CN211352503U - Gradual change formula touch-control atmosphere lamp - Google Patents

Abstract

The utility model discloses a gradual change formula touch-control atmosphere lamp, power module including base, lamp pole, a plurality of lamp shades and be used for the power supply, the lamp pole is installed on the base, lamp shade vertical spacer sleeve is located on the lamp pole, the lamp shade embeds there are annular cold light area and capacitanc response touch switch, capacitanc response touch switch's signal output part connects respectively the lamp pole with the signal input part in cold light area, the utility model discloses an at lamp shade embeds cold light area and capacitanc response touch switch, the user only need touch arbitrary lamp shade can realize the lamp pole luminous and the illumination of the inside cold light area of this layer lamp shade to the different layer lamp shades of accessible touching realize to the regulation of lamp pole luminous luminance and the cold light area in the touching lamp shade of illumination, pleasing to the eye novelty, convenient to use.

Description

Gradual change formula touch-control atmosphere lamp

Technical Field

The utility model relates to a lamps and lanterns, especially a gradual change formula touch-control atmosphere lamp.

Background

The existing atmosphere lamp generally adopts a stepping switch mode to realize light brightness adjustment, and cannot realize local light emission, and the switch adjustment of the existing atmosphere lamp controls the brightness of the atmosphere lamp in a touch strip mode in a lamp turning-on area, so that a user can only operate in a specified area when using the atmosphere lamp, and the atmosphere lamp is very inconvenient to turn on and off in daily use. Therefore, there is a need for an atmosphere lamp which is convenient for adjusting the brightness of the lamp light and has a convenient and simple adjusting mode.

SUMMERY OF THE UTILITY MODEL

In order to fill the blank of prior art, the utility model provides a gradual change formula touch-control atmosphere lamp.

The utility model provides a gradual change formula touch-control atmosphere lamp, includes base, lamp pole, a plurality of lamp shades and is used for the power module of power supply, the lamp pole is installed on the base, the vertical spacer sleeve of lamp shade is located on the lamp pole, the lamp shade embeds there are annular cold light area and capacitanc induction touch switch, capacitanc induction touch switch's signal output part connects respectively the lamp pole with the signal input part in cold light area.

Further, capacitanc response touch switch includes outer copper ring, interior copper ring and MCU, MCU is connected to outer copper ring, interior copper ring connects GND, the signal input part of lamp pole and the signal input part of cold light area are connected respectively MCU's signal output part, lamp shade, outer copper ring, interior copper ring, cold light area and lamp pole are centre of a circle setting altogether.

Furthermore, a stepless dimming LED lamp is arranged in the lamp post, an LED controller is arranged in the LED lamp, and the signal input end of the LED controller is connected with the signal output end of the MCU.

Furthermore, the lampshade is a frustum-shaped shell with a narrow upper part and a narrow lower part, and the inclination angle of the outer side surface of the lampshade is not more than 30 degrees.

The lamp comprises a plurality of lamp covers, wherein the lamp covers are longitudinally sleeved on the lamp post at intervals, and each lamp cover is correspondingly provided with an annular cold light belt and a capacitive sensing touch switch; or the lamp shade is sleeved on the lamp post, and a plurality of groups of annular cold light bands and a capacitance type induction touch switch are sequentially arranged on the lamp shade from top to bottom.

Optionally, cold light bands with different colors are respectively arranged inside the lamp shade, and LED colored lamps are arranged inside the lamp post.

Preferably, the lamp post is internally provided with a tricolor LED.

Optionally, the lampshade 30 is a glass lampshade, a ceramic lampshade, a plastic lampshade or a woven lampshade from dry calamus leaves. Thereby realize different illuminating effect or function, for example dry calamus leaf is woven the lamp shade and can slowly release fragrance, disinfects and form fragrance.

