CN219889404U - Atmosphere lamp - Google Patents

Abstract

The utility model relates to the technical field of illumination, and discloses an atmosphere lamp, which comprises a light assembly and a support assembly; the supporting component is used for supporting the atmosphere lamp, and the lamplight component comprises a lighting piece and at least two mole pattern forming pieces; the mole pattern forming piece is arranged on the supporting component, and the illuminating piece is used for illuminating the mole pattern forming piece; the mole pattern forming pieces are arranged side by side in sequence; the mole pattern forming member includes an inner ring and a mole pattern forming structure mounted in the inner ring, the inner ring being mounted on the support assembly, the mole pattern forming structure being rotatably mounted in the inner ring. According to the atmosphere lamp, the inner ring is arranged to fix the mole pattern forming structure, so that the mole pattern forming structure can rotate stably, and the formed mole pattern change effect is good; the mole pattern can be changed by the rotation of the mole pattern forming structure, and the generated dynamic visual effect is rich.

Description

Atmosphere lamp

Technical Field

The utility model relates to the technical field of illumination, in particular to an atmosphere lamp.

Background

Moire is an optical phenomenon, typically formed between two parallel, transparent and non-reflective surfaces. When air or other medium exists between the two surfaces, the incident light rays are refracted and then interfere between the two surfaces, so that stripe or annular patterns with alternately light and dark phases are formed. These stripes or ring patterns are referred to as moire patterns.

Moire lamps and lanterns are the decorative lamps and lanterns that make use of Moire phenomenon to make. Moire lamps interfere to form a Moire pattern by passing light through a transparent film or medium. At present, the Moire lamp realizes Moire effect through the movement of the lamp shade, the movement is unstable, the formed Moire change effect is poor, and the generated dynamic visual effect is not abundant enough.

Disclosure of Invention

The utility model aims to provide an atmosphere lamp, wherein a mole pattern forming piece moves stably, the formed mole pattern has good change effect, and the generated dynamic visual effect is rich.

The utility model discloses an atmosphere lamp, which comprises a light assembly and a support assembly; the supporting component is used for supporting the atmosphere lamp, and the lamplight component comprises a lighting piece and at least two mole pattern forming pieces; the mole pattern forming piece is arranged on the supporting component, and the illuminating piece is used for illuminating the mole pattern forming piece; the mole pattern forming pieces are arranged side by side in sequence; the mole pattern forming member includes an inner ring and a mole pattern forming structure mounted in the inner ring, the inner ring being mounted on the support assembly, the mole pattern forming structure being rotatably mounted in the inner ring.

Optionally, the supporting component comprises a mounting seat, the atmosphere lamp further comprises a driving component, the inner ring and the driving component are mounted on the mounting seat, the driving component is in transmission connection with the mole pattern forming structure, and the driving component drives the mole pattern forming structure to rotate.

Optionally, the two mole pattern forming members are arranged, the driving assembly comprises a driving sub-assembly and a transmission sub-assembly, the driving sub-assembly is connected with the transmission sub-assembly, and the transmission sub-assembly is respectively contacted with the two mole pattern forming structures so as to drive the two mole pattern forming structures to rotate at the same time, and the rotation directions of the two mole pattern forming structures are opposite.

Optionally, the driving subassembly comprises a first motor, the transmission subassembly comprises a first transmission member and a second transmission member, and the first motor is connected with the first transmission member; the first transmission part is arranged on the inner side wall of the first transmission cavity, and is contacted with the inner side wall of the first transmission cavity to drive the second transmission part; the side surface of one end of the second transmission piece far away from the first transmission piece is respectively contacted with the two mole pattern forming structures to drive the two mole pattern forming structures to rotate simultaneously, and the rotation directions are opposite.

Optionally, a first friction ring is sleeved on the first transmission member, and the first friction ring is contacted with the inner side wall of the first transmission cavity; one end of the second transmission piece far away from the first transmission piece is sleeved with a second friction ring, and the second friction rings are respectively in structural contact with the two mole patterns.

Optionally, the driving subassembly further comprises a second motor, the driving subassembly further comprises a third driving piece, the supporting assembly further comprises a supporting rod, and the mounting seat is rotatably mounted on the supporting rod; a second transmission cavity is formed in one end, connected with the support rod, of the mounting seat, the second motor is connected with a third transmission piece, a third friction ring is sleeved on the third transmission piece, and the third friction ring is in contact with the inner wall surface of the second transmission cavity.

