CN214790753U - Composite ceiling lamp - Google Patents

Abstract

A mother-son ceiling lamp comprises a lampshade unit, a first light-emitting unit, a second light-emitting unit and a control unit. The lamp shade unit comprises an installation lamp holder and a main lamp shade. The first light-emitting unit is used for emitting light rays towards the main lampshade. The second light-emitting unit comprises a plurality of second main color temperature light-emitting pieces and second auxiliary color temperature light-emitting pieces, wherein the second main color temperature light-emitting pieces and the second auxiliary color temperature light-emitting pieces are used for emitting light rays outwards in the radial direction opposite to the direction of installing the lamp holder. Through setting up the control unit with the second luminescence unit makes the control unit can control the second luminescence unit sends the orientation reverse in the radial outside light of direction of installation lamp stand, so, except using the light of first luminescence unit supplies the illumination usage outside, and during special atmosphere, can pass through the light of the different colour temperatures that the second luminescence unit sent builds special ambient atmosphere, borrows this, reaches the efficiency that can build many first ambient atmosphere.

Description

Composite ceiling lamp

Technical Field

The utility model relates to a lighting device especially relates to a primary and secondary ceiling lamp.

Background

The existing ceiling lamp comprises a lamp holder, a lampshade and a light-emitting unit. The light-emitting unit is used for emitting light, and light rays penetrate out of the lampshade. Aforesaid ceiling lamp has the function of adjustment colour temperature, for example: can switch between warm light (yellow light) and cold light (white light).

However, the light is an important factor for creating the environment atmosphere, and a plurality of different uses can be realized in the same space nowadays, and the ceiling lamp which can only switch the cold light and the warm light is not suitable for the requirements.

Disclosure of Invention

An object of the utility model is to provide a can build primary and secondary ceiling lamp of many first environmental atmospheres.

The utility model discloses a primary and secondary ceiling lamp is applicable to and installs in an installation wall portion to be applicable to and receive a remote control signal, primary and secondary ceiling lamp contains lamp shade unit, a first luminescence unit, second luminescence unit, and the control unit.

The cover unit includes a mounting socket detachably mounted to the mounting wall portion, and a main cover detachably mounted to a side of the mounting socket opposite to the mounting wall portion.

The first light-emitting unit is arranged on the surface, opposite to the mounting wall part, of the mounting lamp holder and used for emitting light rays towards the main lamp cover.

The second luminescence unit encircles the installation lamp stand sets up to second dominant color temperature light-emitting component and the vice colour temperature light-emitting component of second including a plurality of intervals set up, second dominant color temperature light-emitting component with the vice colour temperature light-emitting component of vice colour temperature second is used for the court to reverse in the radial outside light that sends of direction of installation lamp stand, and the light colour temperature that each second dominant color temperature light-emitting component sent is different in being greater than the light colour temperature that each vice colour temperature light-emitting component of second sent.

The control unit is electrically connected with the first light-emitting unit and the second light-emitting unit and is suitable for receiving the remote control signal and controlling the first light-emitting unit and the second light-emitting unit to emit light according to the remote control signal.

The utility model discloses a primary and secondary ceiling lamp, the installation lamp stand is including supplying the body of main lamp shade installation, and by the body court the bed hedgehopping portion that installation wall portion extends, bed hedgehopping portion with the body cooperatees and defines out the confession the installation space that the control unit set up, at least one second luminescence unit set up in the outer peripheral face of bed hedgehopping portion.

The utility model discloses a primary and secondary ceiling lamp, the second owner's colour temperature illuminating part sends white light, the vice colour temperature illuminating part of second sends the yellow light.

The utility model discloses a primary and secondary ceiling lamp, the lamp shade unit still including encircleing the installation lamp stand set up in the side of installation lamp stand and with the side lamp shade in a sidelight space is defined out to the installation lamp stand, the installation lamp stand with main lamp shade is along setting up the axis setting, just the side lamp shade encircles set up the axis, at least one second luminescence unit set up in the sidelight space.

The utility model discloses a primary and secondary ceiling lamp, each second owner's colour temperature illuminating part send red light, and the vice colour temperature illuminating part of each second sends blue or green light.

The utility model discloses a primary and secondary ceiling lamp, first luminescence unit includes the first dominant color temperature illuminating part and the first pair colour temperature illuminating part that a plurality of intervals set up, and the light colour temperature that each first dominant color temperature illuminating part sent is different from the light colour temperature that each first pair colour temperature illuminating part sent.

