CN213686280U - Cold and warm look intelligence ball bubble lamp - Google Patents

Cold and warm look intelligence ball bubble lamp Download PDF

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CN213686280U
CN213686280U CN202022318908.0U CN202022318908U CN213686280U CN 213686280 U CN213686280 U CN 213686280U CN 202022318908 U CN202022318908 U CN 202022318908U CN 213686280 U CN213686280 U CN 213686280U
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led group
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钟德财
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Shenzhen Rmd Technology Co ltd
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Shenzhen Rmd Technology Co ltd
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
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    • Y02BCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
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    • Y02B20/40Control techniques providing energy savings, e.g. smart controller or presence detection

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Abstract

The utility model discloses a changes in temperature look intelligence ball bubble lamp, including lamp holder, globe type lamp shade and install the electronic component in the lamp holder, electronic component includes AC-DC power module and LED lamp plate, and the LED lamp plate includes base plate, LED drive module and a plurality of LED group, and each LED of LED drive module drive organizes the work, its the quantity of LED group is four, and LED drive module correspondence is equipped with four control ports, and LED group is controlled to every control port, and four LED groups are organized including warm light LED group, ruddiness LED group, green glow LED group and blue light LED group. The four control ports of the LED driving module CN1 are used for respectively controlling the brightness of the 4 LED lamp banks, and the light rays with different color temperatures are distributed according to the different brightness ratios of the 4 color lamp beads, so that the color temperature range of the intelligent cold and warm bulb lamp is enlarged.