Optionally, a mounting groove is formed in the mounting seat, and the inner ring is mounted in the mounting groove.

Optionally, the atmosphere lamp further comprises an outer ring, wherein the outer ring is arranged on the supporting component, and the outer ring is arranged around the mole pattern forming piece in a circle.

Optionally, a circle of clamping groove is formed in the inner wall surface of the inner ring, a first roller is installed in the clamping groove, the mole pattern forming structure is installed in the clamping groove, and the first roller supports the mole pattern forming structure; the inner wall surface of the inner ring is provided with a second roller, the second roller is positioned at the edge of the clamping groove, and the rolling surface of the second roller is contacted with the side surface of the mole pattern forming structure; or (b)

The lighting piece is arranged on the inner wall surface of the inner ring; or (b)

The atmosphere lamp further comprises an outer ring, the outer ring is arranged on the supporting component, and the outer ring is arranged around the mole pattern forming piece in a circle; the illumination piece is installed on the inner wall surface of the outer ring.

Optionally, the Moire pattern forming structure is a transparent plate, and the transparent plate is provided with a plurality of lines which are sequentially arranged; or (b)

The Moire pattern forming structure comprises a mounting ring and a silk thread, wherein the mounting ring is arranged in the inner ring, and the silk thread is sequentially arranged in the mounting ring; or (b)

The Moire pattern forming structure comprises a mounting ring and wires, wherein the mounting ring is arranged in the inner ring, the wires are sequentially arranged in the mounting ring, and the wires are metal wires or optical fibers.

According to the atmosphere lamp, at least two mole pattern forming pieces are arranged on the supporting component, and mole pattern patterns are formed by mutually overlapping at least two mole pattern forming structures. The inner ring is arranged to fix the mole pattern forming structure, so that the rotation of the mole pattern forming structure is stable, and the formed mole pattern change effect is good; the mole pattern can be changed by the rotation of the mole pattern forming structure, and the generated dynamic visual effect is rich.

Drawings

The accompanying drawings, which are included to provide a further understanding of embodiments of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the principles of the utility model. It is evident that the figures in the following description are only some embodiments of the utility model, from which other figures can be obtained without inventive effort for a person skilled in the art. In the drawings:

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

FIG. 2 is a schematic view of a light assembly according to an embodiment of the present utility model;

FIG. 3 is a schematic view of a moire formation member and mount according to an embodiment of the present utility model;

FIG. 4 is a schematic diagram of a Moire pattern formation structure according to an embodiment of the present utility model;

FIG. 5 is another schematic illustration of a Moire pattern formation structure according to an embodiment of the present utility model;

FIG. 6 is a schematic view of an inner ring of an embodiment of the present utility model.

Fig. 7 is an enlarged schematic view at a in fig. 6.

Fig. 8 is an enlarged schematic view at B in fig. 6.

Fig. 9 is a schematic view of a mounting base according to an embodiment of the present utility model.

Fig. 10 is a cross-sectional view of a mounting base and a drive assembly according to an embodiment of the utility model.

1, a lamplight assembly; 2. a mole pattern forming member; 21. an inner ring; 211. a clamping groove; 212. a first roller; 213. a second roller; 22. moire formation structure; 221. a mounting ring; 222. a silk thread; 223. a transparent plate; 223a, lines; 3. a support assembly; 31. a mounting base; 311. a second transmission chamber; 312. a mounting groove; 32. a support rod; 321. a connecting rod; 33. a base; 4. a drive assembly; 41. a drive subassembly; 411. a second motor; 412. a first motor; 42. a transmission subassembly; 421. a first transmission member; 421a, a first friction ring; 422. a second transmission member; 422a, a first transmission chamber; 422b, a second friction ring; 423. a third transmission member; 423a, a third friction ring; 5. a first rubber band; 6. an outer ring.

Detailed Description

It is to be understood that the terminology used herein, the specific structural and functional details disclosed are merely representative for the purpose of describing particular embodiments, but that the utility model may be embodied in many alternate forms and should not be construed as limited to only the embodiments set forth herein.

The utility model is described in detail below with reference to the attached drawings and alternative embodiments.

