CN206310320U - Candle lamp - Google Patents

Abstract

The utility model is related to a kind of candle lamp, including shell, the shell is provided with light-emitting window, be characterized in the shell is internally provided with least one laser corresponding with the light-emitting window, lenticular lenses are provided between laser and light-emitting window, the laser beam that laser is projected is irradiated in lenticular lenses at a certain angle, the diffracted beam that laser beam is produced through lenticular lenses, interfere to form required space optical pattern, and external object surface is projected by light-emitting window.The technical scheme simple structure, and image or pattern projection can be carried out as light source combination lenticular lenses using laser.

Description

Candle lamp

Technical field

The utility model is related to a kind of candle lamp.

Background technology

Candle lamp is called novel smokeless type candle lamp, and profile is similar to real candle, and in the market generally uses LED Candle lamp, its light is with candle flame sense and not dangerous for soft, can feel at ease to use, and bulb part uses LED The very big heavy metals of environmental pollution such as bubble, not mercurous, lead, can produce ultraviolet when luminous, therefore will not be as traditional light fixture There are many mosquitoes to be centered around by light source like that, environment is become more clean hygiene clean and tidy.But, what traditional candle lamp was used Light source mode is single, only has simple illuminating effect, it is impossible to project image or pattern, it is impossible to produce the optics effect of dynamic illusion Really, using effect is single.

Utility model content

In view of this, the purpose of this utility model is to provide a kind of simple structure, and is combined as light source using laser Lenticular lenses can carry out a kind of candle lamp of image or pattern projection.

To achieve these goals, the technical solution adopted in the utility model is：

A kind of candle lamp, including shell, the shell are provided with light-emitting window, wherein the shell is internally provided with least One laser corresponding with the light-emitting window, is provided with lenticular lenses between laser and light-emitting window, what laser was projected Laser beam is irradiated in lenticular lenses, the diffracted beam that laser beam is produced through lenticular lenses, interferes to form required spatial light figure Sample, and project external object surface by light-emitting window.

Preferably, above-mentioned a kind of candle lamp, wherein the laser is set with the light-emitting window in one-to-one corresponding, light Grid is correspondingly arranged on the optical path direction between laser and light-emitting window.

Preferably, above-mentioned a kind of candle lamp, wherein the laser at least two, light-emitting window is correspondingly arranged on one It is individual, optical path direction adjustment mechanism, the laser beam of the laser injection of various location are provided between laser and light-emitting window It is gathered in the area of space corresponding with the lenticular lenses by after the optical path direction adjustment mechanism, and all by the light Grid is projected and produces diffracted beam.

Preferably, above-mentioned a kind of candle lamp, wherein the laser is set to two, respectively the first of spatial vertical The laser beam of laser, second laser, first laser device and second laser transmitting is linearly polarized light, the optical path direction Adjustment mechanism includes light combination mirror, and the light combination mirror and the lenticular lenses are correspondingly arranged between light-emitting window and first laser device On optical path direction, the light combination mirror includes mirror surface, and the laser beam that first laser device sends incides light combination mirror for 45 ° with the angle of polarization And transmitted through light combination mirror, the laser beam that second laser sends is with the mirror surface of 45 ° of incident angles to light combination mirror and occurs Mirror-reflection, the laser beam after reflection overlaps as a light beam with the laser beam transmitted through light combination mirror.

Preferably, above-mentioned a kind of candle lamp, wherein the laser is provided with three, it is circumferentially in uniform It is spaced, refracting prisms is provided with front of laser, the laser beam that the laser of various location is projected passes through the refraction It is gathered in after refraction by prism in the area of space corresponding with the lenticular lenses, and all projects generation by the lenticular lenses and is spread out Irradiating light beam.

Preferably, above-mentioned a kind of candle lamp, wherein the lenticular lenses are static lenticular lenses.

Preferably, above-mentioned a kind of candle lamp, wherein the lenticular lenses are dynamic optical grid, the dynamic optical grid and motor Rotating mechanism is connected.

Preferably, above-mentioned a kind of candle lamp, wherein the dynamic raster piece is provided with multiple raster units, each grating Unit is correspondingly formed different pattern respectively.

