CN210800999U - Candle lamp with smoke effect - Google Patents

Abstract

The utility model relates to a take candle lamp of smog effect includes at least: a water tank capable of storing a liquid for atomization; an atomizing portion in communication with the water tank such that the liquid can enter the atomizing portion to form a mist; the light-emitting part is provided with at least one light source to emit light with set color, wherein the light-emitting part is detachably connected to the water tank and communicated with the atomization part, so that the fog can enter the light-emitting part and can leave the light-emitting part from a fog-emitting area between a first end part and a second end part of the light-emitting part, the projection of the fog leaving the light-emitting part in the direction perpendicular to a central axis plane jointly defined by the first end part and the second end part can intersect with the light-emitting part, and the light-emitting part close to the second end part can be used for forming a backlight structure which supports the fog leaving the light-emitting part.

Description

Candle lamp with smoke effect

Technical Field

The utility model belongs to the decorative lamp field especially relates to a take candle lamp of smog effect.

Background

The existing atomizing decorative lamp which generates water mist by ultrasonic waves is a popular home or stage decoration, can generate a scene of floating bubbles of mist and light transformation which are combined to form the illusion floating bubbles, and the generated mist can also play a role in humidifying air, so that the corresponding product is deeply loved by the masses of users.

Patent document with publication number CN207113116U discloses a night lamp humidifier, which comprises a water tank, a water tank cover shell, a water absorption rod, an atomization lighting device and a lampshade, wherein the inside of the water tank cover shell is fixedly sleeved with a water tank cover upper shell and a water tank cover bottom shell, and the water absorption rod is arranged inside the water tank cover upper shell; the circuit board is arranged at the lower end of the upper shell of the water tank cover, the atomization lighting device comprises a transparent upper cover and a transparent lower cover, and atomization sheets, an atomization sheet bracket and a lamp panel are arranged in the transparent upper cover and the transparent lower cover; the lampshade is sleeved on the periphery of the atomization lighting device. The water absorption rod of the night lamp humidifier is divided into three parts, so that the water absorption rod can absorb water for the atomization sheet to work, and meanwhile, the bracket stably supports the atomization lighting device; the lamp shade is a paper material component, can change different molding according to practical application, and not only the environmental protection, elegant appearance moreover cooperates humidification effect and light effect and uses together for equipment has more practicality and interest. However, it cannot ensure the close contact between the water absorption rod and the atomizing sheet, and cannot ensure the reliability of atomization. Meanwhile, the generated mist is discharged from the topmost end of the simulated candle head, and in a use environment such as the night, the generated mist disappears in the night quickly and is invisible due to the limited illumination range of the simulated candle head, namely the generated mist lacks a necessary backlight structure to support the mist so as to prolong the visible time of the mist, and further the purpose of creating a burning fragrance mood cannot be achieved.

Moreover, on the one hand, since the skilled person in the art who is understood by the applicant is necessarily different from the examination department; on the other hand, since the inventor studied a lot of documents and patents when making the present invention, but the space limit did not list all details and contents in detail, however, this is by no means the present invention does not possess these prior art features, on the contrary the present invention has possessed all features of the prior art, and the applicant remains the right to increase the related prior art in the background art at any time according to the related provisions of the examination guideline.

SUMMERY OF THE UTILITY MODEL

The word "module" as used herein describes any type of hardware, software, or combination of hardware and software that is capable of performing the functions associated with the "module".

Not enough to prior art, the utility model provides a take candle lamp of smog effect includes at least: a water tank capable of storing a liquid for atomization; an atomizing portion in communication with the water tank such that the liquid can enter the atomizing portion to form a mist; the light emitting part is provided with at least one light source to emit light with set color, wherein the light emitting part is detachably connected to the water tank and communicated with the atomization part, so that the fog can enter the light emitting part, the fog can leave the light emitting part from a fog outlet area between a first end part and a second end part of the light emitting part, the projection of the fog leaving the light emitting part in the direction perpendicular to a central axis plane defined by the first end part and the second end part together can intersect with the light emitting part, and the light emitting part close to the second end part can be used for forming a backlight structure which supports the fog leaving the light emitting part.