The gradual change adjusting method of the gradual change type touch control atmosphere lamp comprises the following steps:

s1, setting the light emitting grades of the lamp posts from dark to bright to be I, II, III, IV and V … … N grades in sequence, wherein each layer of lampshade of the lamp posts from top to bottom or from bottom to top corresponds to one light emitting grade respectively, the light emitting grades are arranged in sequence from dark to bright, and the steps S2, S3 or S4 are activated respectively according to different touch modes;

s2, touching any layer of lampshade, wherein the layer corresponds to the capacitive sensing touch switch conducting circuit, the cold light band of the layer of lampshade emits light, the light emitting grade signal corresponding to the layer of lampshade enters the light emitting grade ranking of the lamp post, and the lamp post emits the light emitting brightness corresponding to the light emitting grade of the layer of lampshade;

s3, simultaneously touching a plurality of arbitrary layers of lampshades, conducting a circuit corresponding to the capacitive sensing touch switch, emitting light by a cold light band of the multilayer lampshades, enabling all light-emitting level signals corresponding to all touched lampshades to enter a lamppost light-emitting level rank, wherein the brightness of the lampposts is the light-emitting brightness corresponding to the light-emitting level with the highest ranking among the touched lampshades;

and S4, sequentially touching the multilayer lamp covers from top to bottom or from bottom to top, sequentially lighting the cold light bands of the multilayer lamp covers, and simultaneously, changing the brightness of the lamp posts from dark to bright, wherein the maximum brightness of the lamp posts is the brightness corresponding to the highest light-emitting level in the touched lamp covers.

Furthermore, when the cold light band in any layer of lampshade is in an off state, the cold light band in the layer of lampshade is lightened when the layer of lampshade is touched, and the corresponding light emitting level of the layer of lampshade enters the light emitting level ranking of the lamp post; when the cold light band in the layer of lampshade is lighted, the cold light band in the layer of lampshade is extinguished when the layer of lampshade is touched, and the light emitting grade corresponding to the layer of lampshade exits from the light emitting grade ranking of the lamp post.

Furthermore, when the cold light band in any layer of lampshade is in an off state, the cold light band in the layer of lampshade is lightened when the layer of lampshade is touched along the circumferential direction, and the light emitting level corresponding to the layer of lampshade enters the light emitting level ranking of the lamp post; when the cold light band in the layer of lampshade is lighted, the cold light band in the layer of lampshade is extinguished when the layer of lampshade is touched along the circumferential direction, and the light emitting grade corresponding to the layer of lampshade exits from the light emitting grade ranking of the lamp post.

The utility model has the advantages that:

1. the lamp shade is established to the interval cover on the lamp pole, the lamp shade embeds there is annular cold light area and annular touch capacitance copper sheet, annular touch capacitance copper sheet is capacitanc response touch switch response end, thereby realize lighting and extinguishing and the regulation of lamp pole luminance of cold light area in this layer lamp shade through the lamp shade on 360 degrees annular touch arbitrary layers, easy operation is convenient, the user can be under the circumstances of the unclear sight at night light easily light or extinguish atmosphere lamp and adjust the light and shade of atmosphere lamp.

2. Because the spacer sleeve is equipped with the lamp shade on the lamp pole, can realize full regional control, and the interval department between the adjacent lamp shade can realize that the part jets out lamp pole light and realize the part and light, and the built-in cold light area of the lamp shade on different layers can present the whole successive layer effect of lighting of atmosphere lamp, and the light and shade of touching lamp pole luminous luminance can be realized to the lamp shade on different layers and changes, and the user can carry out different luminescent mode according to the demand and change, and user experience effect is better.

Drawings

The present invention will be further explained with reference to the drawings and examples.

FIG. 1 is a schematic structural view of the present invention;

fig. 2 is a top view of the present invention;

fig. 3 is a schematic structural diagram of the lampshade of the present invention.

Detailed Description

It should be noted that, in the present invention, the embodiments and features of the embodiments may be combined with each other without conflict. The present invention will be described in detail with reference to examples.

The present invention relates to a gradual-change type touch control atmosphere lamp and a gradual-change adjusting method thereof, and the following describes the preferred embodiments of the present invention in further detail.