The utility model discloses a primary and secondary ceiling lamp, first luminescence unit still include a plurality of set up respectively in the astigmatism piece of first main colour temperature luminous element and first secondary colour temperature luminous element, each astigmatism piece define be used for supplying respective first main colour temperature luminous element or what first secondary colour temperature luminous element set up holds the room, and is used for making the first main colour temperature luminous element that corresponds or the light scattering that first secondary colour temperature luminous element sent.

The utility model discloses a primary and secondary ceiling lamp, each astigmatism piece are the lens that is the semicircle arcuation, and circular-arc surface and the first dominant color temperature luminous piece that corresponds or first pair colour temperature luminous piece is an interval apart from.

The utility model discloses a primary and secondary ceiling lamp, second luminescence unit still including the electricity connect in the second owner colour temperature luminous element the vice colour temperature luminous element of second with the luminous control of the second of the control unit, the control unit is applicable to the output and corresponds remote control signal's second control signal extremely the luminous control of second makes the luminous control of second control the luminous control of second owner colour temperature luminous element with the light and darkness of the vice colour temperature luminous element of second.

The utility model discloses a primary and secondary ceiling lamp, first luminescence unit still including the electricity connect in first primary color temperature luminous element first secondary color temperature luminous element with the first luminous control of the control unit, the control unit is applicable to the output and corresponds remote control signal's first control signal extremely first luminous control makes first luminous control first primary color temperature luminous element with the light and darkness of first secondary color temperature luminous element.

The beneficial effects of the utility model reside in that: through setting up the control unit with the second luminescence unit makes the control unit can control the second luminescence unit sends reverse in the radial outside light of direction of installation lamp stand, so, the user can use when general work or daily environment the light of first luminescence unit supplies the illumination to use, and during special atmosphere, can pass through the light of the different colour temperatures that the second luminescence unit sent builds special environmental atmosphere, borrows this, reaches the efficiency that can build many first environmental atmospheres.

Drawings

Other features and advantages of the present invention will become apparent from the following detailed description of the preferred embodiments with reference to the accompanying drawings, in which:

fig. 1 is a perspective combination view illustrating an embodiment of the composite ceiling lamp of the present invention;

FIG. 2 is an exploded perspective view of the embodiment;

FIG. 3 is a fragmentary perspective assembly view of the embodiment;

FIG. 4 is a cross-sectional view of the embodiment;

FIG. 5 is a cross-sectional view of a diffuser and a first primary color temperature emitting member in the illustrated embodiment;

FIG. 6 is a partially exploded perspective view of the embodiment;

FIG. 7 is a schematic top view of a remote control;

FIG. 8 is a signal block diagram of the embodiment; and

FIG. 9 is a circuit schematic of the embodiment.

Detailed Description

Referring to fig. 1, 7 and 8, the primary and secondary ceiling lamps according to the present invention are adapted to be installed on a wall (not shown) and adapted to receive a remote control signal S1 from a remote controller 5.

It should be noted that the installation wall may be a ceiling, a wall, a partition, or the like, for installation of the present invention.

Referring to fig. 1, 2, 3 and 4, the mother-son ceiling lamp includes a lampshade unit 1, a first light emitting unit 2, two second light emitting units 3 and 3', and a control unit 4.

The globe unit 1 includes a mounting base 11 detachably mounted to the mounting wall portion, a main globe 12 detachably mounted to a side of the mounting base 11 opposite to the mounting wall portion, and a side globe 13 surrounding the mounting base 11 and disposed at a side of the mounting base 11 and defining a side light space 131 with the mounting base 11.

The mounting socket 11 and the main housing 12 are arranged along a mounting axis X1, and include a mounting housing 111 adapted to be mounted to the mounting wall, and a housing 112 for mounting the main housing 12 and the side housing 13.

The mounting housing 111 includes a body portion 113 to which the cover housing 112 is mounted, and a raised portion 114 extending from the body portion 113 toward the mounting wall portion.

The raised portion 114 and the body cooperate to define an installation space 115 for the control unit 4.

The cap housing 112 is detachably mounted to the mounting housing 111.

The side cover 13 surrounds the setting axis X1.

Referring to fig. 2, 3 and 5, the first light emitting unit 2 is disposed on a surface of the mounting socket 11 opposite to the mounting wall, and is configured to emit light toward the main lampshade 12, in detail, the first light emitting unit 2 is mounted on a surface of the mounting shell 111 adjacent to the lampshade shell 112.

The first light-emitting unit 2 includes a plurality of first main color temperature light-emitting members 21 and first sub color temperature light-emitting members 22 arranged at intervals, a first light-emitting control member 23, and a plurality of light-scattering members 24.