According to a preferred embodiment, the light source can be disposed inside the light-emitting portion so that the light-emitting portion can assume a light-emitting form in which the luminance gradually changes in an axial direction defined by the first end portion and the second end portion in common, wherein: the luminance of the backlight structure and the luminance of the fog-out region can be different from each other, so that the visibility of fog leaving the light-emitting portion in the axial direction can assume a varying form under the common setback of the backlight structure and the fog-out region.

According to a preferred embodiment, the area of a cross section of the light-emitting portion perpendicular to the axial direction in the axial direction can be continuously changed from a first set value defined by a first end to a second set value defined by a second end, so that a projection of the light-emitting portion in a plane perpendicular to the cross section can assume a smooth curved form.

According to a preferred embodiment, the mist outlet area is provided with a plurality of mist outlet openings, and the extending direction of each mist outlet opening can be parallel to the axial direction, wherein: the light emitting part can present a light emitting form with gradually reduced brightness in the axial direction, so that a connecting line of the light source and the mist outlet can be not perpendicular to the axial direction, and an invisible state that the light source is blocked by the mist outlet in the direction perpendicular to the axial direction is formed.

According to a preferred embodiment, the atomizing part is communicated with the light emitting part to define at least one mist inlet, and a connecting line of the at least one mist inlet and the mist outlet area can be approximately parallel to the axial direction, so that the mist can not be blocked by the mist outlet when entering the mist outlet from the mist inlet at a set speed, and further can present a flow form with the set speed being basically kept unchanged.

According to a preferred embodiment, the atomizing part can at least comprise an atomizing sheet and a water absorbing rod, and the water absorbing rod can continuously apply pressure with a set size to the atomizing sheet, so that the water absorbing rod can be tightly attached to the atomizing sheet.

According to a preferred embodiment, the nebulization segment further comprises a holding tube and a compression spring arranged in the holding tube, the nebulization flap being able to abut against an end connected to the holding tube, wherein: under the condition that the water absorption rod is arranged in the accommodating pipe so that the compression spring is in a compressed state, the water absorption rod can be tightly attached to the atomizing sheet in a mode of applying pressure with a set magnitude to the atomizing sheet.

According to a preferred embodiment, the second end portion may be defined by a point or a plane, and a geometric center of the second end portion and a first line connecting the geometric centers of the second end portion and the first end portion may form a set angle with a second line connecting the geometric centers of the second end portion and the first end portion, respectively, so that the light emitting portion may exhibit light emitting forms different in luminance from each other on both sides of the first line.

The utility model also provides a light-emitting device, light-emitting device includes at least one illuminating part, and the fog that produces after the liquid atomization can get into the illuminating part, wherein: the mist can leave the light-emitting part from a mist-emitting area between a first end and a second end of the light-emitting part, so that a projection of the mist leaving the light-emitting part in an axial direction defined by the first end and the second end together can intersect the light-emitting part, and thereby a backlight structure for supporting the mist leaving the light-emitting part is formed.

According to a preferred embodiment, the light-emitting part has at least one light source for emitting light of a set color, wherein: the light source can be arranged inside the light-emitting part, so that the light-emitting part can present a light-emitting form with gradually changing brightness in an axial direction jointly defined by the first end part and the second end part, wherein: the luminance of the backlight structure and the luminance of the fog emergence region can be different from each other, so that the visibility of fog leaving the light emission portion in the axial direction can take on a varying form against the backlight structure.

The utility model has the advantages of: the utility model discloses a set up compression spring, the elasticity through compression spring will absorb water the stick and support tightly and lean on the atomizing piece, and then can guarantee the reliable stability of atomization effect.

Drawings

FIG. 1 is a schematic view of a preferred candle lamp according to the present invention;

FIG. 2 is a left side view of the candle lamp of FIG. 1; and

fig. 3 is a right side view of the candle lamp of fig. 1.