As shown in fig. 1 to 10, as an embodiment of the present utility model, an atmosphere lamp is disclosed, comprising a light assembly 1 and a support assembly 3; the support assembly 3 is used for supporting an atmosphere lamp, and the light assembly 1 comprises a lighting piece and at least two moire forming pieces 2; the moire formation member 2 is mounted on the support member 3, and the illumination member is used to illuminate the moire formation member 2; the mole pattern forming pieces 2 are arranged side by side in sequence; the moire formation member 2 includes an inner ring 21 and a moire formation structure 22, the moire formation structure 22 being mounted in the inner ring 21, the inner ring 21 being mounted on the support member 3, the moire formation structure 22 being rotatably mounted in the inner ring 21.

In the atmosphere lamp of the present utility model, at least two moire formation members 2 are provided on the support member 3, and a moire pattern is formed by overlapping at least two moire formation structures 22 with each other. The inner ring 21 is arranged to fix the mole pattern forming structure 22, so that the mole pattern forming structure 22 can rotate stably, and the formed mole pattern change effect is good; the mole pattern can be changed by rotating the mole pattern forming structure 22, and the generated dynamic visual effect is rich.

The lighting piece can be installed in actual need, the utility model is not particularly limited, the lighting piece is utilized to irradiate the mole pattern forming piece 2, the lighting effect of the lighting piece is realized, and meanwhile, the visual effect of the mole pattern is more obvious, so that the combined visual effect of illumination and the mole pattern can be realized, and the visual effect is rich. When the rotary moire formation structure 22 rotates in the inner race 21, the formation moire pattern style is changed accordingly, thereby exhibiting a rich visual effect. Dynamic visual effects may be produced if the moire formation structure 22 continues to rotate. The moire formation member 2 may have two, three, four or even more.

Optionally, the support assembly 3 comprises a mounting seat 31, the atmosphere lamp further comprises a driving assembly 4, the inner ring 21 and the driving assembly 4 are mounted on the mounting seat 31, the driving assembly 4 is in transmission connection with the moire formation structure 22, and the driving assembly 4 drives the moire formation structure 22 to rotate. The driving component 4 drives the mole pattern forming structure 22 to rotate, so that the driving is convenient, and the rotation control is simple.

Specifically, the number of the moire formation members 2 is two, that is, the number of the moire formation structures 22 is also two. The two moire formation structures 22 are driven by the driving component 4 to mutually reversely rotate in the inner ring 21, so that the positions of the moire formation structures 22 are changed, the overlapped part is shielded to generate interference phenomenon, and a dynamic moire pattern is formed. Meanwhile, the driving assembly 4 can also drive the inner ring 21 to rotate on the supporting assembly 3, and the inner ring 21 drives the mole pattern forming structure 22 to synchronously rotate, so that the dynamic change of the formed mole pattern is richer. In this way, the atmosphere lamp mole pattern forming member 2 of the present utility model is more varied in rotation manner.

Alternatively, there are two mole pattern forming members 2, the driving assembly 4 includes a driving subassembly 41 and a transmission subassembly 42, the driving subassembly 41 is connected with the transmission subassembly 42, the transmission subassembly 42 is respectively contacted with the two mole pattern forming structures 22 to simultaneously drive the two mole pattern forming structures 22 to rotate, and the rotation directions of the two mole pattern forming structures 22 are opposite. The transmission subassembly 42 drives two mole line formation structures 22 simultaneously and rotates in opposite directions, and the rotation rhythm and the speed of the two mole line formation structures 22 are consistent, so that the rotation is stable, the dynamic change is stable when the mole line formation structures 22 continuously rotate, and the visual effect is better. Meanwhile, the two mole pattern forming structures 22 can be driven to rotate through one transmission subassembly 42, and the structure is simple while the two mole pattern forming structures 22 are driven.

Specifically, the driving subassembly 41 is located below the transmission subassembly 42, the driving subassembly 41 is operated, the driving subassembly 41 drives the transmission subassembly 42 to rotate, two sides of the rotating part at the top of the transmission subassembly 42 are respectively in transmission contact with the two mole pattern forming structures 22, and the rotation of the transmission subassembly 42 can drive the two mole pattern forming structures 22 to mutually reversely rotate in the inner ring 21 under the action of friction force.