As shown in fig. 1 to 3, a gradual change formula touch control atmosphere lamp includes base 10, lamp pole 20 and lamp shade 30 and the power module who is used for the power supply, and lamp pole 20 shell is the printing opacity material, like pottery, glass or plastics, and lamp pole 20 embeds there is stepless dimming LED lamp, lamp pole 20 is installed on base 10, lamp pole 20 power cord by stretch out and connect external power source connector on the base 10, and/or lamp pole 20 power cord and setting are in battery electric connection in the base 10, both can supply power through power source connector connecting socket or through the battery power supply in the base 10 to make the locating position of atmosphere lamp changeable, can freely put according to user's needs. The lamp shade 30 is hollow in the middle and is used for being sleeved on the lamp post 20, the lamp post 20 is vertically arranged on the base 10, the lamp post 20 is sleeved with a plurality of lamp shades 30 at intervals from top to bottom, each lamp shade 30 is internally provided with an annular cold light band 40 and a capacitance type induction touch switch 50, an induction end of the capacitance type induction touch switch 50 and the annular cold light band 40 are respectively arranged on the inner circumference of the lamp shade 30 and are close to the outer edge of the arc edge of the lamp shade 30, the lamp post 20 and the cold light band 40 are respectively and electrically connected with the capacitance type induction touch switch 50, the capacitance type induction touch switch 50 sends signals to the control units of the lamp post 20 and the cold light band 40 by touching the surface of the lamp shade 30, the control units correspond to the light emission of the lamp post 20, the light and shade change of the lamp post 20 and the light and shade of the cold light band 40, the lamp shade 30 is sleeved on the lamp post 20 at intervals, the whole area control can be realized, light that light and lamp pole 20 that lamp shade 30 sent can superpose and jet out and form different illuminating effect, and the built-in cold light area 40 of lamp shade 30 on different layers can present the whole successive layer effect of lighting of atmosphere lamp, touches the light and shade change that the lamp shade 30 on different layers can realize lamp pole 20 luminous luminance, and the user can carry out different luminescent mode according to the demand and change, and user experience effect is better.

The capacitive sensing touch switch 50 does not need a human body to directly contact metal, can thoroughly eliminate potential safety hazards, can be used even if the glove is worn, is not affected by dry and damp weather, human body resistance change and the like, and is more convenient to use. And do not have any mechanical parts, can not wear and tear, unlimited life-span reduces the later maintenance cost, and the back or the inside that any insulating layer can be placed to its sensing part forms sealed environment, for example the utility model discloses an inside lamp shade 30, capacitanc response touch switch 50 can pierce through insulating material shell more than 20mm, and the effective touch of finger is listened to the accuracy, has guaranteed that sensitivity, stability and the reliability etc. of product can not change because of environmental condition's change or long-term the use to have waterproof and strong interference killing feature. And capacitive sensing touch switch 50 is the single-chip, and peripheral part is few, and the circuit is very simple, need not oscillating circuit, and production simple process only needs to obtain satisfied effect according to schematic diagram cloth board, and is not high to the size requirement of the interior cavity of lamp shade 30, therefore lamp shade 30 need not to do very big, and the consumptive material is still less, and atmosphere lamp whole weight is lighter, and is with low costs.

Preferably, the capacitive touch sensor 50 includes an outer copper ring 51, an inner copper ring 52 and an MCU, the outer copper ring 51 and the inner copper ring 52 are touch capacitive copper sheets, the outer copper ring 51 is connected to an MCU circuit, the inner copper ring 52 is connected to GND, a signal input terminal of a control switch of the lamp post 20 and a signal input terminal of a control switch of the cold light band 40 are respectively connected to a signal output terminal of the MCU, the lamp shade 30, the outer copper ring 51, the inner copper ring 52, the cold light band 40 and the lamp post 20 are concentrically arranged, diameters of an outer edge of the lamp shade 30, the outer copper ring 51, the inner copper ring 52, the cold light band 40, an inner edge of the lamp shade 30 and the lamp post 20 are sequentially reduced, a diameter of the outer copper ring 51 is slightly smaller than a diameter of the lamp shade 30, that is, the outer copper ring 51 is closely arranged to an edge of the lamp shade 30, when a user touches any position on the lamp shade 30, since a human body is a conductor, a capacitance, the on-off of the control circuit is realized through touch, so that the light emitting of the lamp post 20, the light and shade change of the lamp post 20 and the light emitting of the cold light band 40 are controlled, and 360-degree touch control is realized.