List of reference numerals

1: a water tank 2: atomizing part 3: light emitting part

4: first stationary case 5: second stationary case 6: a first accommodating space

7: simulated candle head 8: second accommodation space 9: fixing hole

10: connecting pipe 11: mist outlet 12: water inlet

13: backlight structure 14: mist inlet 15: first connecting line

16, a second connecting line 17, a middle axial surface α with a set included angle

2 a: atomizing sheet 2 b: water-absorbing rod 2 c: accommodating tube

2 d: compression spring 3 a: and (3 b) lamp beads: main board

3 c: first end portion 3 d: second end portion

Detailed Description

The following detailed description is made with reference to the accompanying drawings.

Example 1

As shown in fig. 1 to 3, the utility model provides a take candle lamp of smog effect, include: a water tank 1 capable of storing a liquid for atomization. The liquid may be clear water. And an atomizing part 2 communicating with the water tank 1 to enable liquid to enter the atomizing part 2 to form mist. A light emitting part 3 having at least one light source to emit light of a set color, wherein the light emitting part 3 is detachably connected to the water tank 1 and communicates with the atomizing part 2 so that mist can enter the light emitting part 3. Specifically, the light emitting part 3 may have a lamp bead 3a capable of emitting colors such as red light, white light, yellow light, and the like, thereby realizing emission of light of a set color. The light source may be a lamp bead 3 a. For example, the light emitting portion 3 can emit light of a reddish color, thereby forming a lighting effect similar to a candle flame or a candle flame. Simultaneously, under the illumination effect of the light that the illuminating part 3 gived off, the fog that atomizing part 2 produced can form the fragrant atmosphere of burning of similar tobacco column, in order to build the fragrant atmosphere of burning among the prior art, what often adopted is entity fragrant candle, and entity fragrant candle arouses the conflagration when burning easily, and the gas that its burning produced also can cause the pollution to the environment simultaneously. And the utility model discloses a mode of light irradiation fog builds the atmosphere of burning incense, can avoid the emergence of conflagration and the pollution to the environment.

Preferably, the mist is able to leave the light emitting portion 3 from a mist generating region between the first end 3c and the second end 3d of the light emitting portion 3, such that a projection of the mist leaving the light emitting portion 3 in a direction perpendicular to a medial axis plane 17 jointly defined by the first end 3c and the second end 3d is able to intersect the light emitting portion 3, wherein the light emitting portion 3 close to the second end 3d is able to be used for forming a backlight structure 13 which is able to foil the mist leaving the light emitting portion 3. Specifically, as shown in fig. 1, the axial direction can be perpendicular to the first end 3c or the second end 3 d. I.e. the axial direction may be a vertically upward or a vertically downward direction. The projection formed by the fog level of the discharged light emitting part 3 to the right can intersect with the part of the light emitting part 3 located above the fog outlet 11, and the backlight structure 13 can refer to the part of the light emitting part 3 located above the fog outlet 11. As shown in fig. 1, the central axis plane 17 refers to a plane perpendicular to both the first end portion and the second end portion and perpendicular to the viewing plane at the viewing angle of fig. 1. Among the prior art, the fog that produces is discharged by the topmost of emulation candle head, in the service environment at night for example, because the illumination zone of emulation candle head is limited for the fog that produces disappears in night very fast and presents invisible state, the utility model discloses a fog is discharged by the play fog region between the first end 3c of illuminating part and the second end 3d for the part that is located on the fog mouth 11 of illuminating part 3 can constitute backlight 13 and set off in the palm in order to fog, thereby can prolong its visible time, and then reaches the purpose of building the fragrant mood of burning.