Preferably, above-mentioned a kind of candle lamp, wherein the lenticular lenses include static lenticular lenses, and is arranged at the static state Dynamic optical grid between lenticular lenses and laser, the dynamic optical grid is connected with motor rotating mechanism.

Preferably, above-mentioned a kind of candle lamp, the wherein candle lamp also include being arranged at the inside or described of the shell The LED of the outer tip end of shell.

Preferably, above-mentioned a kind of candle lamp, wherein the LED periphery is also covered with an imaging lens.

Compared with prior art, the beneficial effects of the utility model are mainly reflected in the following aspects：

(1) candle-lamp light source is single carries out technological improvement for tradition for the technical program, using laser as candle lamp Light source, and combine lenticular lenses, the laser beam for being projected laser using lenticular lenses forms diffracted beam, and diffracted beam is mutually dry Relate to form required space optical pattern, and projected, its effect is attractive in appearance, with dreamlike lighting effects, can apply to various Occasion, improves using effect, increased more alternative recreational, and is no longer simply have illumination functions.Such as Christmas Day, Valentine's Day, All Saints' Day or light stage, we can select different lenticular lenses to be formed according to different occasions Meet occasion optical design, such as, during Christmas Day, the lenticular lenses to form christmas-tree pattern can be selected, Valentine's Day can select The lenticular lenses of cardioid character pattern, build an atmosphere for romance, or even can also carry out advertising design projection with this.

(2) in the technical program lenticular lenses could be arranged to single static lenticular lenses or single dynamic optical grid or It is the form of static lenticular lenses and the combination of dynamic optical grid, either single static lenticular lenses, or single dynamic raster Piece, or static lenticular lenses and the form of dynamic optical grid combination, its lenticular lenses can be the form of a piece or polylith combination, The laser pattern or image that laser projection goes out are different according to the lenticular lenses species difference of selection, and two-dimensional grating, one such as may be selected Any one or more in dimension grating, Cross grating, wave grating, pattern grating etc., is correspondingly formed different pattern, such as two dimension Grating correspondence can form babysbreath pattern, and pattern grating correspondence can form animals and plants figure, when being provided that single static light During grid, actionless projective patterns are formed, when single dynamic optical grid is provided that, form dynamic optical picture Case, when static lenticular lenses are provided that and dynamic optical grid is combined, by least two pieces lenticular lenses, will produce more crypto set Optical design, and the pattern for casting out can constantly rotate, it is more attractive in appearance.

(3) LED is also further set in the technical program, LED is used in combination with laser lamp so that When laser carries out image or pattern projection, can also play a part of to illuminate and intersperse using LED, increase space environment gas Atmosphere so that overall technology effect becomes more preferable, additionally, LED periphery is also covered with an imaging lens, can also be by the imaging Eyeglass forms corresponding pattern and projects, and effect is more U.S. unreal.

Brief description of the drawings

Fig. 1：The utility model principle schematic；

Fig. 2：Another schematic diagram of the utility model principle；

Fig. 3：Overall structure outside drawing during single laser is used in the utility model embodiment 1；

Fig. 4：Internal structure exploded perspective view when single laser is used in the utility model embodiment 1；

Fig. 5：Overall structure outside drawing during two lasers is used in the utility model embodiment 1；

Fig. 6：Internal structure exploded perspective view when two lasers are used in the utility model embodiment 1；

Fig. 7：Three laser structure exploded perspective views are used in the utility model embodiment 1；

Fig. 8：Three laser structure sectional views are used in the utility model embodiment 1；

Fig. 9：Overall structure outside drawing during two lasers is used in the utility model embodiment 2；

Figure 10：Using two structure sectional views of laser in the utility model embodiment 2；

Figure 11：Using two structural blast schematic diagrames of laser in the utility model embodiment 2；

Figure 12：Using three Structure explosion diagrams of laser in the utility model embodiment 2；

Figure 13：Using three structure sectional views of laser in the utility model embodiment 2；

Figure 14：Dynamic raster chip architecture schematic diagram in the utility model implementation 3.

