 and the lamp body 130. In this design, the hooking and hooking between the hood 140 and the lamp body 130 via the hooking and hooking member 151 and the hooking member 152 reduces the difficulty in connecting and detaching the hood 140 and the lamp body 130, so that the user can switch the protection state and the non-protection state of the hood 140 at will.

Specifically, the hook 151 is disposed on the lamp body 130, the hook 152 is disposed on the cover 140, the hook 151 includes a hook, the hook can be fixed to the box 131 (described below) of the lamp body 130 by bonding with glue, the number of the hook is four, two sets of four hooks are disposed on two opposite outer side surfaces of the box 131, the hook 152 includes a hook ring, the hook ring can be fixed to the cover 140 (such as the inner side surface of the bag 141) by bonding with glue, the number of the hook ring is also four, and the hook ring is hooked on the hook ring in a one-to-one correspondence. The connection between the cover body 140 and the lamp body 130 can be realized by hooking the loop on the hook, and the detachment between the cover body 140 and the lamp body 130 can be realized by not hooking the loop on the hook.

As shown in fig. 5 to 7, considering that the cover 140 has both an operating state covering the cover 140 and a non-operating state received in the receiving cavity 1111, in order to facilitate switching the cover 140 between the operating state and the non-operating state, in some embodiments, the cover 140 includes a bag 141 and a retractable cord 142, the bag 141 is connected to the base 110, and the retractable cord 142 is inserted into an end of the bag 141 away from the base 110 to form an opening 143. Specifically, the bag body 141 can adopt a cloth material having good flexibility and foldability and having waterproof and heat-resistant properties, the extension cord 142 is threaded on the bag body 141, the bag body 141 is kept away from the opening 143 of one end of the base 110 by expanding and contracting the extension cord 142, when the loop is hooked on the hook, the opening 143 of the bag body 141 is contracted and reduced by tensioning the extension cord 142, thereby the cover body 140 is in an operating state covering the lamp body 130, and similarly, when the loop is not hooked on the hook, the opening 143 of the bag body 141 is expanded and enlarged by loosening the extension cord 142, thereby the cover body 140 is in a non-operating state accommodated in the accommodating chamber 1111 of the base 110. In this design, the opening 143 of the bag 141 is tightened or relaxed by the retractable cord 142, thereby reducing the difficulty of covering the lamp body 130 with the cover body 140.

It will be appreciated that, when the enclosure 140 is in the non-operative condition housed within the housing chamber 1111, the atmosphere lamp 100 needs to be used normally, in order to ensure the overall aesthetic property of the atmosphere lamp 100 in normal use, in some embodiments, the base 110 includes a base body 111 and a cover body 112, the base body 111 has a receiving cavity 1111, the cover body 112 is connected with the cover body 140, and is slidably connected to the base 111 to open and close the opening 143 of the receiving chamber 1111, that is, the sliding connection between the cover 112 and the base 111 can open and close the opening 143 of the receiving chamber 1111, when the cover 112 slides relative to the base 111 to close the opening 143 of the receiving cavity 1111, the user can completely store the cover 140 in the containing cavity 1111 of the base 111, and the cover 112 can be used to cover the opening 143 of the containing cavity 1111, and similarly, when the cover 112 slides relative to the base 111 to open the opening 143 of the receiving cavity 1111, the user can take out the cover 140 received in the receiving chamber 1111 of the base 111. In the design, the opening and closing of the opening 143 of the accommodating chamber 1111 of the base 111 are realized through the sliding connection between the cover 112 and the base 111, so that the cover 140 can be regularly accommodated in the accommodating chamber 1111 of the base 111 in the non-working state, the overall aesthetic property of the atmosphere lamp 100 during normal use is ensured, the cover 112 plays a good role in protecting the cover 140 accommodated in the accommodating chamber 1111 of the base 111, and the service life of the cover 140 is prolonged.