Preferably, the light source can be disposed inside the light emitting portion 3, so that the light emitting portion 3 can present a light emitting form with gradually changing luminance in an axial direction defined by the first end portion 3c and the second end portion 3d together, wherein: the luminance of the backlight structure 13 and the luminance of the fog-out region can be different from each other, so that the visibility of fog leaving the light-emitting portion 3 in the axial direction can assume a varying morphology, subject to the common setback of the backlight structure 13 and the fog-out region. Specifically, as shown in fig. 1, the linear distance between the backlight structure 13 and the light source and the linear distance between the fog-out area and the light source can be different from each other, so that the brightness of the backlight structure 13 and the brightness of the fog-out area can be different from each other. For example, when the distance between the backlight structure 13 and the light source is greater than the distance between the fog region and the light source, the brightness of the backlight structure 13 is less than the brightness of the fog region. That is, the farther away from the light source, the smaller the luminance. Due to the difference of the respective brightness of the backlight structure 13 and the fog-emitting area, the visibility of the fog leaving the light-emitting part 3 can be changed, and the purpose of simulating the smoke-turning environment in the burning incense can be achieved.

Preferably, in the axial direction, the area of the cross section of the light-emitting portion 3 perpendicular to the axial direction can be continuously changed from the first set value defined by the first end portion 3c to the second set value defined by the second end portion 3d, so that the projection of the light-emitting portion 3 in the plane perpendicular to the cross section can take on a smooth curved form. Specifically, as shown in fig. 1, the first setting value can be continuously changed to the second setting value, so that the projection of the light emitting unit 3 can take a smooth curved form. The smooth curve shape means that the outer contour of the simulated candle head 7 is in a curve shape instead of a step shape, so that the whole shape of the light emitting part 3 is smooth and mellow, a better light transmission effect can be achieved, and the problem that the corners of the step are too dark due to different observation angles in the step shape is solved.

Preferably, a plurality of mist outlets 11 are arranged on the mist outlet area, and the extending direction of each mist outlet 11 can be parallel to the axial direction, wherein: the light emitting portion 3 can exhibit a light emitting form in which the luminance gradually decreases in the axial direction, so that a line connecting the light source and the mist outlet 11 can be made not to be perpendicular to the axial direction, and an invisible state in which the light source is blocked by the mist outlet 11 in the direction perpendicular to the axial direction is formed. Specifically, as shown in fig. 1, the distance between the light source and the first end 3c can be smaller than the distance between the light source and the second end 3d, so that the light emitting section 3 can exhibit a light emitting form in which the luminance gradually decreases in the axial direction. At this time, since the light source is located below the mist outlet 11, a connection line between the light source and the mist outlet 11 is not perpendicular to the axial direction. When the user stands on the left side of candle lamp and looks at the candle lamp horizontally right, the light source can be blocked by fog outlet 11 and is in an invisible state, and then the problem that the light source produced shoots directly the eyes is avoided.

Preferably, the atomizing part 2 communicates with the light emitting part 3 and thus defines at least one mist inlet 14. A connecting line between the mist inlet 14 and the mist outlet region can be substantially parallel to the axial direction, so that the mist can not be blocked by the mist outlet 11 when entering the mist outlet 11 from the mist inlet 14 at a set speed, and a flow form with the set speed basically kept unchanged is presented. Specifically, as shown in fig. 1, the connection line between the mist inlet 14 and the mist outlet region can be substantially parallel to the axial direction, which means that there may be an included angle smaller than a set value, which is not easily perceived by human eyes, for example, the included angle may be smaller than 2 °. The mist generated by the atomizing sheet 2a can move vertically upward at a set speed to enter the mist outlet 11, and since the extending direction of the mist outlet 14 is also vertical upward, the mist outlet 11 cannot block the mist or slightly blocks the mist, so that the set speed can be kept basically unchanged. The set speed may be determined based on the vibration frequency of the atomization plate. For example, the set speed may be 10 mm/s. The set speed is kept basically unchanged, namely the variation of the set speed is less than 2-10%.

Preferably, the second end portion 3d can be defined by a point or a plane, and the geometric center of the second end portion 3d and the first connecting line 15 of the light source can form a set angle α with the second connecting line 16 of the geometric center of each of the second end portion 3d and the first end portion 3c, so that the light emitting portion 3 can present light emitting patterns with different brightness from each other on both sides of the first connecting line 15. specifically, as shown in FIG. 1, the set angle α can be formed between the first connecting line 15 and the second connecting line, indicating that the light source is not disposed on the geometric center of the first end portion 3c, for example, as shown in FIG. 1, the light source can be disposed on the right side of the geometric center of the first end portion 3c, and further the brightness of the light emitting portion 3 on the left side of the first connecting line 15 can be smaller than the brightness thereof on the right side of the first connecting line 15. as shown in FIG. 1, when the candle is put into use against a wall, the left side of the first connecting line 15 faces a user, and further the light emitting portion 15 has a higher brightness, so that the wall can be used as a wall-supporting curtain wall.