Preferably, the light emitting unit of the lamp post 20 is an LED lamp, an LED controller is built in the LED lamp, the LED controller is electrically connected to the LED lamp, a signal input end of the LED controller is connected to a signal output end of the MCU, the LED controller controls a switch of each position in the LED lamp circuit through chip processing, and the LED controller sets a light emitting level ranking of the LED lamp post 20, that is, a brightness level of the LED lamp post 20, so as to realize a brightness change of the LED lamp post 20.

Preferably, the lamp shade 30 is a frustum-shaped shell with a narrow top and a narrow bottom, the circumferential direction is inclined downwards, the inclination angle is not greater than 30 degrees, the user generally responds that the atmosphere lamp is lightened by touching the atmosphere lamp from top to bottom, and therefore the lamp shade 30 is inclined downwards in the circumferential direction, so that the circumference of the lamp shade 30 is in arc transition downwards, the user does not have hand-pressing feeling when sliding to touch each layer of lamp shade 30 downwards by hands, the sliding is smooth, the circumferential edge of the lamp shade 30 is rounded, the user is prevented from being scratched, and meanwhile, the user does not have hand-pressing feeling even if sliding to touch each layer of lamp shade 30 upwards by the user after the rounded corner processing. And the lamp shade 30 sets up to slope downwards in circumference can make the space slope of lamp pole 20 light between adjacent lamp shade 30 jet out, avoids directly shining user's eyes directly, and user experience effect is better.

As preferred, the material of lamp shade 30 is pottery, and insulating effect, more elegant appearance can not only be guaranteed to the lamp shade 30 of ceramic system, just lamp shade 30 is translucent or opaque pottery, guarantees that the light of lamp pole 20 can not disperse everywhere, and the unified clearance department of following between the adjacent lamp shade 30 jets out, and display effect is better.

Further, optionally, the inside cold light area 40 that is provided with different colours respectively of a plurality of lamp shades 30, the inside LED colored lamp that is provided with of lamp pole 20, preferably tricolor LED, when touching different lamp shades 30, the inside different LED colored lamps that light up of lamp pole 20, thereby two light combination mix the light of corresponding colour in this lamp shade 30 department to form special display effect, lamp shade 30 also can set into the lamp shade of different materials or colour, for example glass lamp shade, rainbow lampshade, ceramic lamp shade, plastic lampshade, dull polish lamp shade etc. thereby realize special display effect.

As an optional implementation manner, the lamp shade 30 is provided with one, and the cover is established on the lamp pole 20, and the interval is provided with printing opacity grid or window on the lamp shade to do benefit to the light of lamp pole 20 passes through, vertical interval arrangement has multiunit annular cold light area 40 and capacitanc induction touch switch 50 in the lamp shade 30, and the lamp shade 30 structure of integral type can save the required fixed knot of a plurality of lamp shades 30 and can optimize the wiring to simple structure also is favorable to the maintenance to be changed.

A gradual change adjusting method applied to the gradual change type touch control atmosphere lamp comprises the following steps:

s1, setting the lighting grade of the lamp post 20 from dark to bright to I, II, III, IV, V … … N grades in turn, wherein the lighting grade and the lighting grade ranking are logic rules which are actually arranged in the lamp post 20, especially in the control unit of the lamp post 20, and are not specific hardware results, the lighting grade ranking comprises corresponding lighting brightness and front-back sequencing, and also comprises the sequence relation of high and low sizes, the lighting brightness of the LED lamp corresponds to the lighting grade through the LED controller, each layer of lampshade 30 of the lamp post 20 from top to bottom or from bottom to top corresponds to a lighting grade respectively, and the lighting grade is from dark to bright, and a user sequentially touches each layer of lampshade 30 from top to bottom or from bottom to top to enable the induction touch switch 50 to induce and conduct a circuit, so that the effect that the LED lamp gradually changes from dark to bright and the cold light belt 40 in the lampshade 30 sequentially lights layer by layer can be generated, the specific logic relationship respectively activates the steps S2, S3 or S4 according to different touch modes;