Each of the first main color temperature light emitting members 21 emits light of a first color temperature, and each of the first sub color temperature light emitting members 22 emits light of a second color temperature different from the first color temperature.

In this embodiment, each of the first primary color temperature light emitting members 21 is a surface mount led (smd led) and emits white light, and the first color temperature is 6500K, each of the first secondary color temperature light emitting members 22 is a surface mount led (smd led) and emits yellow light, and the second color temperature is 3000K.

The first light-emitting control member 23 is electrically connected to the first main color temperature light-emitting member 21 and the first sub color temperature light-emitting member 22, and is configured to control brightness of the first main color temperature light-emitting member 21 and the first sub color temperature light-emitting member 22.

Each light-diffusing member 24 has a containing chamber 241 for accommodating the first primary color temperature light-emitting member 21 or the first secondary color temperature light-emitting member 22, and is configured to diffuse light emitted by the corresponding first primary color temperature light-emitting member 21 or the first secondary color temperature light-emitting member 22. Therefore, the light emitted towards the main lampshade 12 is uniform in all directions, and the problem of light and dark areas in vision caused by light concentration is avoided.

In the present embodiment, each of the light scattering members 24 is a semi-arc lens, and the arc surface is separated from the corresponding first primary color temperature light emitting member 21 or the first secondary color temperature light emitting member 22 by a distance.

Referring to fig. 2, 4 and 6, the light emitting units 3 and 3' are disposed around the mounting housing 111 of the mounting socket 11. Each light-emitting unit 3 (3') further includes a plurality of second primary color temperature light-emitting members 31 and second secondary color temperature light-emitting members 32 arranged at intervals, and a second light-emitting control member 33.

In this embodiment, the second light emitting unit 3 and the light emitting unit 3 'are flexible light bars, the light emitting unit 3 is detachably attached to the outer peripheral surface of the raised portion 114, and the light emitting unit 3' is detachably attached to the outer peripheral surface of the cover housing 112 and located in the side light space 131. Since the second light emitting unit 3 is a flexible light bar, the length and the bending degree of the second light emitting unit 3' can be adjusted arbitrarily according to the contour of the outer peripheral surface of the lamp cover housing 112.

The second main color temperature light emitting member 31 and the second sub color temperature light emitting member 32 are used for emitting light towards the side lampshade 13, and the wavelength of the light emitted by each second main color temperature light emitting member 31 is larger than that of the light emitted by each second sub color temperature light emitting member 32.

In this embodiment, each of the second main color temperature light emitting members 31 of the light emitting unit 3 is a patch led (smd led) and emits yellow light (with a color temperature of 3000K), and each of the second sub color temperature light emitting members 32 is a patch led (smd led) and emits white light (with a color temperature of 6500K).

In this embodiment, each second primary color temperature light emitting element 31 of the light emitting unit 3' is a surface mount led (smd led) and emits red light, and each second secondary color temperature light emitting element 32 is a surface mount led (smd led) and emits blue light. In other variations of the present embodiment, each of the second primary color temperature light-emitting members 31 emits red light, and each of the second sub-color temperature light-emitting members 32 emits green light, or each of the second primary color temperature light-emitting members 31 emits green light, and each of the second sub-color temperature light-emitting members 32 emits blue light.

Each of the second light-emitting control members 33 is electrically connected to the second main color temperature light-emitting member 31 and the second sub color temperature light-emitting member 32, and is configured to control the brightness of the second main color temperature light-emitting member 31 and the second sub color temperature light-emitting member 32.

The control unit 4 is electrically connected to the first light-emitting control part 23 of the first light-emitting unit 2 and the second light-emitting control part 33 of the second light-emitting unit 3, and is adapted to receive the remote control signal S1 and control the first light-emitting unit 2 and the second light-emitting unit 3 to emit light according to the remote control signal S1.

Referring to fig. 7, 8 and 9, the control unit 4 is disposed in the installation space 115 and adapted to output a first control signal S2 corresponding to the remote control signal S1 to the first light-emitting control element 23, so that the first light-emitting control element 23 controls the light-emitting color temperatures of the first main color temperature light-emitting element 21 and the first sub color temperature light-emitting element 22, and the control unit 4 is adapted to output a second control signal S3(S3 ') corresponding to the remote control signal S1 to the second light-emitting control element 33 of the second light-emitting unit 3 (3'), and so that the second light-emitting control element 33 controls the brightness of the second main color temperature light-emitting element 31 and the second sub color temperature light-emitting element 32.