Optionally, the driving subassembly 41 comprises a first motor 412, the transmission subassembly 42 comprises a first transmission member 421 and a second transmission member 422, the first motor 412 is connected to the first transmission member 421; the second transmission member 422 is provided with a first transmission cavity 422a near one end of the first transmission member 421, and the first transmission member 421 is contacted with the inner side wall of the first transmission cavity 422a to drive the second transmission member 422; the side surfaces of the end of the second transmission member 422 away from the first transmission member 421 are respectively contacted with the two mole pattern forming structures 22 to drive the two mole pattern forming structures 22 to rotate simultaneously, and the rotation directions are opposite. Through set up first transmission chamber 422a on second driving medium 422, thereby first driving medium 421 contacts with the inside wall in first transmission chamber 422a drives second driving medium 422 and rotates, realizes the drive to second driving medium 422, on satisfying two mole line formation structure 22 rotatory basis, simple structure, the transmission is reliable and stable, is difficult to appear the poor problem of transmission cooperation.

Specifically, the first transmission member 421 is inserted onto the rotating shaft at the top of the first motor 412, the side surface of the first transmission member 421 abuts against the inner side wall of the first transmission cavity 422a, so as to increase the stability of the structure of the driving assembly 4, one end of the second transmission member 422, which is close to the first transmission member 421, is the bottom of the second transmission member 422, and one end of the second transmission member 422, which is far away from the first transmission member 421, is the top of the second transmission member 422.

Optionally, a first friction ring 421a is sleeved on the first transmission member 421, and the first friction ring 421a contacts with the inner side wall of the first transmission cavity 422 a; the second transmission member 422 is provided with a second friction ring 422b sleeved on one end far away from the first transmission member 421, and the second friction rings 422b are respectively contacted with the two mole pattern forming structures 22. In this scheme, the first friction ring 421a is sleeved on the first transmission member 421, the first transmission member 421 contacts with the inner side wall of the first transmission cavity 422a through the first friction ring 421a, the friction force between the first transmission member 421 and the first transmission cavity 422 is improved, and the driving effect of the first transmission member 421 on the second transmission member 422 is better. Similarly, the second transmission member 422 is sleeved with the second friction ring 422b, the second transmission member 422 contacts with the two mole pattern forming structures 22 through the second friction ring 422b, friction force between the two friction rings is improved, and the second transmission member 422 has a better driving effect on the two mole pattern forming structures 22. Specifically, the first friction ring 421a is sleeved at a position of the first transmission member 421 near the top thereof, the first friction ring 421a contacts with the inner sidewall of the first transmission chamber 422a, the first friction ring 421a can increase the friction force between the first transmission member 421 and the inner sidewall of the first transmission chamber 422a, and the power of the first transmission member 421 driving the second transmission member 422 is increased in the rotation process; the second friction ring 422b can increase the friction force between the second transmission member 422 and the mole pattern forming structure 22, and increase the power of the second transmission member 422 driving the mole pattern forming structure 22 in the rotation process.

In particular, the first friction ring 421a and the second friction ring 422b may be provided in several, for example, one, two, three, or even more. The first friction ring 421a and the second friction ring 422b may be rubber rings or silicone rings, etc. The first friction ring 421a and the first friction ring 421a can be sleeved on the first transmission member 421 and the second transmission member 422, and a limiting groove can be formed in the position of the first friction ring 421a, so that the first friction ring 421a and the first friction ring 421a can be conveniently mounted by the limiting groove, and the mounting firmness is improved.

The second transmission piece 422 is also sleeved with a first rubber ring 5, the outer side wall of the first rubber ring 5 is clung to the inner wall of the installation cavity in the installation seat 31, and the second transmission piece 422 is installed and limited.

Optionally, the driving subassembly 41 further includes a second motor 411, the transmission subassembly 42 further includes a third transmission piece 423, the support assembly 3 further includes a support rod 32, and the mount 31 is rotatably mounted on the support rod 32; a second transmission cavity 311 is formed in one end, connected with the support rod 32, of the mounting seat 31, the second motor 411 is connected with a third transmission piece 423, a third friction ring 423a is sleeved on the third transmission piece 423, and the third friction ring 423a is in contact with the inner wall surface of the second transmission cavity 311. The third transmission piece 423 is inserted into the rotating shaft at the top of the second motor 411, the second motor 411 is driven, the second motor 411 drives the third transmission piece 423 to rotate, and the third friction ring 423a sleeved on the third transmission piece 423 can increase the friction force between the third transmission piece 423 and the inner wall surface of the second transmission cavity 311, so that the mounting seat 31 is driven to rotate relative to the support rod 32. The inner wall surface of the second transmission chamber 311 is the inner wall surface of the mount 31, and the third friction ring 423a can increase the rotational force of the mount 31, so that the entire inner ring 21 can rotate on the support rod 32 along with the mount 31.