Specific embodiment

Below, with reference to accompanying drawing and specific embodiment, the utility model is described further：

As depicted in figs. 1 and 2, a kind of candle lamp, including shell 1, the shell 1 can use artificial candle or true wax Candle is provided with light-emitting window 2 into, shell 1, and shell 1 is internally provided with least one laser corresponding with light-emitting window 2 Device 3, is provided with lenticular lenses 4 between laser 3 and light-emitting window 2, the laser beam that laser is projected is irradiated to grating at a certain angle On piece 4, the diffracted beam that laser beam is produced through lenticular lenses 4 interferes to form required space optical pattern, and by going out optical window Mouth projects external object surface.Wherein, lenticular lenses 4 both can be single static lenticular lenses 40, or single is dynamic State lenticular lenses 41, certainly can also be in the form of static lenticular lenses 40 be combined with dynamic optical grid 41, now, dynamic optical grid 41 with drive its motor rotating mechanism for freely rotating be connected, motor rotating mechanism can directly use electric rotating machine 5 with it is corresponding The connection of the center of dynamic optical grid 41, can also be the structure that is combined with pinion rotation mechanism 6 of electric rotating machine 5, now dynamic optical Rotating seat 7 is arranged at the bottom of grid 41, and rotating seat 7 is engaged with pinion rotation mechanism 6, and pinion rotation mechanism 6 is connected with electric rotating machine 5, The rotation driven gear rotating mechanism 6 of electric rotating machine 5 rotates, and pinion rotation mechanism 6 rotates engages by with rotating seat 7, drives Rotating seat 7 is rotated, so as to drive dynamic optical grid 41 to rotate.Pinion rotation mechanism 6 at this is rotated the rotary motion of seat 7 The technological means that this area is generally commonly used, therefore do not make the detailed description of structure to pinion rotation mechanism 6.

Candle-lamp light source is single carries out technological improvement for tradition for the technical program, using laser as candle lamp light Source, and lenticular lenses are combined, the laser beam for being projected laser using lenticular lenses forms diffracted beam, and diffracted beam interferes shape Into required space optical pattern, and projected, its effect is attractive in appearance, with dreamlike lighting effects, can apply to various occasions, Using effect is improved, increased more alternative recreational, and be no longer that simply there are illumination functions.

【Embodiment 1】

As shown in Fig. 3, Fig. 4 and Fig. 5, Fig. 6, laser sets with light-emitting window 2 in setting, the correspondence of lenticular lenses 4 is corresponded On the optical path direction being placed between laser and light-emitting window 2.

As shown in Figure 3 and Figure 4, laser is set to one, and corresponding light-emitting window 2 is also configured as one, and lenticular lenses 4 are wrapped The static lenticular lenses 40 being arranged at light-emitting window 2 are included, and is arranged on the dynamic optical between static lenticular lenses 40 and laser Grid 41, the periphery of laser is arranged and is connected with radiating piece 30, and dynamic optical grid 41 is rotated with the motor for driving it freely to rotate Mechanism connects, and the motor rotating mechanism is specially the structure that electric rotating machine 5 is combined with pinion rotation mechanism 6, now dynamic raster Rotating seat 7 is arranged at the bottom of piece 41, and rotating seat 7 is engaged with pinion rotation mechanism 6, and pinion rotation mechanism 6 is connected with electric rotating machine 5, rotation The rotation driven gear rotating mechanism 6 of rotating motor 5 rotates, and pinion rotation mechanism 6 rotates engages by with rotating seat 7, drives rotation Swivel base 7 is rotated, so as to drive dynamic optical grid 41 to rotate.

In addition, we can also be evident that, when using single laser in the technical program, lenticular lenses 4 can be with Using single static lenticular lenses 40, now only need to dynamic optical grid 41 and drive its motor rotating mechanism for rotating to save , it is of course also possible to use single dynamic optical grid 41, now saves the static lenticular lenses at light-emitting window 2.

In addition, being provided with the light transparent protective cover 8 of protection lenticular lenses 4 at light-emitting window 2.