Preferably, when the atomizing unit 2 includes at least the atomizing sheet 2a and the water absorbing rod 2b, the water absorbing rod 2b can be closely attached to the atomizing sheet 2a so as to apply a pressure of a predetermined magnitude to the atomizing sheet 2 a. Specifically, the atomizing part 2 further includes a housing tube 2c and a compression spring 2d provided in the housing tube 2 c. The atomizing plate 2a can abut against the end connected to the containing tube 2 c. For example, as shown in FIG. 1, a compression spring 2d is provided at the bottom end of the accommodating tube. The atomizing plate 2a can abut against the tip end connected to the accommodating tube 2 c. In the case where the water absorption rod 2b is provided in the housing tube 2c so that the compression spring 2d is in a compressed state, the water absorption rod 2b can be closely attached to the atomizing sheet 2a in such a manner as to apply a pressure of a set magnitude to the atomizing sheet 2 a. The set amount of pressure exerted by the water absorption rod 2b is defined by the compression spring 2d in a compressed state. Through compression spring for the stick that absorbs water can keep the state of closely laminating with atomizing piece 2a, thereby guarantees the reliable stability of atomization effect. The set pressure generated by the compression spring 2d can be controlled by controlling the degree of compression of the compression spring. For example, a set pressure may be set to 10N, by which pressure is sufficient to bring the water absorption rod against the atomizing plate. The magnitude F of the compression force of the compression spring can be determined by the formula F ═ -kx, where k is the spring constant of the compression spring. x is the amount of deformation of the compression spring. Specifically, assuming that the length of the accommodating tube 2c is L, the length of the water absorption rod 2b is M, and the initial length of the compression spring is N. When the water absorption rod 2b is fixed in the accommodating tube 2c, the compression spring is deformed by an amount x which is N- (L-M). The amount of deformation produced by the compression spring can thus be determined by the formula F-kx. If the set pressure needs to be adjusted, the k value can be changed by selecting springs with different thicknesses or changing the length M of the water absorption rod.

Preferably, the candle lamp further comprises a first stationary housing 4. The first stationary case 4 is connected to the water tank 1 so that the water tank 1 can assume a sealed state. For example, an external thread is arranged on the first fixing shell, and an internal thread is arranged on the water tank 1, so that the first fixing shell and the water tank can be connected through the thread, and the water tank is in a sealed state.

Preferably, the nebulizing part 2 is fixed on the first stationary shell 4 so that at least part of the containing tube 2c can be inserted inside the liquid. For example, when the liquid is injected into the water tank, two thirds of the total length of the accommodating tube 2c can be inserted into the liquid, so that the water sucking rod can suck enough liquid to be atomized by the atomizing plate. Preferably, the water absorption rod may be made of cotton, so that it can continuously transmit the liquid to the atomizing plate.