It should be noted that, in the present embodiment, the control unit 4, the first light-emitting control element 23 and the second light-emitting control element 33 are integrated on the same circuit board and are all disposed in the accommodating chamber 241, and the first light-emitting control element 23 and the second light-emitting control element are connected to the corresponding light-emitting elements through wires. In other variation of this embodiment, the control unit 4, the first light-emitting control element 32 and the second light-emitting control element 33 can also be independently disposed on different circuit boards, and are disposed in the accommodating chamber 241, or the first light-emitting control element 23, the first main color temperature light-emitting element 21 and the first sub color temperature light-emitting element 22 are disposed on the same block circuit board, and each second light-emitting control element 33 corresponds to the second main color temperature light-emitting element 31 and the second sub color temperature light-emitting element 32 disposed on the same block circuit board.

It should be noted that, the method for controlling the first light emitting unit 2 and the second light emitting unit 3 of the present invention is that the control unit 4 comprises a communication module 41 adapted to receive the remote control signal S1, a power module 42 for converting ac power into dc power, a control module 43 electrically connected to the communication module 41, a first dimming module 44 electrically connected to the control module 43 and the first light emitting control element 23, and two second dimming modules 45 electrically connected to the control module 43 and the second light emitting control element 33. The power module 42 is configured to rectify and stabilize the mains supply to provide power for the communication module 41, the control module 43, the first dimming module 44, the second dimming module 45, the first light emitting unit 2, and the second light emitting unit 3.

The communication module 41 may use Wi-Fi, RF, infrared, bluetooth, radio, or other short-distance communication technologies, or may be implemented by a wall-mounted switch under physical line control, or may be implemented by a voice-operated switch. The first dimming module 44 and each of the second dimming modules 45 can be implemented by using a Pulse-width modulation (PWM) regulation chip, so that the first control signal S2 and the second control signal S3 are corresponding to a Pulse (Pulse) voltage. The first and second lighting control elements 23, 33 may each be implemented using one or more switches, for example, Metal Oxide Semiconductor Field Effect Transistors (MOSFETs).

For example, in practical applications, the communication module 41 receives the remote control signal S1 and outputs the remote control signal S1 to the control module 43, and the control module 43 controls the first dimming module 44 and the second dimming module 45 to output the corresponding first control signal S2 and second control signal S3 respectively according to the remote control signal S1, so that the duty ratios of the pulse voltages of the first control signal S2 and the second control signals S3 and S3' are changed according to the control of the remote control signal S1.

Then, the first light-emitting control member 23 controls the number of the first main color temperature light-emitting members 21 or the first sub color temperature light-emitting members 22 to emit light according to the first control signal S2, so that the light emitted by the first main color temperature light-emitting members 21 and the first sub color temperature light-emitting members 22 is mixed to generate a predetermined color temperature expression in human eyes. For example: in this embodiment, the user can see the electrodeless multi-section light mixing effect from pure white light (6500K) to pure yellow light (3000K).

In the same way, each of the second light-emitting control members 33 controls the number of the first sub color temperature light-emitting members 22 or the first sub color temperature light-emitting members 22 correspondingly emitting light according to the second control signal S3 (S3'), so that the light emitted by the second main color temperature light-emitting member 31 and the second sub color temperature light-emitting member 32 is mixed to generate a predetermined color expression in human eyes. For example: in this embodiment, the user can see the electrodeless multi-section mixed light visual effect of the second light-emitting unit 3 from pure white light (6500K) to pure yellow light (3000K) and the electrodeless multi-section mixed light visual effect (e.g. purple light) of the second light-emitting unit 3' from pure red light to pure blue light.

It should be noted that, referring to fig. 9, another embodiment of the present invention is that the communication module 41 uses 2.4GHz radio remote control technology and controls the first light emitting unit 2 through the first dimming module 44, and the central control module 43 controls the second light emitting units 3 and 3' respectively through the second dimming module 45. Unlike the control of the first dimming module 44 and the second dimming module 45 by one of the central control modules 43 as shown in fig. 8.

The above adjustment and control method is not described in detail since a person skilled in the art can deduce the details of the above adjustment and control method according to the above description.

From the above description, the advantages of the foregoing embodiments can be summarized as follows:

through setting up the control unit 4 with the second luminescence unit 3 makes the control unit 4 can control the second luminescence unit 3 sends towards the light of side lamp shade 13, so, the user can use when general work or daily environment the light of first luminescence unit 2 supplies the illumination to use, and during special atmosphere, can pass through the light of the different wavelength that the second luminescence unit 3 sent builds special environmental atmosphere, borrows this, reaches the efficiency that can build many environmental atmospheres.