Specifically, the mounting seat 31 is rotatably mounted on the top of the supporting rod 32, the mounting seat 31 is provided with a mounting groove 312, the inner ring 21 is mounted in the mounting groove 312, the mounting effect of the inner ring 21 is improved, and the inner ring 21 is firmly mounted. Specifically, the inner ring 21 may be fixedly mounted in the mounting groove 312 by screws, and the driving assembly 4 is disposed in the mounting seat 31 and the support rod 32. Specifically, the second motor 411 and the first motor 412 are juxtaposed within the support bar 32.

Specifically, the support assembly 3 further comprises a base 33, the support rod 32 is formed by a plurality of sections of round rods, the connection part of each section of round rod is connected through a threaded structure, the support rod 32 is installed on the base 33, the base 33 is in threaded connection with the bottommost section of round rod of the support rod 32 through the threaded structure on the base 33, and the support rod 32 and the base 33 fixedly support the atmosphere lamp.

Optionally, the atmosphere lamp further comprises an outer ring 6, the outer ring 6 is mounted on the support assembly 3, the outer ring 6 is arranged around the mole pattern forming member 2 for one circle, and the mole pattern forming member 2 is protected.

Specifically, two oppositely arranged connecting rods 321 are installed on the outer side wall of the upper end of the supporting rod 32, two ends of the outer ring 6 are fixed on the two connecting rods 321 supporting rod 32, and the outer ring 6 surrounds the periphery of the mole pattern forming piece 2 with a gap.

Optionally, a circle of clamping groove 211 is formed on the inner wall surface of the inner ring 21, a first roller 212 is installed in the clamping groove 211, the mole pattern forming structure 22 is installed in the clamping groove 211, and the first roller 212 supports the mole pattern forming structure 22; the second roller 213 is installed on the inner wall surface of the inner ring 21, the second roller 213 is located at the edge of the clamping groove 211, and the rolling surface of the second roller 213 contacts with the side surface of the mole pattern forming structure 22. The first roller 212 supports the moire formation structure 22 while reducing the resistance to rotation of the moire formation structure 22 during rotation of the moire formation structure 22. The second roller 213 is located at the edge of the clamping groove 211, the rolling surface of the second roller 213 contacts with the side surface of the mole pattern forming structure 22, and the second roller 213 can limit the mole pattern forming structure 22 and further reduce the resistance of the mole pattern forming structure 22 to rotate.

Specifically, the first rollers 212 are provided in plurality, the first rollers 212 are installed in the clamping grooves 211 of the inner ring 21 at intervals, and the first rollers 212 are located at the bottom of the moire formation structure 22.

For the mounting of the illumination member, in an embodiment in which the illumination member is mounted on the inner wall surface of the inner ring 21, direct irradiation of the moire formation can be achieved. In another embodiment, the atmosphere lamp further comprises an outer ring 6, the outer ring 6 is mounted on the support assembly 3, and the outer ring 6 is arranged around the mole pattern forming member 2 for one circle; the illumination piece is installed on the inner wall surface of the outer ring 6, the installation space of illumination is larger, and the installation is more convenient. Meanwhile, when the inner ring 21 rotates relative to the supporting component 3, the illumination included angle between the illumination piece and the mole pattern forming piece 2 is larger, and the mole pattern forming structure 22 is fully illuminated.

Specifically, the lighting element may be an LED strip, an LED bead, or other articles with a lighting effect, and the lighting element may be disposed on the inner wall of the outer ring 6 or the inner wall of the inner ring 21.

For the embodiment of the Yu Er pattern forming structure, in an embodiment, the mole pattern forming structure 22 may be a transparent plate 223, and the transparent plate 223 is provided with a plurality of lines 223a arranged in sequence; the transparent plate 223 may be an acrylic plate or may be made of other materials. A plurality of lines 223a arranged in sequence are printed on the transparent plate 223 using photosensitive ink. The transparent plate 223 is more simply and conveniently manufactured and installed. In another embodiment, the moire formation structure 22 includes a mounting ring 221 and a wire 222, the mounting ring 221 being mounted in the inner ring 21, the wire 222 being mounted in the mounting ring 221 in sequence. The wire 222 comprises a wire of any material, such as a metal wire 222 or an optical fiber, etc. Preferably, the wires 222 are metal wires or optical fibers, which have high structural strength, are not easily damaged, and produce good light effect.