Preferably, the candle lamp further comprises a second stationary shell 5, the second stationary shell 5 being connectable to the first stationary shell 4 and thereby defining a first receiving space 6. For example, an internal thread may be provided on the first stationary shell, an external thread may be provided on the second stationary shell, and the second stationary shell may be screwed to the first stationary shell. The light emitting portion 3 can be provided in the first accommodation space 6. Preferably, the first fixing shell 4 and the second fixing shell 5 can also be formed as a non-detachable and separable whole by integral molding. Mainboard and lamp pearl can be packaged in first accommodation space 6 in advance. Specifically, the second stationary housing 5 is provided with an artificial candle head 7 and thereby defines a second receiving space 8 which is not communicated with the first receiving space 6. I.e. the second accommodation space 8 is defined by the inner cavity of the simulated candle head. In the case where the light emitting part 3 includes a lamp bead 3a and a main board 3b connected to each other, the lamp bead 3a is disposed in the second accommodation space 8, and the main board 3b is disposed in the first accommodation space 6. Through setting up mainboard 3b in first accommodation space 6, can avoid it to receive atomizing fog to influence, can reduce its risk of becoming damp and losing efficacy. Preferably, the light emitting part 3 may also include a lamp bead 3a, a main board 3b, an artificial candle head 7, and a second accommodating space 8. At this time, the light emitting part 3 is partially disposed in the first accommodation space 6. I.e. the dummy candle head 7 of the light emitting part, is arranged outside the first accommodation space 6. The dummy candle head 7 can be screwed to the second stationary housing 5. For example, as shown in fig. 1, the simulated candle point 7 is provided with an external thread, and the second fixing shell 5 is provided with a fixing hole with an internal thread, so that the simulated candle point 7 can be screwed into the fixing hole.

Preferably, the first fixing housing 4 is provided with a fixing hole 9, and the atomizing area 2 is fixed to the first fixing housing 4 in such a manner that the accommodating tube 2c is fitted in the fixing hole 9. Specifically, a connecting pipe 10 is disposed in the first accommodating space 6, and one end of the connecting pipe 10 is communicated with the fixing hole 9. The other end of the connection pipe 10 communicates with the second receiving space 8. The atomizing plate 2a is disposed in the connection pipe 10. The accommodating tube 2c is fitted in the fixing hole 9. Preferably, one end of the connection pipe 10 is fixedly connected to the fixing hole 9, and the other end of the connection pipe communicates with the second receiving space 8 in such a manner as to penetrate the second stationary case 5. By providing the fixing hole 9 and the connection pipe 10, the water tank 1 can be communicated with the second receiving space 8. In the process of connecting the second fixing case 5 and the first fixing case 4 to each other, the connecting pipe can play a role in guiding, so that the connection of the second fixing case 5 and the first fixing case 4 is faster.

Preferably, the simulated candle head 7 is provided with a plurality of mist outlets 11. The mist generated on the atomizing sheet can be transmitted to the simulated candle head 7 through the connecting pipe 10, and finally discharged to the external environment through the mist outlet 11. The accommodating pipe 2c is provided with a plurality of water inlets 12. By providing the water inlet, the liquid in the water tank can be brought into contact with the water absorption rod 2 b.

Preferably, the utility model provides an atomizing device, under atomizing device includes atomizing piece 2a and the stick 2b that absorbs water at least, the stick 2b that absorbs water can closely laminate to atomizing piece 2a according to the mode of exerting the pressure of setting for the size to atomizing piece 2 a. Specifically, the atomizing device further includes a housing tube 2c and a compression spring 2d provided in the housing tube 2 c. The atomizing plate 2a can abut against the end connected to the containing tube 2 c. In the case where the water absorption rod 2b is provided in the housing tube 2c so that the compression spring 2d is in a compressed state, the water absorption rod 2b can be closely attached to the atomizing sheet 2a in such a manner as to apply a pressure of a set magnitude to the atomizing sheet 2 a.

Preferably, lamp pearl 3a and mainboard 3b all can be the known hardware products of current interface model, and the combination that can realize both can be used through the mode of directly purchasing current product with it through the interface connection to the skilled person in the art. For example, lamp pearl 3a can be 4.5 ~ 6V's little night-light, and mainboard 3b can be 2 key LED lamp PCB mainboards. Simultaneously, the circuit structure that mainboard and lamp pearl are connected also belongs to the common general knowledge in this field, the utility model discloses do not relate to the improvement to circuit structure, only need purchase current lamp pearl and mainboard and use it with connecting it can. For example, patent document CN207731626U discloses a circuit of LCD backlight circuit.