Further, it is also possible to find out, LED 9 is additionally provided with the outer tip end of the shell 1 of the candle lamp, the LED 9 is in Artificial candle flash pattern lights, with candle flame visual effect.Or the outer tip end of the shell 1 in the candle lamp is straight Connect setting emulation wick.

As shown in Figure 5 and Figure 6, laser is set to two, and corresponding light-emitting window 2 is also configured as two, and lenticular lenses 4 are wrapped The static lenticular lenses 40 being correspondingly arranged at respectively at light-emitting window 2 are included, and is arranged between static lenticular lenses 40 and laser Dynamic optical grid 41, the periphery of laser is arranged and is connected with radiating piece 30, and dynamic optical grid 41 directly connects with electric rotating machine 5 Connect.

Similarly, we can also be evident that when using two lasers in the technical program, lenticular lenses 4 can be with Using single static lenticular lenses 40, now only need to dynamic optical grid 41 and drive its motor rotating mechanism for rotating to save , it is of course also possible to use single dynamic optical grid 41, now saves i.e. the static lenticular lenses 40 at light-emitting window 2 Can.In addition, being also equipped with protecting the light transparent protective cover 8 of lenticular lenses 4 at light-emitting window 2.

Additionally, we also can also be seen that the outer tip end of the shell 1 in the candle lamp is additionally provided with LED 9, the LED Lamp 9 is luminous in artificial candle flash pattern, with candle flame visual effect.Equally, the outside of shell 1 in the candle lamp pushes up End can also directly set emulation wick.

As shown in Figure 7 and Figure 8, laser 3 is provided with three, and corresponding, light-emitting window 2 is also equipped with three, laser 3 Circumferentially arranged in uniform intervals, the middle setting of laser 3 of circumferential arrangement has electric rotating machine 5, and lenticular lenses include quiet State lenticular lenses 40, and the dynamic optical grid 41 between the static lenticular lenses 40 and laser 3 is arranged at, the dynamic optical grid 41 Output shaft with electric rotating machine 5 is fixedly connected, and static lenticular lenses 40 are correspondingly arranged at each light-emitting window 2.

Installing plate 11 is provided with light-emitting window 2, installing plate 15 is provided with one-to-one with light-emitting window 2 and dashes forward upwards The installation pedestal 10 for going out, is fixedly connected with static lenticular lenses 40 in the installation pedestal 10, the outside of static lenticular lenses 40 is covered with Light transparent protective cover 8, also fixed installation is provided with LED 9 on installing plate 11, and the LED 9 is upwardly extended and protrudes from the surface of shell 1.This Outward, the outside of laser 3 is also arranged the radiating piece 12 being connected with for radiating.

Similarly, when using three lasers in the technical program, lenticular lenses 4 can use single static lenticular lenses 40, Now only need to dynamic optical grid 41 and drive its motor rotating mechanism for rotating to save, it is of course also possible to use single One dynamic optical grid 41, now saves the static lenticular lenses 40 at light-emitting window 2.

【Embodiment 2】

As shown in Fig. 9 to Figure 13, laser 3 at least two, and light-emitting window 2 is correspondingly arranged only one, laser Optical path direction adjustment mechanism is provided between light-emitting window, the laser beam that the laser 3 of various location is projected passes through the light It is gathered in after the direction adjusting mechanism of road in the area of space corresponding with lenticular lenses 4, and generation diffraction light is projected by lenticular lenses 4 Beam.

Laser is set to two, respectively the first laser device of spatial vertical, second laser, first laser device and Dual-laser device transmitting laser beam be linearly polarized light, the optical path direction adjustment mechanism include light combination mirror, the light combination mirror and The lenticular lenses are correspondingly arranged on the optical path direction between light-emitting window and first laser device, and the light combination mirror includes speculum Face, the laser beam that first laser device sends incides light combination mirror and transmitted through light combination mirror for 45 ° with the angle of polarization, and second laser sends Laser beam is with the mirror surface of 45 ° of incident angles to light combination mirror and mirror-reflection occurs, the laser beam after reflection with transmission The laser beam for crossing light combination mirror overlaps as a light beam.