As shown in fig. 5-7, considering that there are many structures that can realize the opening and closing of the opening 143 of the receiving chamber 1111 of the seat 111 through the sliding fit between the cover 112 and the seat 111, in some embodiments, the seat 111 has a first sliding slot 1112 close to the opening 143 of the receiving chamber 1111 and a second sliding slot 1113 far from the opening 143 of the receiving chamber 1111, the notch of the first sliding slot 1112 is opposite to the notch of the second sliding slot 1113, that is, the first sliding slot 1112 is layered with the second sliding slot 1113 in the thickness direction (i.e., the vertical direction) of the seat 111, the first sliding slot 1112 is disposed around the outside of the second sliding slot 1113, and the extending direction of the first sliding slot 1112 is opposite to the extending direction of the second sliding slot 1113.

Further, the cover 112 includes a connecting portion 1122, a first sliding portion 1121, and a second sliding portion 1123.

The connecting portion 1122 has a receiving groove 11221, a notch of the receiving groove 11221 faces a notch of the second sliding slot 1113, when the cover 140 is in the non-operating state, the cover 140 is received in the receiving groove 11221, that is, an extending direction of the receiving groove 11221 is the same as an extending direction of the first sliding slot 1112, the receiving groove 11221 is used for receiving the cover 140 in the receiving groove 11221 when the cover 140 is in the non-operating state, so that the cover 140 can be effectively prevented from interfering with the closing of the cover 112.

The first sliding portion 1121 is formed by extending from one end of the connecting portion 1122 close to the opening 143 of the accommodating chamber 1111 toward the first sliding groove 1112, and the first sliding portion 1121 is slidably connected to the first sliding groove 1112. Specifically, the first sliding portion 1121 is a plate-shaped structure, and the shape of the first sliding portion 1121 is matched with the first sliding groove 1112.

A second sliding portion 1123 is connected to the cover 140, the second sliding portion 1123 is formed to extend from an end of the connecting portion 1122 away from the opening 143 of the receiving chamber 1111 toward the second sliding groove 1113, and the second sliding portion 1123 is slidably connected to the second sliding groove 1113. Specifically, one end of the cover body 140 close to the cover body 112 is bonded and fixed on the second sliding portion 1123, the second sliding portion 1123 is in a plate-shaped structure, and the shape of the second sliding portion 1123 is matched with the second sliding slot 1113.

That is, the extending direction of the first sliding portion 1121 is opposite to the extending direction of the second sliding portion 1123, and the first sliding portion 1121, the connecting portion 1122 and the second sliding portion 1123 form a cover 112 having a structure similar to a zigzag shape.

In this design, the sliding fit of the first sliding portion 1121 and the first sliding slot 1112 is used for opening and closing the opening 143 of the accommodating chamber 1111 of the seat 111 by the cover 112, the second sliding portion 1123 is used for carrying the cover 140, and the sliding fit of the second sliding portion 1123 and the second sliding slot 1113 is used for matching the movement between the first sliding portion 1121 and the first sliding slot 1112, so as to reduce the difficulty of opening and closing the accommodating chamber 1111 by the cover 112.

As shown in fig. 5-7, in order to further increase the difficulty of opening and closing the opening 143 of the accommodating chamber 1111 by the cover 112, in some embodiments, the atmosphere lamp 100 further includes a driving assembly 160, the driving assembly includes a driving element 161 and a transmission element 162, the driving element 161 is disposed on the base 111, the transmission element 162 is connected to the driving element 161 along the depth direction of the second sliding slot 1113, and the transmission element 162 is connected to the connecting portion 1122, the driving element 161 is configured to drive the connecting portion 1122 to move along the transmission element 162 to change the relative position between the first sliding portion 1121 and the first sliding slot 1112 so as to open and close the opening 143 of the accommodating chamber 1111. Specifically, the driving element 161 includes four driving motors, the transmission element 162 includes four screws, the four screws are in one-to-one coaxial fixed connection with the four driving motors, the number of the covers 112 is four, the connecting portions 1122 of the four covers 112 are in one-to-one threaded connection with the four screws, the four driving motors rotate synchronously to drive the screws in one-to-one coaxial fixed connection to rotate synchronously, and the screws rotate to drive the connecting portions 1122 in threaded connection therewith to move along the length direction of the screws, so that the four covers 112 move synchronously toward the bottom direction of the first sliding groove 1112 to open the opening 143 of the accommodating chamber 1111, or the four covers 112 move synchronously toward the bottom direction of the second sliding groove 1113 to close the opening 143 of the accommodating chamber 1111. In this design, the driving element 161 drives the transmission element 162 connected thereto to move, and the transmission element 162 drives the connecting portion 1122 connected thereto to move along the transmission, so as to change the relative position between the first sliding portion 1121 and the first sliding groove 1112 to open and close the opening 143 of the accommodating chamber 1111, which is simple, convenient and fast to operate.