Preferably, the atomizing plate 2a may be an existing atomizing plate, such as a 16mm micro-hole atomizing plate, a stainless steel micro-hole atomizing plate or an ultrasonic atomizing plate, and those skilled in the art can directly purchase an existing atomizing plate product and arrange it in the connecting pipe 10 to realize its function. Meanwhile, it can be understood that, in order to implement the power-on operation of the atomizing plate, a person skilled in the art is fully capable of selecting a battery corresponding to the atomizing plate according to the voltage required by the atomizing plate, and the power supply can be implemented after the battery and the atomizing plate are electrically connected through a lead. In addition, the specific wire arrangement mode of the wires and the specific arrangement position of the batteries belong to the basic common knowledge in the field, and a person skilled in the art can select a proper position to arrange the wires and the batteries according to a specific physical structure. For example, a battery may be provided in the first accommodation space 6. It will also be appreciated that it is well within the ability of those skilled in the art to emulate an existing flashlight by providing a switch on the candle light of the present invention to control the opening and closing of the atomizing plate.

Preferably, it can be understood that, in order to realize the power-on operation of the light-emitting part 3, a person skilled in the art can completely select a battery corresponding to the lamp bead according to the voltage required by the lamp bead and the main board, and the power supply can be realized after the battery, the lamp bead and the main board are electrically connected through a wire. The light emitting portion and the atomizing portion may share one battery and one switch, so that the light emitting portion and the atomizing portion can be turned on and off simultaneously by one switch.

For easy understanding, the working principle of the candle lamp of the present invention is explained.

The first stationary case 4 is first detached from the water tank 1 to facilitate the filling of the liquid into the water tank 1. After the liquid is injected, the first fixed shell is connected with the water tank, and then the light emitting part 3 and the atomizing part 2 are simultaneously opened through the switch, so that the lamp beads emit light, and mist generated by the atomizing sheet can be discharged through the mist outlet.

Example 2

This embodiment is a further improvement of embodiment 1, and repeated contents are not described again.

The utility model also provides a light-emitting device, including at least one illuminating part 3, the fog that produces after the liquid atomization can get into the illuminating part, wherein: the mist can leave the light-emitting portion 3 from a mist-exiting region between the first end 3c and the second end 3d of the light-emitting portion 3, so that a projection of the mist leaving the light-emitting portion 3 in an axial direction perpendicular to the first end 3c and the second end 3d jointly defines can intersect the light-emitting portion 3 and therewith form a backlight structure 13 for backing up the mist leaving the light-emitting portion 3.

Preferably, the light emitting portion 3 has at least one light source to emit light of a set color, wherein: the light source can be disposed inside the light emitting portion 3, so that the light emitting portion 3 can exhibit a light emitting form in which the luminance gradually changes in the axial direction defined by the first end portion 3c and the second end portion 3d together, wherein: the luminance of the backlight structure 13 and the luminance of the fog-out area can be different from each other, so that the visibility of fog leaving the light-emitting portion 3 in the axial direction can take on a varying form against the backlight structure 13.

Example 3

This embodiment is a further improvement of the foregoing embodiment, and repeated contents are not described again.

The utility model also provides an environmental protection pollution-free incense burning method, and the incense burning method at least comprises the following steps:

s1: a water tank 1 capable of storing liquid for atomization is provided.

S2: the atomizing part 2 communicating with the water tank 1 is configured such that liquid can enter the atomizing part 2 to form mist.

S3: a light emitting part 3 having at least one light source to emit light of a set color is provided, wherein the light emitting part 3 is detachably attached to the water tank 1 and communicates with the atomizing part 2 so that mist can enter the light emitting part 3.

S4: between the first end 3c and the second end 3d of the light emitting portion 3, a fog-emitting area is provided, from which fog is arranged to exit the light emitting portion 3, such that a projection of the fog exiting the light emitting portion 3 in an axial direction perpendicular to the first end 3c and the second end 3d jointly defined can intersect the light emitting portion 3 and thereby form a backlight structure 13 for backing up the fog exiting the light emitting portion 3.

It should be noted that the above-mentioned embodiments are exemplary, and those skilled in the art can devise various solutions in light of the present disclosure, which are also within the scope of the present disclosure and fall within the scope of the present disclosure. It should be understood by those skilled in the art that the present specification and drawings are illustrative only and are not limiting upon the claims. The scope of the invention is defined by the claims and their equivalents.