The above description is only an example of the present invention, and the scope of the present invention should not be limited thereby, and all the simple equivalent changes and modifications made according to the claims and the description of the present invention are still within the scope of the present invention.

Claims (10)

1. The utility model provides a primary and secondary ceiling lamp is applicable to and installs in installation wall portion to be applicable to and receive remote control signal, primary and secondary ceiling lamp contains:

a cover unit including a mounting socket detachably mounted to the mounting wall portion, and a main cover detachably mounted to a side of the mounting socket opposite to the mounting wall portion;

the method is characterized in that:

the primary and secondary ceiling lamp also comprises:

a first light emitting unit disposed on a surface of the mounting socket opposite to the mounting wall portion and emitting light toward the main lamp housing;

the second light-emitting unit is arranged around the mounting lamp holder and comprises a plurality of second main color temperature light-emitting pieces and second auxiliary color temperature light-emitting pieces which are arranged at intervals, the second main color temperature light-emitting pieces and the second auxiliary color temperature light-emitting pieces are used for emitting light radially outwards in a direction opposite to the mounting lamp holder, and the color temperature of the light emitted by each second main color temperature light-emitting piece is different from the color temperature of the light emitted by each second auxiliary color temperature light-emitting piece; and

and the control unit is electrically connected with the first light-emitting unit and the second light-emitting unit and is suitable for receiving the remote control signal and controlling the first light-emitting unit and the second light-emitting unit to emit light according to the remote control signal.

2. The composite ceiling lamp of claim 1, wherein: the mounting lamp holder comprises a body for mounting the main lamp cover and a raised part extending from the body to the mounting wall part, the raised part and the body are matched to define a mounting space for the control unit to be arranged, and the at least one second light-emitting unit is arranged on the peripheral surface of the raised part.

3. The composite ceiling lamp of claim 2, wherein: the second primary color temperature luminous piece emits white light, and the second secondary color temperature luminous piece emits yellow light.

4. The composite ceiling lamp of claim 1, wherein: the lamp shade unit further comprises a side lamp shade surrounding the installation lamp holder, the side lamp shade is arranged on the side face of the installation lamp holder and defines a side light space with the installation lamp holder, the installation lamp holder and the main lamp shade are arranged along the arrangement axis, the side lamp shade surrounds the arrangement axis, and the at least one second light-emitting unit is arranged in the side light space.

5. The composite ceiling lamp of claim 1, wherein: each second primary color temperature luminous piece emits red light, and each second secondary color temperature luminous piece emits blue or green light.

6. The composite ceiling lamp of claim 1, wherein: the first light-emitting unit comprises a plurality of first main color temperature light-emitting pieces and first auxiliary color temperature light-emitting pieces which are arranged at intervals, and the color temperature of light emitted by each first main color temperature light-emitting piece is different from that of light emitted by each first auxiliary color temperature light-emitting piece.

7. The composite ceiling lamp of claim 6, wherein: the first light-emitting unit further comprises a plurality of light scattering pieces which are respectively arranged on the first main color temperature light-emitting piece and the first auxiliary color temperature light-emitting piece, and each light scattering piece is defined out of a chamber which is used for supplying the respective first main color temperature light-emitting piece or the first auxiliary color temperature light-emitting piece, and is used for scattering light rays emitted by the corresponding first main color temperature light-emitting piece or the first auxiliary color temperature light-emitting piece.

8. The composite ceiling lamp of claim 6, wherein: each light scattering piece is a semi-arc lens, and the arc surface is separated from the corresponding first main color temperature light emitting piece or the first auxiliary color temperature light emitting piece by a distance.

9. The composite ceiling lamp of claim 1, wherein: the second light-emitting unit further comprises a second light-emitting control part electrically connected with the second main color temperature light-emitting part, the second auxiliary color temperature light-emitting part and the control unit, and the control unit is suitable for outputting a second control signal corresponding to the remote control signal to the second light-emitting control part, so that the second light-emitting control part controls the brightness of the second main color temperature light-emitting part and the brightness of the second auxiliary color temperature light-emitting part.

10. The composite ceiling lamp of claim 6, wherein: the first light-emitting unit further comprises a first light-emitting control part electrically connected to the first main color temperature light-emitting part, the first auxiliary color temperature light-emitting part and the control unit, and the control unit is suitable for outputting a first control signal corresponding to the remote control signal to the first light-emitting control part, so that the first light-emitting control part controls the brightness of the first main color temperature light-emitting part and the brightness of the first auxiliary color temperature light-emitting part.

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