The above description of the utility model in connection with specific alternative embodiments is further detailed and it is not intended that the utility model be limited to the specific embodiments disclosed. It will be apparent to those skilled in the art that several simple deductions or substitutions may be made without departing from the spirit of the utility model, and these should be considered to be within the scope of the utility model.

Claims (10)

1. An atmosphere lamp is characterized by comprising a light assembly and a support assembly; the supporting component is used for supporting the atmosphere lamp, and the lamplight component comprises a lighting piece and at least two mole pattern forming pieces; the mole pattern forming piece is arranged on the supporting component, and the illuminating piece is used for illuminating the mole pattern forming piece; the mole pattern forming pieces are arranged side by side in sequence;

the mole pattern forming member includes an inner ring and a mole pattern forming structure mounted in the inner ring, the inner ring being mounted on the support assembly, the mole pattern forming structure being rotatably mounted in the inner ring.

2. The atmosphere lamp of claim 1, wherein the support assembly comprises a mounting base, the atmosphere lamp further comprises a driving assembly, the inner ring and the driving assembly are mounted on the mounting base, the driving assembly is in transmission connection with the moire formation structure, and the driving assembly drives the moire formation structure to rotate.

3. The atmosphere lamp of claim 2, wherein the moire-forming member has two, the driving assembly includes a driving subassembly and a driving subassembly, the driving subassembly is connected with the driving subassembly, the driving subassembly is respectively contacted with the two moire-forming structures to simultaneously drive the two moire-forming structures to rotate, and the rotation directions of the two moire-forming structures are opposite.

4. An atmosphere lamp as claimed in claim 3, characterized in that the drive subassembly comprises a first motor, the drive subassembly comprising a first drive member and a second drive member, the first motor being connected to the first drive member; the first transmission part is arranged on the inner side wall of the first transmission cavity, and is contacted with the inner side wall of the first transmission cavity to drive the second transmission part; the side surface of one end of the second transmission piece far away from the first transmission piece is respectively contacted with the two mole pattern forming structures to drive the two mole pattern forming structures to rotate simultaneously, and the rotation directions are opposite.

5. The atmosphere lamp of claim 4, wherein the first transmission member is sleeved with a first friction ring, and the first friction ring is in contact with the inner side wall of the first transmission cavity; one end of the second transmission piece far away from the first transmission piece is sleeved with a second friction ring, and the second friction rings are respectively in structural contact with the two mole patterns.

6. The atmosphere lamp of claim 2, wherein the drive subassembly further comprises a second motor, the drive subassembly further comprises a third drive member, the support assembly further comprises a support rod, and the mount is rotatably mounted on the support rod; a second transmission cavity is formed in one end, connected with the support rod, of the mounting seat, the second motor is connected with a third transmission piece, a third friction ring is sleeved on the third transmission piece, and the third friction ring is in contact with the inner wall surface of the second transmission cavity.

7. An atmosphere lamp as claimed in any one of claims 2 to 6, wherein the mounting base is provided with a mounting groove in which the inner ring is mounted.

8. The atmosphere lamp according to any one of claims 1 to 6, further comprising an outer ring mounted on the support assembly, the outer ring being disposed circumferentially around the moire formation member.

9. The atmosphere lamp according to any one of claims 2 to 6, wherein a ring of the clamping groove is formed in the inner wall surface of the inner ring, a first roller is installed in the clamping groove, the mole pattern forming structure is installed in the clamping groove, and the first roller supports the mole pattern forming structure; the inner wall surface of the inner ring is provided with a second roller, the second roller is positioned at the edge of the clamping groove, and the rolling surface of the second roller is contacted with the side surface of the mole pattern forming structure; or (b)

The lighting piece is arranged on the inner wall surface of the inner ring; or (b)

The atmosphere lamp further comprises an outer ring, the outer ring is arranged on the supporting component, and the outer ring is arranged around the mole pattern forming piece in a circle; the illumination piece is installed on the inner wall surface of the outer ring.

10. An atmosphere lamp according to any one of claims 2 to 6, wherein the moire formation structure is a transparent plate provided with a plurality of lines arranged in sequence; or (b)

The Moire pattern forming structure comprises a mounting ring and a silk thread, wherein the mounting ring is arranged in the inner ring, and the silk thread is sequentially arranged in the mounting ring; or (b)

The Moire pattern forming structure comprises a mounting ring and wires, wherein the mounting ring is arranged in the inner ring, the wires are sequentially arranged in the mounting ring, and the wires are metal wires or optical fibers.