Claims (8)

1. Candle lamp with smoke effect, comprising at least:

a water tank (1) capable of storing a liquid for atomization;

an atomizing part (2) communicating with the water tank (1) so that the liquid can enter the atomizing part (2) to form a mist;

a light emitting part (3) having at least one light source to emit light of a set color, wherein the light emitting part (3) is detachably connected to the water tank (1) and communicates with the atomizing part (2) so that the mist can enter the light emitting part (3),

it is characterized in that the preparation method is characterized in that,

the mist can leave the light-emitting part (3) from a mist-emitting region between a first end (3c) and a second end (3d) of the light-emitting part (3), such that a projection of the mist leaving the light-emitting part (3) in a direction perpendicular to a median plane (17) jointly defined by the first end (3c) and the second end (3d) can intersect the light-emitting part (3), wherein the light-emitting part (3) close to the second end (3d) can be used to form a backlight structure (13) that butts against the mist leaving the light-emitting part (3).

2. Candle lamp according to claim 1, characterized in that the light source can be arranged inside a light-emitting portion (3) such that the light-emitting portion (3) can assume a light-emitting form with a gradually changing brightness in an axial direction jointly defined by the first end portion (3c) and the second end portion (3d), wherein:

the luminance of the backlight structure (13) and the luminance of the fog-out area can be different from each other, so that in the axial direction, the visibility of fog leaving the light-emitting portion (3) can assume varying configurations in the contrast of the backlight structure (13) and the fog-out area.

3. A candle lamp according to claim 2, characterized in that in the axial direction the area of a cross section of the light-emitting part (3) perpendicular to the axial direction can be continuously varied from a first setting defined by a first end (3c) to a second setting defined by a second end (3d) such that the projection of the light-emitting part (3) in a plane perpendicular to the cross section can assume a smooth curved form.

4. A candle lamp according to claim 3, wherein the mist outlet area is provided with a number of mist outlets (11), each mist outlet (11) extending in a direction parallel to the axial direction, wherein:

the light emitting part (3) can present a light emitting form with gradually reduced brightness in the axial direction, so that a connecting line of the light source and the fog outlet (11) can be not perpendicular to the axial direction, and an invisible state that the light source is blocked by the fog outlet (11) in the direction perpendicular to the axial direction is formed.

5. A candle lamp according to claim 4, characterized in that the atomizing part (2) communicates with the light-emitting part (3) and thereby defines at least one mist inlet opening (14), a line connecting the at least one mist inlet opening (14) with the mist outlet area being able to be substantially parallel to the axial direction, such that the mist, when entering the mist outlet opening (11) from the mist inlet opening (14) at a set velocity, is able to assume a flow configuration in which the set velocity is substantially constant.

6. A candle lamp according to claim 5, characterized in that the second end portion (3d) can be defined by a point or a plane, and a geometrical centre of the second end portion (3d) and a first line (15) of the light source can form a set angle (α) with a second line (16) of the geometrical centre of each of the second end portion (3d) and the first end portion (3c), so that the light-emitting portion (3) can assume light-emitting configurations with different luminances from each other on both sides of the first line (15).

7. A candle lamp according to claim 6, characterized in that the atomizing part (2) can comprise at least an atomizing plate (2a) and a water wand (2b), which water wand (2b) can continuously exert a pressure of a set magnitude on the atomizing plate (2a) so that the water wand (2b) can be brought into close contact with the atomizing plate (2 a).

8. A candle lamp according to claim 7, characterized in that the nebulizing segment (2) further comprises a holding tube (2c) and a compression spring (2d) arranged in the holding tube (2c), the nebulizing plate (2a) being able to abut against the end connected to the holding tube (2c), wherein:

under the condition that the water absorbing rod (2b) is arranged in the accommodating pipe (2c) so that the compression spring (2d) is in a compressed state, the water absorbing rod (2b) can be tightly attached to the atomizing sheet (2a) in a mode of applying pressure with a set magnitude to the atomizing sheet (2 a).

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