Description

Cold and warm look intelligence ball bubble lamp
Technical Field
The utility model relates to a changes in temperature look intelligence ball bubble lamp.
Background
At present, cold warm look intelligence ball bubble lamp on market, including the lamp holder, spherical lampshade, and install the electronic component in the lamp holder, electronic component includes AC-DC power module and LED lamp plate, spherical lampshade covers outside the lamp plate, the LED lamp plate includes the base plate, and set up LED drive module CN1 and cold light LED banks (cold white LED) and warm light LED banks (warm white LED) on the base plate, through regularly lighting cold light LED banks and/or warm light LED banks, reach the colour temperature of adjusting the ball bubble lamp, the colour temperature scope of current cold warm look intelligence ball bubble lamp is many between 2700K ~ 6500K, the colour temperature is narrower. The user's needs cannot be satisfied.
SUMMERY OF THE UTILITY MODEL
The utility model provides a cold and warm look intelligence ball bubble lamp for the relatively narrow problem of colour temperature of solving cold and warm look intelligence lamp among the prior art.
The technical scheme of the utility model is realized like this:
the utility model aims at providing a cold and warm look intelligence ball bubble lamp, including lamp holder, globe type lamp shade, and install the electronic component in the lamp holder, electronic component includes AC-DC power module and LED lamp plate, globe type lamp shade cover outside the lamp plate, the LED lamp plate includes the base plate and sets up LED drive module and a plurality of LED group on the base plate, every LED group includes a plurality of LED lamp pearls, AC-DC power module provides the power to LED drive module, each LED of LED drive module drive group work, its characterized in that: the LED driver module is provided with four control ports, each control port controls one LED group, and the four LED groups comprise a warm light LED group formed by connecting a plurality of warm white light LED lamp beads in series or in parallel, a red light LED group formed by connecting a plurality of red light LED lamp beads in series or in parallel, a green light LED group formed by connecting a plurality of green light LED lamp beads in series or in parallel, and a blue light LED group formed by connecting a plurality of blue light LED lamp beads in series or in parallel.
The LED driving module is located in the center of the substrate, the red light LED group, the green light LED group and the blue light LED group are distributed around the LED driving module, and the warm white light LED lamp beads of the warm light LED group are distributed on the peripheries of the red light LED group, the green light LED group and the blue light LED group and are arranged in a circular mode.
The red light LED lamp beads, the green light LED lamp beads and the blue light LED lamp beads are distributed on two sides of the LED driving module at intervals.
The left side and the right side of the LED driving module CN1 are equally distributed with three rows of LED lamp beads, and each row of LED lamp beads is formed by arranging red LED lamp beads, green LED lamp beads and blue LED lamp beads at intervals.
The number of the warm white LED lamp beads is larger than or equal to the sum of the number of the red LED lamp beads, the number of the green LED lamp beads and the number of the blue LED lamp beads.
The number of the green light LED lamp beads is larger than that of the red light LED lamp beads, and the number of the red light LED lamp beads is larger than that of the blue light LED lamp beads.
The red light LED group is formed by connecting 5 red light LED lamp beads in series, the green light LED group is formed by connecting 6 green light LED lamp beads in series, the blue light LED group is formed by connecting 4 blue light LED lamp beads in series, and the warm light LED group is formed by 16 warm white light LED lamp beads.
The four control ports of the LED driving module are respectively a warm white light control port, a red light control port, a green light control port and a blue light control port, the anodes of the red light LED group, the green light LED group, the blue light LED group and the warm light LED group are all connected with the positive output end of the AC-DC power module, the cathode of the red light LED group is connected with the red light control port, the cathode of the green light LED group is connected with the green light control port, the cathode of the blue light LED group is connected with the blue light control port, and the cathode of the warm light LED group is connected with the warm white light control port.
The wireless communication module U1 is further arranged on the LED lamp panel, the AC-DC power supply module supplies power to the wireless communication module U1, the wireless communication module is connected with the communication interface of the LED driving module, and the LED driving module drives each LED group to work according to wireless signals received by the wireless communication module.
Compared with the prior art, the utility model, there is following advantage:
1. cold warm look intelligence ball bubble lamp, including lamp holder, globe type lamp shade and install the electronic component in the lamp holder, electronic component includes AC-DC power module and LED lamp plate, globe type lamp shade covers outside the lamp plate, the LED lamp plate includes the base plate and sets up LED drive module and a plurality of LED group on the base plate, every LED group includes a plurality of LED lamp pearls, AC-DC power module provides the power to LED drive module, each LED of LED drive module drive group work, its characterized in that: the LED driving module is provided with four control ports, each control port controls one LED group, and the four LED groups comprise a warm light LED group formed by connecting a plurality of warm white light LED lamp beads in series or in parallel, a red light LED group formed by connecting a plurality of red light LED lamp beads in series or in parallel, a green light LED group formed by connecting a plurality of green light LED lamp beads in series or in parallel, and a blue light LED group formed by connecting a plurality of blue light LED lamp beads in series or in parallel. The four control ports of the LED driving module CN1 are used for respectively controlling the brightness of the 4 LED lamp banks, and the light rays with different color temperatures are distributed according to the different brightness ratios of the 4 color lamp beads, so that the color temperature range of the intelligent cold and warm bulb lamp is enlarged.