s2, touching any layer of lamp shade 30, wherein the layer corresponds to a capacitive sensing touch switch (50) to conduct a circuit, a cold light band 40 in the layer of lamp shade 30 emits light, the light emitting level corresponding to the layer of lamp shade 30 enters a light emitting level rank of the lamp post 20, the light emitting level rank corresponds to the light emitting levels I, II, III, IV and V … … N of the lamp post 20, and the lamp post 20 emits the light emitting brightness corresponding to the light emitting level of the layer of lamp shade 30;

s3, touching a plurality of arbitrary layers of lampshades 30, conducting a circuit corresponding to the capacitive sensing touch switch (50), enabling a cold light belt (40) of the multilayer lampshades (30) to emit light, enabling all the light emitting levels corresponding to all the touched lampshades 30 to enter the light emitting level ranking of the lamppost 20, enabling the brightness of the lamppost 20 to be the light emitting brightness corresponding to the light emitting level ranking highest in the light emitting levels of the lampposts 20 in the touched lampshades 30, enabling the lampposts 20 to generate the light emitting effect of different layers of light emitting according to the preference of a user by touching different layers of lampshades 30, enabling the lampposts 20 to emit the strongest light emitting brightness without touching all the lampshades 30 to obtain the strongest light emitting brightness of the lampposts 20, and saving energy;

s4, each layer of lampshade 30 of the lamp post 20 corresponds to a light emitting grade from top to bottom, the light emitting grades are in the sequence from dark to bright, each layer of lampshade 30 is touched in sequence from top to bottom, the cold light belt 40 of each layer of lampshade 30 from top to bottom is lightened in sequence, meanwhile, along with the fact that the light emitting brightness of the lamp post 20 is from dark to bright, the maximum brightness of the lamp post (20) is the light emitting brightness corresponding to the light emitting grade with the highest ranking in the light emitting grades of the lamp posts (20) in the touched lampshade (30);

or each layer of lamp shade 30 of the lamp post 20 corresponds to one light emitting level from bottom to top respectively, and the light emitting levels are in the order from dark to bright, then each layer of lamp shade 30 is touched in sequence from bottom to top, the cold light belt 40 of each layer of lamp shade 30 is lightened in sequence from bottom to top, meanwhile, along with the fact that the light emitting brightness of the lamp post 20 is from dark to bright, the maximum brightness of the lamp post (20) is the light emitting brightness corresponding to the light emitting level with the highest light emitting level rank in the touched lamp shade (30) of the lamp post (20).

The lamp shade 30 can be touched from top to bottom according to the needs and habits of the user to enable the light-emitting brightness of the lamp post 20 to be changed from dark to light or the lamp shade 30 can be touched from bottom to top to enable the light-emitting brightness of the lamp post 20 to be changed from dark to light, even any layer can be set to be the highest light-emitting level according to the preferences of the user, the selection is changeable, and the user can set the DIY by himself.

Preferably, when the cold light band 40 in the lamp shade 30 of any layer is in an off state, the cold light band 40 in the lamp shade 30 of the layer is lighted when the lamp shade 30 of the layer is touched, and the light emitting level corresponding to the lamp shade 30 of the layer enters the light emitting level ranking of the lamp post 20; if the light emitting level corresponding to the layer of lamp cover 30 is higher than the light emitting level of the original lamp post 20, the lamp post 20 is lightened to the light emitting level corresponding to the layer of lamp cover 30.