As shown in fig. 2-4, the atmosphere lamp 100 further comprises a knob 191, the knob 191 is rotatably connected with the top cover 1312, when the top cover 1312 is fastened with the box body 1311, the end of the knob 191 located in the box body 1311 is engaged with the end of the gear shaft 13221, the knob 191 is rotated to drive the gear shaft 13221 engaged therewith to rotate, one gear shaft 13221 rotates and under the action of the ring filter 13222, the other gear shaft 13221 synchronously rotates, and the ring filter 13222 rotates along with the rotating shaft to realize the switching of the semitransparent color patterns, and a user can change the atmosphere lamp 100 to the semitransparent color pattern as required by twisting the knob 191.

The atmosphere lamp 100 further comprises a circuit board 171 assembly 170, the circuit board 171 assembly 170 comprises a circuit board 171 and related electronic components 172, the electronic components 172 can be, but are not limited to, resistors, capacitors, inductors, and the like, the circuit board 171 assembly 170 is disposed in the receiving cavity 1111 of the base 110, and the circuit board 171 assembly 170 is electrically connected to the lamp panel 1323 to drive the LED light source 13231.

The atmosphere lamp 100 further includes a conductive wire 192, the conductive wire 192 is used to electrically connect the circuit board 171 assembly 170 and the lamp panel 1323, so as to provide a driving current for the lamp panel 1323, and a designer regarding routing of the conductive wire 192 can hide the conductive wire 192 in the vertical rod 121 and the universal tube 122 according to actual requirements. By hiding the electric conduction in the vertical rod 121 and the universal tube 122, on one hand, the overall aesthetic degree of the atmosphere lamp 100 is improved, and on the other hand, the use safety of the atmosphere lamp 100 is improved.

The ambience lamp 100 further comprises a battery 180, the battery 180 providing the ambience lamp 100 with the required electrical energy, the battery 180 being arranged within the accommodation chamber 1111 of the base 110 and being electrically connected with the circuit board 171 assembly 170. By designing battery 180 into battery 180, electrical energy can be stored in preparation for normal use of atmosphere lamp 100 during a power outage, enhancing the applicability of atmosphere lamp 100.

The atmosphere lamp 100 further includes a charging interface (not shown), which is located on a sidewall of one side of the base 110, and is configured to be connected to an external power adapter to charge the battery 180. The battery 180 is charged through the charging port, so that the operation of frequently replacing the battery 180 is reduced and the pollution of the battery 180 is reduced to play a role in environmental protection compared with the disposable battery 180.

The same or similar reference numerals in the drawings of the present embodiment correspond to the same or similar components; in the description of the present application, it is to be understood that if there is an orientation or positional relationship indicated by the terms "upper", "lower", "left", "right", etc. based on the orientation or positional relationship shown in the drawings, it is only for convenience of description and simplification of description, but it is not intended to indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and therefore, the terms describing the positional relationship in the drawings are only for illustrative purposes and are not to be construed as limitations of the present patent, and specific meanings of the above terms may be understood by those skilled in the art according to specific situations.

The above description is only exemplary of the present application and should not be taken as limiting the present application, as any modification, equivalent replacement, or improvement made within the spirit and principle of the present application should be included in the protection scope of the present application.