2. Other advantages of the present invention will be described in detail in the examples section.
Drawings
Fig. 1 is an external view of an intelligent cold-warm bulb lamp provided by an embodiment of the present invention;
FIG. 2 is a circuit block diagram of an intelligent cold-warm bulb lamp;
FIG. 3 is a schematic diagram of the connection of each LED group and an LED driving module in a cold-warm color intelligent bulb lamp;
fig. 4 is a schematic layout diagram of an LED lamp panel in a cold-warm color intelligent bulb lamp.
Detailed Description
In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.
As shown in fig. 1 to 4, this embodiment provides a cold and warm look intelligence ball bubble lamp, including lamp holder 31, globe type lamp shade 32, and install the electronic component in lamp holder 31, electronic component includes AC-DC power module 1 and LED lamp plate 2, globe type lamp shade 32 covers outside lamp plate 2, LED lamp plate 2 includes base plate 21, and set up LED driver module CN1 and a plurality of LED group on the base plate, every LED group includes a plurality of LED lamp pearls, AC-DC power module 1 provides the power to LED driver module CN1, LED driver module CN1 drives each LED group work, its characterized in that: the LED driver comprises four LED groups, wherein the number of the LED groups is four, the LED driver module CN1 is correspondingly provided with four control ports, each control port controls one LED group, and the four LED groups comprise a warm light LED group 22 formed by connecting a plurality of warm white light LED lamp beads WW in series or in parallel, a red light LED group 23 formed by connecting a plurality of red light LED lamp beads R in series or in parallel, a green light LED group 24 formed by connecting a plurality of green light LED lamp beads G in series or in parallel, and a blue light LED group 25 formed by connecting a plurality of blue light LED lamp beads B in series or in parallel.
This embodiment cold warm look intelligence ball bubble lamp has increased three kinds of LED lamp pearls of ruddiness, green glow and blue light, controls the luminance of 4 LED banks respectively through four control ports of LED drive module CN1, joins in marriage the light of different colour temperatures through the different luminance of 4 kinds of colour lamp pearls, has enlarged the colour temperature scope of cold warm look intelligence ball bubble lamp.
The four control ports of the LED driving module CN1 are respectively a warm white light control port WW _ D, a red light control port R _ D, a green light control port G _ D and a blue light control port B _ D, the anodes of the red light LED group 23, the green light LED group 24, the blue light LED group 25 and the warm light LED group 22 are all connected to the positive output end VH of the AC-DC power module 1, the cathode of the red light LED group 23 is connected to the red light control port R _ D, the cathode of the green light LED group 24 is connected to the green light control port G _ D, the cathode of the blue light LED group 25 is connected to the blue light control port B _ D, and the cathode of the warm light LED group 22 is connected to the warm white light control port WW _ D. If the voltage of the four control ports needs to be adjusted, the voltage difference between two ends of each LED group is changed, and therefore the brightness of the lamp beads with various colors is adjusted.
The LED lamp panel 2 is further provided with a wireless communication module U1, the AC-DC power module 1 supplies power to the wireless communication module U1, the wireless communication module U1 is connected with the communication interface of the LED driving module CN1, and the LED driving module CN1 drives each LED group to work according to wireless signals received by the wireless communication module U1. After control instructions such as on/off, brightness and color temperature adjustment sent by the mobile phone APP terminal are received through the wireless communication module U1, the cold and warm intelligent bulb lamp achieves the remote control function and executes commands such as on/off, brightness adjustment and color temperature adjustment. Wireless communication module U1 makes cold and warm look intelligent ball bubble lamp.
The LED driving module CN1 is located in the center of the substrate 21, the red LED group 23, the green LED group 24 and the blue LED group 25 are distributed around the LED driving module CN1, and the warm white LED lamp beads WW of the warm light LED group 22 are distributed around the red LED group, the green LED group and the blue LED group and are arranged in a circle. Reasonable in layout, the periphery that warm white light LED lamp pearl WW distributes makes the light of ball bubble lamp more even.
The red LED lamp beads R, the green LED lamp beads G and the blue LED lamp beads B are distributed on two sides of the LED driving module CN1 at intervals.
The left side and the right side of the LED driving module CN1 are equally distributed with three rows of LED lamp beads, and each row of LED lamp beads is formed by arranging red LED lamp beads R, green LED lamp beads G and blue LED lamp beads B at intervals.
The number of the warm white LED lamp beads WW is larger than or equal to the sum of the number of the red LED lamp beads R, the number of the green LED lamp beads G and the number of the blue LED lamp beads B.
The number of the green light LED lamp beads G is larger than that of the red light LED lamp beads R, and the number of the red light LED lamp beads R is larger than that of the blue light LED lamp beads B.
The red light LED group 23 is formed by connecting 5 red light LED lamp beads R in series, the green light LED group 24 is formed by connecting 6 green light LED lamp beads G in series, the blue light LED group 25 is formed by connecting 4 blue light LED lamp beads B in series, and the warm light LED group 22 is formed by connecting 16 warm white light LED lamp beads WW.
The cold and warm intelligent bulb lamp can be adjusted to a color temperature range of 1500K-9600K through combination of red, green, blue, warm white and four lamp beads. Table 1 shows the brightness values of red LED lamp bead R, green LED lamp bead G, blue LED lamp bead B, and warm white LED lamp bead WW at various color temperatures:
Figure DEST_PATH_GDA0003057855670000051
TABLE 1
Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention in its corresponding aspects.