When cold light area 40 is for lighting in this layer of lamp shade 30, cold light area 40 in this layer of lamp shade 30 extinguishes when touching this layer of lamp shade 30, and the luminous grade that this layer of lamp shade 30 corresponds withdraws from the luminous grade rank of lamp pole 20, if the luminous grade that this layer of lamp shade 30 corresponds originally is the highest rank in the luminous grade rank, then lamp pole 20 darkens to next grade, if this layer of lamp shade 30 has only been lighted, when touching this layer of lamp shade 30 once more, lamp pole 20 extinguishes when cold light area 40 in this layer of lamp shade 30 extinguishes.

As an improvement of the above scheme, when the cold light band 40 in any layer of the lamp shade 30 is in an off state, the cold light band 40 in the layer of the lamp shade 30 is lighted when the layer of the lamp shade 30 is touched along the circumferential direction, and the corresponding light emitting level of the layer of the lamp shade 30 enters the light emitting level ranking of the lamp post 20; when the cold light band 40 in the layer of the lampshade 30 is lighted, the cold light band 40 in the layer of the lampshade 30 is extinguished when the layer of the lampshade 30 is touched along the circumferential direction, and the light emitting grade corresponding to the layer of the lampshade 30 exits the light emitting grade ranking of the lamp post 20.

Finally, the above embodiments are only used for illustrating the technical solution of the present invention and not for limiting the same, and although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the technical solution of the present invention can be modified or replaced by equivalents without departing from the spirit and scope of the technical solution, which should be covered by the claims of the present invention.

Claims (8)

1. The utility model provides a gradual change formula touch-control atmosphere lamp, includes base (10), lamp pole (20), lamp shade (30) and is used for the power module of power supply, lamp pole (20) are installed on base (10), its characterized in that: the lamp shade (30) is sleeved on the lamp post (20), an annular cold light belt (40) and a capacitance type induction touch switch (50) are arranged in the lamp shade (30), and a signal output end of the capacitance type induction touch switch (50) is respectively connected with the lamp post (20) and a signal input end of the cold light belt (40).

2. The gradual change touch ambience lamp of claim 1, wherein: capacitive sensing touch switch (50) are including outer copper ring (51), interior copper ring (52) and MCU, MCU is connected in outer copper ring (51), GND is connected in interior copper ring (52), the signal input part of lamp pole (20) and the signal input part of cold light area (40) are connected respectively MCU's signal output part, lamp shade (30), outer copper ring (51), interior copper ring (52), cold light area (40) and lamp pole (20) are concentric to be set up.

3. The gradual change touch ambience lamp of claim 2, wherein: the LED lamp is characterized in that a stepless dimming LED lamp is arranged in the lamp post (20), an LED controller is arranged in the LED lamp, and a signal input end of the LED controller is connected with a signal output end of the MCU.

4. The gradual change touch ambience lamp of claim 3, wherein: the lampshade (30) is a frustum-shaped shell with a narrow upper part and a narrow lower part, and the inclination angle of the outer side surface of the lampshade is not more than 30 degrees.

5. The gradual change touch ambience lamp of claim 1, wherein: the lamp shade structure comprises a plurality of lamp shades (30), wherein the lamp shades (30) are longitudinally sleeved on the lamp post (20) at intervals, and each lamp shade (30) is correspondingly provided with an annular cold light belt (40) and a capacitive sensing touch switch (50); or, including an integral type lamp shade (30), lamp shade (30) cover is located on lamp pole (20), lamp shade (30) are gone up from the top down and are set gradually multiunit annular cold light area (40) and capacitanc induction touch switch (50).

6. The gradual change touch ambience lamp of claim 1, wherein: the LED lamp is characterized in that cold light belts (40) with different colors are respectively arranged in the lamp shade (30), and LED colored lamps are arranged in the lamp post (20).

7. The gradual change touch ambience lamp of claim 6, wherein: the lamp post (20) is internally provided with a tricolor LED.

8. The gradual change touch ambience lamp of claim 1, wherein: the lampshade (30) is a glass lampshade, a ceramic lampshade, a plastic lampshade or a woven lampshade made of dry calamus leaves.

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