As shown in Fig. 9, Figure 10 and Figure 11, laser 3 is set to two, respectively the first laser device 31 of spatial vertical, The laser beam of second laser 32, first laser device 31 and the transmitting of second laser 32 is linearly polarized light, optical path direction adjustment Mechanism includes the light combination mirror 13 with one side reflection function, the light combination mirror 13 and lenticular lenses 4 be correspondingly arranged in light-emitting window 2 with On optical path direction between first laser device 31, the light combination mirror 13 includes mirror surface 130, the laser that first laser device 31 sends Beam incides light combination mirror 13 and transmitted through light combination mirror 13 for 45 ° with the angle of polarization, and the laser beam that second laser 32 sends is with 45 ° of incidences Angle incides the mirror surface 130 of light combination mirror 13 and mirror-reflection occurs, the laser beam after reflection with transmitted through light combination mirror 13 It is a light beam that laser beam overlaps, and then is projected through lenticular lenses.

As shown in Figure 12 and Figure 13, laser 3 is provided with three, and it is circumferentially arranged in uniform intervals, laser The front of device 3 is provided with refracting prisms 14, and the laser beam that the laser 3 of various location is projected is reflected by the refracting prisms 14 It is gathered in afterwards in the area of space corresponding with lenticular lenses 4, and all by the injection generation diffracted beam of lenticular lenses 4, circumferential row The output shaft that the middle setting of laser 3 of row has electric rotating machine 5, electric rotating machine 5 is fixedly connected with prism 14 and lenticular lenses successively, The lenticular lenses are dynamic optical grid 41.

The candle lamp also include a lamp plate 15 being connected with laser 3, lamp plate 15 be provided with respectively with laser 3 and revolve The corresponding mounting hole of rotating motor 5, and multiple LEDs 9, the outer marginal circumference side of dynamic optical grid 41 is also fixedly connected with one Revolving fragment 16, revolving fragment 16 is provided with the printing opacity groove 17 corresponding with LED 9.

Similarly, when using two or three lasers in the technical program, lenticular lenses 4 can use single static grating Piece 40, now only needs to dynamic optical grid 41 and drives its motor rotating mechanism for rotating to save, it is of course also possible to adopt With single dynamic optical grid 41, now the static lenticular lenses 40 at light-emitting window 2 are saved.

【Embodiment 3】

As shown in figure 14, the present embodiment and above-described embodiment 1 and the structure of embodiment 2 and principle are substantially similar, and its difference exists In：Dynamic optical grid 41 is provided with multiple raster units 410, and each raster unit 410 is correspondingly formed different pattern respectively.When dynamic When rotating, the laser beam that laser is projected can be formed different state lenticular lenses 41 with the rotation of dynamic optical grid 41 Pattern is projected.

Additionally, in above-described embodiment 1,2 and embodiment 3, the LED periphery of the candle lamp is also covered with an imaging lens Piece.LED is used in combination with laser lamp so that when laser carries out image or pattern projection, LED can also be utilized Lamp plays a part of to illuminate and intersperse, and increases space environment atmosphere so that overall technology effect becomes more preferable, additionally, outside LED Week is also covered with an imaging lens, by imaging lens formation corresponding pattern and can also project, and effect is more U.S. unreal.

By above description it will be seen that lenticular lenses could be arranged to single static lenticular lenses or single dynamic State lenticular lenses or static lenticular lenses and the form of dynamic optical grid combination, either single static lenticular lenses, or it is single Dynamic optical grid, or static lenticular lenses and the form of dynamic optical grid combination, its lenticular lenses can be one piece or polylith The form of combination, the laser pattern or image that laser projection goes out is different according to the lenticular lenses species difference of selection, such as may be selected Any one or more in two-dimensional grating, one-dimensional grating, Cross grating, wave grating, pattern grating etc., two-dimensional grating correspondence Babysbreath pattern can be formed, pattern grating correspondence can form animals and plants figure, when single static lenticular lenses are provided that, shape Into actionless projective patterns, when single dynamic optical grid is provided that, dynamic optical design is formed, when what is set When being static lenticular lenses and the combination of dynamic optical grid, by least two pieces lenticular lenses, the optical design of more crypto set will be produced, and It is more attractive in appearance and the pattern for casting out can constantly rotate.