Claims (9)

1. The utility model provides a cold and warm look intelligence ball bubble lamp, including lamp holder (31), globe type lamp shade (32), and install the electronic component in lamp holder (31), electronic component includes AC-DC power module (1) and LED lamp plate (2), globe type lamp shade (32) cover outside lamp plate (2), LED lamp plate (2) include base plate (21), and set up LED drive module CN1 and a plurality of LED group on the base plate, every LED group includes a plurality of LED lamp pearls, AC-DC power module (1) provides the power to LED drive module CN1, LED drive module CN1 drives each LED group work, its characterized in that: the LED group number is four, and LED drive module CN1 corresponds and is equipped with four control ports, and LED group is controlled to every control port, and four LED groups are established ties or parallelly connected warm light LED group (22) that form by a plurality of warm white light LED lamp pearl WW, establish ties or parallelly connected ruddiness LED group (23) that form by a plurality of ruddiness LED lamp pearl R, establish ties or parallelly connected green glow LED group (24) that form by a plurality of green glow LED lamp pearl G, and establish ties or parallelly connected blue light LED group (25) that form by a plurality of blue light LED lamp pearl B.
2. The intelligent cool-warm bulb lamp according to claim 1, wherein: the LED driving module CN1 is located in the center of the substrate (21), the red light LED group (23), the green light LED group (24) and the blue light LED group (25) are distributed around the LED driving module CN1, and the warm white light LED lamp beads WW of the warm light LED group (22) are distributed around the red light LED group, the green light LED group and the blue light LED group and are arranged in a circle.
3. The intelligent cool-warm bulb lamp according to claim 2, wherein: the red LED lamp beads R, the green LED lamp beads G and the blue LED lamp beads B are distributed on two sides of the LED driving module CN1 at intervals.
4. The intelligent cool-warm bulb lamp according to claim 3, wherein: the left side and the right side of the LED driving module CN1 are equally distributed with three rows of LED lamp beads, and each row of LED lamp beads is formed by arranging red LED lamp beads R, green LED lamp beads G and blue LED lamp beads B at intervals.
5. The intelligent cool-warm bulb lamp according to any one of claims 1 to 4, wherein: the number of the warm white LED lamp beads WW is larger than or equal to the sum of the number of the red LED lamp beads R, the number of the green LED lamp beads G and the number of the blue LED lamp beads B.
6. The intelligent cool-warm bulb lamp according to claim 5, wherein: the number of the green light LED lamp beads G is greater than that of the red light LED lamp beads R, and the number of the red light LED lamp beads R is greater than that of the blue light LED lamp beads B.
7. The intelligent cool-warm bulb lamp according to claim 6, wherein: red light LED group (23) are established ties by 5 ruddiness LED lamp pearls R and are formed, and green glow LED group (24) are established ties by 6 green glow LED lamp pearls G and are formed, and blue light LED group (25) are established ties by 4 blue light LED lamp pearls B and are formed, and warm light LED group (22) comprise 16 warm white light LED lamp pearls WW.
8. The intelligent cool-warm bulb lamp according to any one of claims 1 to 4, wherein: the LED driving module CN1 is characterized in that four control ports of the LED driving module CN1 are a warm white light control port WW _ D, a red light control port R _ D, a green light control port G _ D and a blue light control port B _ D respectively, anodes of a red light LED group (23), a green light LED group (24), a blue light LED group (25) and a warm light LED group (22) are connected with a positive output end VH of the AC-DC power module (1), a cathode of the red light LED group (23) is connected with the red light control port R _ D, a cathode of the green light LED group (24) is connected with the green light control port G _ D, a cathode of the blue light LED group (25) is connected with the blue light control port B _ D, and a cathode of the warm light LED group (22) is connected with the warm white light control port WW _ D.
9. The cool-warm intelligent bulb lamp according to claim 8, wherein: the LED lamp panel (2) is further provided with a wireless communication module U1, the AC-DC power module (1) provides power for the wireless communication module U1, the wireless communication module U1 is connected with the communication interface of the LED driving module CN1, and the LED driving module CN1 drives each LED group to work according to wireless signals received by the wireless communication module U1.
CN202022318908.0U 2020-10-16 2020-10-16 Cold and warm look intelligence ball bubble lamp Active CN213686280U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202022318908.0U CN213686280U (en) 2020-10-16 2020-10-16 Cold and warm look intelligence ball bubble lamp

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Application Number Priority Date Filing Date Title
CN202022318908.0U CN213686280U (en) 2020-10-16 2020-10-16 Cold and warm look intelligence ball bubble lamp

Publications (1)

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CN213686280U true CN213686280U (en) 2021-07-13

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