In addition, it is necessary to also include control panel and power module, power module and control in being pointed out that the technical program Making sheet belongs to the universal conventional technical means of the art, therefore does not add to describe in detail in the technical program, and, power module We can use internal battery or external power supply form, control model we can use infrared control technology, or nothing Line APP is controlled, and uses which kind of electric source modes or control model not to influence protection domain of the present utility model for it.

It will be apparent to those skilled in the art that technical scheme that can be as described above and design, make other various It is corresponding to change and deformation, and all these change and deformation should all belong to the protection of the utility model claim Within the scope of.

Claims (12)

1. a kind of candle lamp, including shell, the shell is provided with light-emitting window, it is characterised in that：The inside of the shell is set There is at least one laser corresponding with the light-emitting window, lenticular lenses, laser are provided between laser and light-emitting window The laser beam of injection is irradiated in lenticular lenses, the diffracted beam that laser beam is produced through lenticular lenses, interferes to form required sky Between optical pattern, and project external object surface by light-emitting window.

2. a kind of candle lamp according to claim 1, it is characterised in that：The laser is with the light-emitting window in one by one It is correspondingly arranged, lenticular lenses are correspondingly arranged on the optical path direction between laser and light-emitting window.

3. candle lamp according to claim 1, it is characterised in that：The laser at least two, light-emitting window correspondence One is provided with, optical path direction adjustment mechanism is provided between laser and light-emitting window, the laser of various location is projected Laser beam be gathered in the area of space corresponding with the lenticular lenses by after the optical path direction adjustment mechanism, and by institute State lenticular lenses and project generation diffracted beam.

4. candle lamp according to claim 3, it is characterised in that：The laser is set to two, and respectively space is hung down The laser beam of straight first laser device, second laser, first laser device and second laser transmitting is linearly polarized light, described Optical path direction adjustment mechanism includes light combination mirror, and the light combination mirror and the lenticular lenses are correspondingly arranged in light-emitting window and first laser On optical path direction between device, the light combination mirror includes mirror surface, and the laser beam that first laser device sends is with 45 ° of incidences of the angle of polarization To light combination mirror and transmitted through light combination mirror, the laser beam that second laser sends is with the speculum of 45 ° of incident angles to light combination mirror Simultaneously there is mirror-reflection in face, the laser beam after reflection overlaps as a light beam with the laser beam transmitted through light combination mirror.

5. candle lamp according to claim 3, it is characterised in that：The laser is provided with three, and it is circumferentially square Arranged in uniform intervals, refracting prisms are provided with front of laser, the laser beam that the laser of various location is projected is passed through It is gathered in the area of space corresponding with the lenticular lenses after crossing refracting prisms refraction, and is all penetrated by the lenticular lenses Go out to produce diffracted beam.

6. the candle lamp according to claim 1 to 5 any one, it is characterised in that：The lenticular lenses are static lenticular lenses.

7. the candle lamp according to claim 1 to 5 any one, it is characterised in that：The lenticular lenses are dynamic optical grid, The dynamic optical grid is connected with motor rotating mechanism.

8. candle lamp according to claim 7, it is characterised in that：The dynamic optical grid is provided with multiple raster units, Each raster unit is correspondingly formed different pattern respectively.

9. the candle lamp according to claim 1 to 5 any one, it is characterised in that：The lenticular lenses include static grating Piece, and be arranged at the dynamic optical grid between the static lenticular lenses and laser, the dynamic optical grid and motor rotating mechanism Connection.

10. candle lamp according to claim 9, it is characterised in that：The dynamic optical grid is provided with multiple raster units, Each raster unit is correspondingly formed different pattern respectively.

11. candle lamps according to claim 1, it is characterised in that：The candle lamp also includes being arranged at the interior of the shell The LED of the outer tip end of portion or the shell.

12. candle lamps according to claim 11, it is characterised in that：The LED top is also covered with an imaging lens.